CN115352716B - Oxygen indication type deoxidizer automatic production line and method - Google Patents

Abstract

The invention discloses an oxygen indication type automatic deoxidizer production line and a method, and particularly relates to the technical field of deoxidizer production, the automatic deoxidizer production line comprises an outer device frame, wherein a sealing and cutting mechanism is fixedly clamped at the bottom of the outer device frame, a material control assembly is fixedly arranged at the top of the outer side of the outer device frame, a forming assembly is fixedly arranged at the bottom end of the material control assembly, a feeding assembly is fixedly arranged at one side, close to the forming assembly, of the outer side of the outer device frame, and a material guide assembly is fixedly arranged at one side, close to the material control assembly.

Description

Oxygen indication type deoxidizer automatic production line and method

Technical Field

The invention relates to the technical field of deoxidizer production, in particular to an oxygen indication type deoxidizer automatic production line and an oxygen indication type deoxidizer automatic production method.

Background

The oxygen indication type deoxidizer is a deoxidizing fresh-keeping agent with an oxygen concentration display function, and when oxygen exists, a deoxidizer side indication line presents blue or purple blue; the deoxidizer side bar indicator line appears pink when oxygen is absent. When the O2 is less than or equal to 0.1 percent, the oxygen indicator deoxidizer is defined as oxygen-free), the red fresh-keeping is effective, the blue fresh-keeping is ineffective, and the oxygen indicator deoxidizer is widely applied to the food packaging technology, can detect the oxygen content in the packaging bag after the food is packaged, thereby ensuring the fresh-keeping of the food in the packaging bag, and is convenient for observing whether the food in the packaging bag is damaged or not, and has ideal use effect;

however, in the conventional production of the oxygen indicator type deoxidizer, the oxygen indicator type test strip is usually manually packaged at the side end of the original deoxidizer, so that the overall production efficiency is low, and the manual cutting is required.

Disclosure of Invention

The invention aims to provide an oxygen indication type deoxidizer automatic production line and an oxygen indication type deoxidizer automatic production method, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an oxygen indication formula deoxidizer automatic production line, includes the device frame, the bottom fixation card of device frame is equipped with seals cuts the mechanism, the outside top fixed mounting of device frame has accuse material subassembly, the bottom fixed mounting of accuse material subassembly has shaping subassembly, one side fixed mounting that is close to shaping subassembly in the device frame outside has feeding assembly, one side fixed mounting that is close to accuse material subassembly in the device frame outside has the guide subassembly.

As a preferred technical scheme of the invention, the sealing and cutting mechanism comprises two transverse plate frames which are vertically and symmetrically distributed, wherein the transverse plate frames are fixedly clamped at the bottom of an outer frame of the device, a first heat sealing frame and a second heat sealing frame are rotatably clamped between the two transverse plate frames, the first heat sealing frame and the second heat sealing frame are symmetrically distributed, one side end part of the first heat sealing frame, which is close to the second heat sealing frame, is fixedly connected with a rotating shaft, one side end part of the second heat sealing frame, which is close to the first heat sealing frame, is fixedly connected with a rotating ring matched with the rotating shaft, the rotating shaft is rotatably clamped in the corresponding rotating ring, two opposite sides of the transverse plate frames are fixedly provided with rotating protrusions, one side, which is close to the rotating protrusions, of the first heat sealing frame is fixedly provided with arc grooves corresponding to the clamping protrusions, the two opposite sides of the transverse plate frames are movably clamped in the corresponding arc grooves, the circle center position of the arc grooves corresponds to the rotating shaft, the heat sealing position of the heat sealing frame is fixedly provided with heat sealing parts, the bottom sealing parts are arranged at the bottom of the first side, the second side, the bottom side of the first heat sealing frame is fixedly provided with heat sealing frame, and the bottom sealing parts are fixedly arranged at the bottom of the first side, the two side parts are fixedly provided with heat sealing frames, and the bottom sealing parts are fixedly arranged at the bottom ends of the first side and the side parts are far from the L side parts.

