CN214493660U - Logistics package code pasting machine - Google Patents

Abstract

The utility model provides a commodity circulation package ink recorder belongs to equipment for packing technical field. It has solved the problem that does not possess good subsides sign indicating number automation function among the current commodity circulation equipment for packing. This ink recorder includes the frame and sets up the subsides yard device in the frame, material feeding unit, dam device, material collecting device, pastes yard device and includes the aversion pneumatic cylinder of vertical fixed setting and connects the aversion piece in aversion pneumatic cylinder piston rod bottom, rotates on the aversion piece and is equipped with ejection of compact reel, receipts material reel, guide reel, first station reel, second station reel, still fixedly on the aversion piece being equipped with and being used for driving ejection of compact reel to carry out pivoted around rolling up the driving piece. Compared with the prior art, the stacking machine has high automation degree, can realize multiple processes such as packaging, conveying, positioning, deviation correction, material receiving and the like, and is convenient for the stacking process of packages.

Description

Logistics package code pasting machine

Technical Field

The utility model belongs to the technical field of the commodity circulation equipment for packing, a commodity circulation package ink recorder is related to.

Background

Logistics is a system for controlling the movement of raw materials, finished products and information from supply to the end consumer via the transfer and possession of various intermediate links, thereby achieving the clear goal of organization. The logistics has become an important part of the international economic system, and the modern logistics is the product of economic globalization and is also an important service industry for promoting economic globalization.

Aiming at products directly sold by manufacturers, the sizes of the products are consistent, so that the products only need to be packaged in one scale, after a customer places an order, if the logistics packages finished by packaging can be directly pasted with codes through a production line, a plurality of processes can be saved, but in the prior art, equipment integrating ordering and pasting with codes does not exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the good automatic function of code pasting is not achieved in the existing logistics packaging equipment, and providing a logistics bag code pasting machine.

The purpose of the utility model can be realized by the following technical proposal:

the utility model provides a commodity circulation package ink recorder which characterized in that: the label sticking device comprises a rack, a label sticking device, a feeding device, a material blocking device and a material receiving device, wherein the label sticking device, the feeding device, the material blocking device and the material receiving device are arranged on the rack, the label sticking device comprises a vertically and fixedly arranged shifting hydraulic cylinder and a shifting block connected to the bottom of a piston rod of the shifting hydraulic cylinder, a discharging reel, a material receiving reel, a guide reel, a first station reel and a second station reel are arranged on the shifting block in a rotating manner, a winding driving piece for driving the discharging reel to rotate is further fixedly arranged on the shifting block, the discharging reel and the material receiving reel are horizontally arranged, the first station reel and the second station reel are horizontally arranged, the guide reel is arranged between the discharging reel and the first station reel in the height direction, a guide film is tightly erected on the reels, the guide film is discharged from the discharging reel and is wound on the guide reel, the first station reel and the second station reel, and is finally wound on the material receiving reel, and is used for sticking a label on one side surface of the guide film, which is opposite to the shifting hydraulic cylinder, the label is made of transparent materials, so that the front surface and the back surface of the label can clearly see characters after the characters are printed on the label, the shifting block is also fixedly provided with an extending block, the bottom surface of the extending block is fixedly provided with a pressing cylinder, a piston rod of the pressing cylinder faces downwards, the end part of the piston rod is connected with a pressing block, the pressing block is positioned between a first station winding drum and a second station winding drum and can press a guide film at the position downwards, the shifting block is also fixedly provided with a glue tank and is rotatably provided with a glue coating shaft, the glue coating shaft is positioned between the guide winding drum and the first station winding drum at the height position, the outer periphery of the glue coating shaft is provided with a plurality of glue coating brushes, transparent glue liquid is placed in the glue tank, the glue coating shaft rotates under the driving action of a glue coating driving piece, the glue coating brushes can scrape glue from the glue tank and coat the glue on the label positioned on the guide film from the side surface of the glue coating shaft in the rotating process along with the glue coating shaft, the pressing block is provided with a round top, the adjacent labels are spaced, and the gluing brush is provided with four equal parts on the gluing shaft.