As a preferable technical scheme of the invention, the outer walls of one side, far away from the side heat sealing piece, of the first heat sealing frame and the second heat sealing frame are fixedly provided with driving inclined frames, driving columns are respectively and slidably clamped between the two driving inclined frames, a connecting bottom plate is fixedly arranged between the two driving columns, one side, far away from the first heat sealing frame, of the transverse plate frame is fixedly provided with a telescopic rod, and the driving end of the telescopic rod and the middle part of the connecting bottom plate are fixedly arranged.

As a preferable technical scheme of the invention, the material control assembly comprises a material storage cylinder and a material control cylinder, wherein the material storage cylinder and the material control cylinder are vertically distributed, a stable frame is fixedly arranged at the top of the outer side of the material storage cylinder, the stable frame is fixedly arranged on an outer frame of the device, a connecting frame is fixedly arranged between the outer walls of the material storage cylinder and the material control cylinder, the connecting frame is fixedly arranged at the top of the outer side of the outer frame of the device, a material storage frame is fixedly clamped at the bottom of the inner wall of the material storage cylinder, a plurality of material storage penetrating grooves are formed in the material storage frame, a material control frame is rotatably clamped at the top of the material control cylinder, a plurality of material control penetrating grooves matched with the material storage penetrating grooves are formed in the material control frame, a toothed ring is fixedly sleeved at the top of the outer side of the material control frame, a rack is connected with the side end of the toothed ring in a meshed manner, a connecting clamping frame is fixedly arranged at the end of the rack, and one side of the connecting clamping frame far away from the rack is clamped at the top of the outer frame of the device.

As a preferable technical scheme of the invention, a connecting rod is arranged at the middle part of the transverse plate frame at the top in a sliding manner, the bottom end of the connecting rod is fixedly arranged at the middle part of the connecting bottom plate, and the top end of the connecting rod is fixedly arranged at the middle part of the connecting clamping frame.

As a preferable technical scheme of the invention, the forming assembly comprises a material guiding inclined tube, the top end of the material guiding inclined tube and the bottom end of the material control cylinder are fixedly arranged, a sleeve frame is fixedly sleeved on the top of the material guiding inclined tube, the sleeve frame is fixedly arranged on the outer frame of the device, a material inlet pipe is fixedly arranged at the bottom end of the material guiding inclined tube, a forming ring is sleeved in the middle of the outer side of the material inlet pipe, the forming ring is fixedly arranged on the outer frame of the device, and a material drain tube is fixedly arranged on one side of the forming ring away from the outer frame of the device.

As a preferable technical scheme of the invention, the feeding assembly comprises a feeding support, the feeding support is fixedly arranged at one side, close to the forming assembly, of the outer side of the outer frame of the device, a feeding roller is rotatably arranged at the top of the feeding support, a material-thinning roller is rotatably arranged at the middle part of the feeding support, a wire feeding roller is rotatably arranged at the bottom of the feeding support, the feeding roller and the material-thinning roller are positioned at the same side of the inclined guide pipe, the wire feeding roller is positioned at the other side of the inclined guide pipe, a first belt pulley transmission group is arranged between the feeding roller and the wire feeding roller, a motor is fixedly arranged at one side, close to the feeding roller, of the outer frame of the device, and the driving end of the motor and the end part of the feeding roller are fixedly arranged.

As a preferable technical scheme of the invention, the material guiding assembly comprises a material guiding frame, the material guiding frame is fixedly arranged at one side, close to the material controlling assembly, of the outer side of the outer frame of the device, two material guiding rollers which are symmetrically distributed are rotatably arranged on the material guiding frame, the two material guiding rollers are positioned below the first heat sealing frame and the second heat sealing frame, the two material guiding rollers are positioned between the two L-shaped frames, a transmission gear is fixedly sleeved at the end parts of the two material guiding rollers, the two transmission gears are in meshed connection, an auxiliary shaft is fixedly arranged at one end part of one material guiding roller, a crown gear is fixedly sleeved at the outer side of the auxiliary shaft, a driving shaft is rotatably arranged at the side end of the material guiding frame, and a driving gear in meshed connection with the crown gear is fixedly arranged at the end part of the driving shaft.

As a preferable technical scheme of the invention, a second belt pulley transmission set is arranged between the feeding roller and the driving shaft.

An automatic production method of an oxygen indication type deoxidizer comprises the following steps:

step one, a cylindrical heat-seal bag is sleeved on a feeding roller, a cylindrical oxygen indication line body is sleeved on the feeding roller, the end part of the heat-seal bag is pulled open to pass through a material thinning roller, the heat-seal bag is folded to pass through a forming ring and a feeding pipe, the folding heat-seal bag is wrapped on the outer side of the feeding pipe, an opening of the folding heat-seal bag faces a material thinning pipe, and the oxygen indication line body passes through the material thinning pipe and is arranged between the openings of the folding heat-seal bag;

step two, controlling and starting the telescopic rod, driving the connecting bottom plate to horizontally move, driving the two side driving columns to horizontally move, driving the two driving inclined frames to rotate about the rotating shaft, synchronously driving the first heat sealing frame and the second heat sealing frame to rotate about the rotating shaft, enabling the first heat sealing frame and the second heat sealing frame to synchronously rotate in opposite directions, enabling the two side heat sealing pieces to contact the folded heat sealing bags to laterally heat, enabling the middle position of the side parts to form a cavity which is not heat sealed and is used for storing an oxygen indication line body, enabling the two bottom heat sealing pieces to oppositely rotate, enabling the two bottom heat sealing pieces to contact the folded heat sealing bags to carry out bottom heat sealing, and accordingly forming a cavity for storing deoxidizing agents in the folded heat sealing bags;

the third step, when the first heat sealing frame and the second heat sealing frame synchronously rotate in opposite directions, the connecting bottom plate horizontally moves to drive the connecting rod and the connecting clamping frame to horizontally move to drive the rack to horizontally move, and the toothed ring and the material control frame are synchronously driven to rotate, when the plurality of material control through grooves correspond to the plurality of material storage through grooves, quantitatively cached deoxidizer raw materials are discharged into the material control cylinder through the plurality of material control through grooves, and the deoxidizer raw materials discharged into the material control cylinder are discharged into a cavity for storing deoxidizer through the material guide inclined tube and the material feeding tube;

and fourthly, after the raw materials are injected, the first heat sealing frame and the second heat sealing frame are controlled to synchronously rotate back, then, the motor is controlled and started to drive the feeding roller to rotate, the first belt pulley transmission group is matched to synchronously drive the feeding roller to rotate, the second belt pulley transmission group is matched to drive the driving shaft to rotate, the feeding roller and the feeding roller continuously convey the heat sealing bag and the oxygen indication line body to heat the next cavity, after the heat sealing of the next cavity is finished, the raw materials are stored in the last cavity and then are moved between the L-shaped frames below, and the upper part of the last cavity is heat sealed, so that deoxidizing agent strips are realized, the deoxidizing agent strips are automatically dredged between the two material guiding rollers, the subsequent cutting stability is improved, the two L-shaped frames drive the cutting knife to oppositely rotate when the next cavity heat sealing operation is carried out, the deoxidizing agent strips at the bottom are automatically synchronously cut, the deoxidizing agent strips are cut into single deoxidizing agent, and the production effect of the deoxidizing agent is improved.