In the above-mentioned logistics bag labeling machine, the material blocking device comprises a fixedly arranged gear driving member, a limiting block fixedly arranged on the station frame, a sliding plate slidably arranged on the station frame, and two gear shafts freely rotatably arranged on the station frame, wherein the top ends of the two gear shafts are provided with a baffle plate for blocking materials on the conveyor belt of the labeling machine, the gear shafts are further fixedly sleeved with gear switching gears, the sliding plate is symmetrically provided with two sets of gear switching racks, the gear switching racks are respectively meshed with the gear switching gears on the two gear shafts, the bottom of the sliding plate is fixedly provided with a straight block, a straight chute is linearly arranged on the straight block, the straight chute is slidably embedded on the limiting block, one end of the sliding plate, which is opposite to the gear switching racks, is rotatably connected with a connecting rod, the end of an output shaft of the gear driving member is fixedly connected with a crank, and the end of the crank is rotatably connected with the other end of the connecting rod, when the sliding plate slides to the position closest to the gear driving part, the two baffles are in the initial state of complete closing and are in the same virtual plane, and when the sliding plate slides to the position farthest from the gear driving part, the two baffles are in the state of complete opening, and the included angle between the baffles and the virtual plane is at least 90 degrees.

In the logistics package stacking machine, the feeding device comprises a station frame and a vertical frame which are fixedly arranged, a groove-shaped vacancy is formed in the station frame, passive conveying rollers are freely arranged on two sides of the groove-shaped vacancy, an active conveying roller is rotatably arranged on the vertical frame, the active conveying roller and the passive conveying rollers are horizontally arranged, a conveying driving piece for driving the active conveying roller to rotate is further fixedly arranged on the vertical frame, a conveying belt is tightly sleeved on the active conveying roller and the passive conveying rollers, a plurality of square shifting grooves are formed in the inner wall of the conveying belt at equal intervals, square shifting blocks with the same size as the square shifting grooves are arranged on the outer wall of the active conveying roller, the square shifting blocks can be embedded into the square shifting grooves and can drive the conveying belt to transmit, the conveying belt can be separated from the square shifting grooves to be in a stagnation state, and the space size between every two adjacent square shifting grooves is smaller than the perimeter of the outer ring of the active conveying roller, but is larger than half of the circumference of the outer ring of the driving conveying roller.

In the logistics package stacking machine, the material receiving device comprises a box body, a fixedly arranged shaking driving piece and two parallel fixedly arranged linear slide rails, a cavity for accommodating articles is arranged in the box body, the shaking driving piece is positioned below the box body, the end part of an output shaft of the shaking driving piece is fixedly connected with a shaking cam, the bottom of the box body is also fixedly provided with two shaking plates, the shaking cam is arranged between the two shaking plates, two ends of the shaking cam are respectively attached to the surfaces of the two shaking plates, the upper surface of the linear slide rail is provided with a first chute, the bottom surface of the box body is provided with two second chutes in parallel, a plurality of balls are densely arranged in the second chutes, the first chutes can be matched with the second chutes to form a channel, the balls are positioned in the channel, the transverse section of the channel is circular, the transverse section of the first chute is smaller than that of the second chute, so that the balls are always embedded in the second chutes and cannot fall off, the rocking cam can push the rocking plates on the two sides of the rocking cam after rotating so that the two rocking plates periodically drive the box body to move back and forth.

Compared with the prior art, the stacking machine has high automation degree, can realize multiple processes such as packaging, conveying, positioning, deviation correction, material receiving and the like, and is convenient for the stacking process of packages.

Drawings

FIG. 1 is a schematic diagram of the structure of the labeling machine;

FIG. 2 is a schematic diagram of the structure of the barcode pasting machine after changing a viewing angle;

fig. 3 is a schematic structural view of the dam device when the baffle is completely closed;

fig. 4 is a schematic structural view of the stock stop device in the process of opening the baffle;

fig. 5 is a schematic structural view of the dam device after the baffle is completely opened;

FIG. 6 is a schematic view of the receiving device from above;

FIG. 7 is a schematic structural view of the material receiving device after the linear slide rail is separated;

FIG. 8 is a schematic structural view of the material receiving device after the linear slide rail is hidden;

FIG. 9 is a schematic structural diagram of a code pasting device;

in the figure, 1, a station frame; 2. erecting a frame; 3. a groove-shaped vacancy; 4. a passive conveying roller; 5. actively conveying the roller; 6. a conveying drive member; 7. a conveyor belt; 8. a square shifting groove; 9. a square shifting block; 10. a gear driving member; 11. a limiting block; 12. a slide plate; 13. a gear shaft; 14. a baffle plate; 15. a gear shift gear; 16. a gear shift rack; 17. straightening; 18. a linear chute; 19. a connecting rod; 20. a crank; 21. weight loss vacancy; 22. a yielding gap; 23. a box body; 24. shaking the driving piece; 25. a linear slide rail; 26. a cavity; 27. shaking the cam; 28. a shaking plate; 29. a first chute; 30. a second chute; 31. a ball bearing; 32. a displacement hydraulic cylinder; 33. a shift block; 34. a discharging drum; 35. a material receiving reel; 36. a guide spool; 37. a first station reel; 38. a second station reel; 39. a guide film; 40. extending the block; 41. pressing and pasting the air cylinder; 42. briquetting; 43. a glue tank; 44. gluing shafts; 45. a gluing brush; 46. a dome.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 and 2, the commodity flow packing and coding machine is characterized in that: the automatic material receiving machine comprises a rack, and a code pasting device, a feeding device, a material blocking device and a material receiving device which are arranged on the rack.

As shown in fig. 9, the labeling device includes a vertically fixed shifting hydraulic cylinder 32 and a shifting block 33 connected to the bottom of the piston rod of the shifting hydraulic cylinder 32, the shifting block 33 is rotatably provided with a discharging reel 34, a receiving reel 35, a guiding reel 36, a first station reel 37, a second station reel 38, the shifting block 33 is further fixedly provided with a winding driving member for driving the discharging reel 34 to rotate, the discharging reel 34 and the receiving reel 35 are horizontally arranged, the first station reel 37 and the second station reel 38 are horizontally arranged, the guiding reel 36 is arranged between the discharging reel 34 and the first station reel 37 in the height direction, the guiding film 39 is tightly wound on the reels, the guiding film 39 is led out from the discharging reel 34 to the guiding reel 36, the first station reel 37, the second station reel 38 is finally wound on the receiving reel 35, one side of the guiding film 39 opposite to the shifting hydraulic cylinder 32 is used for labeling, the label is made of transparent materials, so that characters can be clearly seen from the front and back surfaces of the label after the characters are printed on the label, an extending block 40 is fixedly arranged on a shifting block 33, a pressing cylinder 41 is fixedly arranged on the bottom surface of the extending block 40, a piston rod of the pressing cylinder 41 faces downwards, the end part of the piston rod is connected with a pressing block 42, the pressing block 42 is positioned between a first station winding drum 37 and a second station winding drum 38 and can press a guide film 39 at the position downwards, a glue tank 43 is fixedly arranged on the shifting block 33 and is rotatably provided with a glue coating shaft 44, the glue coating shaft 44 is positioned between the guide winding drum 36 and the first station winding drum 37 at the height position, a plurality of glue coating brushes 45 are arranged on the periphery of the glue coating shaft 44, the glue coating brushes 43 are used for placing transparent glue liquid, the glue coating shaft 44 rotates under the driving action of a glue coating driving piece, the glue coating brushes 45 can scrape the glue from the glue tank 43 and coat the glue on the label positioned on the guide film 39 from the side surface in the process of the glue coating brushes 44 along with the rotation of the glue coating shaft 44, the press block 42 is provided with a dome 46 on the floor with a space between adjacent labels.

It should be noted that the labeling device is applied to the package, and the preset position of the label to be labeled can only be a single color, so that the characters can be seen after the transparent label is adhered.

The transparent label is printed before being applied to the take-off reel 34, and then is applied to the guide film 39, which is also sticky, but not so sticky that it sticks to the label.

In the operation process, after the position that the parcel removed is reasonable, move the piece 33 that shifts to the position that is close to the parcel through shifting pneumatic cylinder 32 in the direction of height, then drive ejection of compact reel 34 through around the driving piece that rolls up and rotate, trend guide film 39 is step-by-step, transparent glue can scribble in the label surface through rubber coating brush 45, then continue step-by-step let wait to post label before first station reel 37 and second station reel 38, rethread laminating cylinder 41 pushes down briquetting 42 by a small margin, makes the label press to the parcel.

As shown in fig. 1 and 2, the feeding device comprises a station frame 1 and a vertical frame 2, a groove-shaped vacancy 3 is formed in the station frame 1, two sides of the groove-shaped vacancy 3 are freely rotated and erected with a passive conveying roller 4, an active conveying roller 5 is rotatably arranged on the vertical frame 2, the active conveying roller 5 and the passive conveying roller 4 are horizontally arranged, a conveying driving part 6 used for driving the active conveying roller 5 to rotate is fixedly arranged on the vertical frame 2, a conveying belt 7 is tightly sleeved on the active conveying roller 5 and the passive conveying roller 4, a plurality of square shifting grooves 8 are formed in the inner wall of the conveying belt 7 at equal intervals, square shifting blocks 9 with the sizes of the square shifting grooves 8 are arranged on the outer wall of the active conveying roller 5, the square shifting blocks 9 can be embedded into the square shifting grooves 8 and drive the conveying belt to transmit, and can be separated from the square shifting grooves 8 to enable the conveying belt to be in a stagnation state.

The distance size of two adjacent square groove 8 of dialling is less than the outer lane girth of initiative conveying running roller 5, but is greater than half of the outer lane girth of initiative conveying running roller 5, and the thickness of conveyer belt 7 is square groove 8 degree of depth's twice at least, and the both sides of initiative conveying running roller 5 and passive conveying running roller 4 all are equipped with and carry out horizontal retaining ring that transversely limits to conveyer belt 7.

In the operation process, the conveying driving part 6 is started, then the active conveying roller 5 is continuously circulated, after a square shifting block 9 on the active conveying roller 5 sinks into one square shifting groove 8 on the conveying belt 7, the active conveying roller 5 can drive the conveying belt 7 to transmit, namely the conveying process, and after the active conveying roller 5 rotates to the square shifting block 9 and the previous square shifting groove 8 to be separated, the driving process is in a neutral gear state, the rotation of the active conveying roller 5 cannot drive the conveying belt 7 to transmit, and the time is dead time, so that the parcel on the station frame 1 can be subjected to stacking operation in the period, the transmission state can be carried out until the square shifting block 9 is matched with the next square shifting groove 8, and the mode of starting and stopping at intervals is formed repeatedly.

As shown in fig. 3 to 5, the material stopping device includes a fixedly disposed gear driving member 10, a limiting block 11 fixedly disposed on the station frame 1, a sliding plate 12 slidably disposed on the station frame 1, and two gear shafts 13 freely rotatably disposed on the station frame 1, the top ends of the two gear shafts 13 are provided with a baffle 14, the baffle 14 is used for blocking the material on the conveyor belt of the barcode pasting machine, the gear shafts 13 are further fixedly sleeved with gear switching gears 15, the sliding plate 12 is symmetrically provided with two sets of gear switching racks 16, the gear switching racks 16 are respectively engaged with the gear switching gears 15 on the two gear shafts 13, the bottom of the sliding plate 12 is fixedly provided with a straight block 17, a straight sliding groove 18 is linearly formed on the straight block 17, the straight sliding groove is slidably embedded on the limiting block 11, one end of the sliding plate 12 opposite to the gear switching rack 16 is rotatably connected with a connecting rod 19, the end of the output shaft of the gear driving member 10 is fixedly connected with a crank 20, the end of the crank 20 is rotatably connected to the other end of the connecting rod 19, and the two shutters 14 are in an initial state of being completely closed and in the same virtual plane when the sliding plate 12 slides to a position closest to the gear drive 10, and the two shutters 14 are in a state of being completely opened when the sliding plate 12 slides to a position farthest from the gear drive 10, and in this state, the angle between the shutters 14 and the virtual plane is at least 90 degrees.

The gear switching gear 15, the gear switching rack 16, a connection point of the sliding plate 12 and the connecting rod 19, and a connection point of an output shaft of the gear driving member 10 and the connecting rod 19 are located on the same virtual plane, a weight-reducing gap 21 is formed in the sliding plate 12, a yielding gap 22 is formed between the two baffles 14 when the two baffles are located on the same plane, and the yielding gap 22 is used for preventing the baffles 14 from interfering with each other in the opening process.

In the working process, the gear driving part 10 is started to drive the crank 20 to continuously rotate, in the rotating process of the crank 20, the connecting action of the connecting rod 19 drives the sliding plate 12 to slide back and forth in the linear direction limited by the limiting block 11, in the back and forth sliding process, the gear switching rack 16 can drive the gear switching gear 15 to rotate, so that the baffle 14 can turn over along with the gear shaft 13, and as the two gear switching racks 16 are symmetrically arranged, the two baffle switching racks can realize the symmetrical motion of the two baffles 14 by the same sliding plate 12 meshed with the gear switching gear 15 to form the opening and closing effect, and as the sliding plate 12 moves back and forth, the motion of the two baffles 14 also generates the automatic opening and closing effect,

when the baffle plates 14 are completely closed, the packages are blocked to generate a limiting effect, although the feeding device generates an effect of feeding at intervals, the phenomenon of excessive stepping at the processing position of the conveying belt 7 is inevitable, and the packages can generate a self-righting effect under the conveying action of the conveying belt at the bottom because the two baffle plates 14 are positioned on the same plane; when the flaps 14 are fully opened, the packages are fed between the flaps 14.

As shown in fig. 6 to 8, the material collecting device includes a box 23, a fixed swinging driving member 24 and two parallel fixed linear sliding rails 25, the box 23 has a cavity 26 for accommodating objects, the swinging driving member 24 is located below the box 23, an output shaft of the swinging driving member 24 is fixedly connected with a swinging cam 27, the bottom of the box 23 is further fixedly provided with two swinging plates 28, the swinging cam 27 is disposed between the two swinging plates 28 and both ends thereof are attached to the surfaces of the two swinging plates 28, the upper surface of the linear sliding rail 25 is provided with a first sliding chute 29, the bottom of the box 23 is provided with two parallel second sliding chutes 30, a plurality of balls 31 are densely provided in the second sliding chutes 30, the first sliding chute 29 can cooperate with the second sliding chute 30 to form a channel, the balls 31 are located in the channel and the transverse cross section of the channel is circular, the transverse cross section of the first sliding chute 29 is smaller than the transverse cross section of the second sliding chute 30, so that the balls 31 are always embedded in the second sliding chutes 30 and will not fall off, the shaking plates 28 on the two sides of the shaking cam 27 can be jacked to the shaking cam 27 after the shaking cam 27 rotates, so that the two shaking plates 28 periodically drive the box body 23 to move back and forth, the shaking driving piece 24 comprises a shaking driving motor and a speed reducer, the output shaft of the speed reducer is connected with the shaking cam 27, the output shaft of the shaking driving piece 24 is located on the symmetrical surfaces of the two second sliding grooves 30, and the time of the shaking cam 27 rotating for one circle is 0.5-1 second.

In the use, open and rock driving piece 24, make and rock cam 27 and have enough to meet the need, then, rock cam 27's both sides base circle can press gradually in proper order on locating at left shaking board 28 or the shaking board 28 on right side, then drive box 23 and realize moving left and moving right, produce the effect of rocking, as long as rock cam 27's rotational speed is very fast, box 23 rocks and just so fast, is in the space of low position very easily that the article of high position falls under the inertial action.

It is to be understood that in the claims, the specification of the present invention, all "including … …" are to be interpreted in an open-ended manner, i.e. in a manner equivalent to "including at least … …", and not in a closed manner, i.e. in a manner not to be interpreted as "including … … only".

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (1)

1. The utility model provides a commodity circulation package ink recorder which characterized in that: the automatic stacking and receiving device comprises a rack, a stacking and receiving device arranged on the rack, a feeding device, a material blocking device and a material receiving device, wherein the stacking and receiving device comprises a vertically and fixedly arranged shifting hydraulic cylinder (32) and a shifting block (33) connected to the bottom of a piston rod of the shifting hydraulic cylinder (32), a discharging reel (34), a material receiving reel (35), a guiding reel (36), a first station reel (37) and a second station reel (38) are rotatably arranged on the shifting block (33), a winding driving piece for driving the discharging reel (34) to rotate is fixedly arranged on the shifting block (33), the discharging reel (34) and the material receiving reel (35) are horizontally arranged, the first station reel (37) and the second station reel (38) are horizontally arranged, the guiding reel (36) is arranged between the discharging reel (34) and the first station reel (37) in the height direction, a guiding film (39) is tightly stretched on the reels, the guide film (39) is led out from the discharging reel (34) and is led to the guide reel (36), the first station reel (37) and the second station reel (38) to be wound on the material receiving reel (35), one side of the guide film (39) back to the shifting hydraulic cylinder (32) is used for attaching a label, the label is made of transparent materials, the front side and the back side of the label can be clearly seen after the label is printed with characters, the shifting block (33) is further fixedly provided with an extending block (40), the bottom surface of the extending block (40) is fixedly provided with a pressing and attaching air cylinder (41), a piston rod of the pressing and attaching air cylinder (41) faces downwards, the end part of the piston rod is connected with a pressing block (42), the pressing block (42) is positioned between the first station reel (37) and the second station reel (38) and can press the guide film (39) at the position downwards, the shifting block (33) is further fixedly provided with a glue water tank (43) and is rotatably provided with a glue coating shaft (44), this glue spreader (44) is in guide reel (36) and first station reel (37) on the high position between, the periphery circle of glue spreader (44) is equipped with a plurality of rubber coating brushes (45), is used for putting into transparent glue liquid in glue case (43), glue spreader (44) rotate under the drive action of a rubber coating driving piece, rubber coating brushes (45) are following glue spreader (44) pivoted in-process, can scrape glue in glue case (43) and paint from the side on the label that lies in guide film (39), briquetting (42) bottom surface is equipped with calotte (46), adjacent the label between have the interval, rubber coating brushes (45) have four groups of equal distribution on glue spreader (44), dam device including fixed fender position driving piece (10) that sets up, fixed stopper (11) that set up on station frame (1), slide (12) that the slip set up on station frame (1), Two gear shafts (13) freely rotatably arranged on a station frame (1), a baffle (14) is arranged at the top end of each gear shaft (13), the baffle (14) is used for blocking materials on a conveying belt (7) of the code sticking machine, gear switching gears (15) are fixedly sleeved on the gear shafts (13), two groups of gear switching racks (16) are symmetrically arranged on a sliding plate (12), the gear switching racks (16) are respectively meshed with the gear switching gears (15) on the two gear shafts (13), a straight block (17) is fixedly arranged at the bottom of the sliding plate (12), a straight sliding groove (18) is linearly arranged on the straight block (17), the straight sliding groove (18) is slidably embedded on a limiting block (11), a connecting rod (19) is rotatably connected at one end part of the sliding plate (12) back to the gear switching gears (16), and a crank (20) is fixedly connected at the end part of an output shaft of a gear driving part (10), the end of the crank (20) is rotatably connected with the other end of the connecting rod (19), when the sliding plate (12) slides to the position closest to the gear driving piece (10), the two baffles (14) are in a completely closed initial state and are in the same virtual plane, when the sliding plate (12) slides to the position farthest from the gear driving piece (10), the two baffles (14) are in a completely opened state, and the included angle between the baffles (14) and the virtual plane is at least 90 degrees.

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