Compared with the prior art, the invention has the beneficial effects that:

1. by arranging the sealing and cutting mechanism and matching with the material control assembly, a cavity for storing deoxidizing agent is formed in the folded heat-sealing bag, a cavity which is not heat-sealed is formed in the middle position of the side part of the folded heat-sealing bag, the cavity is used for storing an oxygen indication line body, the deoxidizing agent raw material is quantitatively and indirectly discharged, a deoxidizing agent strip with the oxygen indication line body is manufactured through rotation, the deoxidizing agent strip is cut into a single deoxidizing agent, and the deoxidizing agent production effect is improved;

2. by arranging the forming assembly and matching with the feeding assembly, the heat-seal bag and the oxygen indication line body are continuously conveyed so as to heat-seal the next cavity, so that a plurality of deoxidizers are prepared;

3. through setting up the guide subassembly, the deoxidizer strip of lying between two guide rollers is dredged automatically, promotes follow-up cutting stability.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Figure 1 is a schematic diagram of the structure of the present invention,

figure 2 is a schematic diagram of the structural connection after detachment of the present invention,

FIG. 3 is a schematic diagram showing the structural connection of the sealing and cutting mechanism in the present invention,

figure 4 is an enlarged view of the invention at a in figure 3,

FIG. 5 is a schematic diagram showing the connection of a part of the sealing and cutting mechanism according to the present invention,

figure 6 is a schematic diagram of the structural connection of the material control assembly and the forming assembly in the invention,

figure 7 is an enlarged view of the invention at B in figure 6,

figure 8 is a schematic diagram of the structural connection of the sealing and cutting mechanism and the material control assembly in the invention,

figure 9 is a schematic diagram of the structural connection of a feeding assembly and a guiding assembly in the invention,

fig. 10 is an enlarged view of fig. 9C in accordance with the present invention.

In the figure: 1. an apparatus outer frame; 2. sealing and cutting mechanism; 3. a material control assembly; 4. a molding assembly; 5. a feed assembly; 6. a material guiding component; 7. a connecting rod; 8. a second pulley drive set; 9. a motor; 21. a cross plate frame; 211. rotating the convex; 212. an arc-shaped groove; 22. a first heat seal frame; 221. a rotating shaft; 23. a second heat seal frame; 231. a rotating ring; 24. a clamping protrusion; 25. a side heat seal; 251. a hollow groove; 26. a bottom heat seal; 27. an L-shaped frame; 271. a cutting knife; 28. driving the inclined frame; 29. a drive column; 291. a connecting bottom plate; 210. a telescopic rod; 31. a storage cylinder; 32. a control cylinder; 33. a connecting frame; 34. a storage frame; 341. a storage trough is formed; 35. a material control frame; 351. controlling a material penetrating groove; 36. a toothed ring; 361. a rack; 37. a connecting clamping frame; 38. a stabilizing frame; 41. a material guiding inclined tube; 411. a sleeve frame; 42. a feed pipe; 43. forming a ring; 44. a drain pipe; 51. a feed support; 52. a feed roller; 53. a material-thinning roller; 54. a wire feeding roller; 55. a first pulley drive set; 61. a material guiding frame; 62. a guide roller; 63. a transmission gear; 64. an auxiliary shaft; 65. a crown gear; 651. a drive gear; 66. a drive shaft.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: as shown in fig. 1-10, the invention provides an oxygen indication type automatic deoxidizer production line, which comprises an outer frame 1, wherein a sealing and cutting mechanism 2 is fixedly clamped at the bottom of the outer frame 1, a material control assembly 3 is fixedly arranged at the top of the outer side of the outer frame 1, a forming assembly 4 is fixedly arranged at the bottom end of the material control assembly 3, a feeding assembly 5 is fixedly arranged at one side, close to the forming assembly 4, of the outer side of the outer frame 1, and a material guide assembly 6 is fixedly arranged at one side, close to the material control assembly 3, of the outer side of the outer frame 1.

The sealing and cutting mechanism 2 comprises two transverse plate frames 21 which are vertically and symmetrically distributed, the transverse plate frames 21 are fixedly clamped at the bottom of the outer frame 1 of the device, a first heat sealing frame 22 and a second heat sealing frame 23 are rotatably clamped between the two transverse plate frames 21, the first heat sealing frame 22 and the second heat sealing frame 23 are symmetrically distributed, one side end part of the first heat sealing frame 22, which is close to the second heat sealing frame 23, is fixedly connected with a rotating shaft 221, one side end part of the second heat sealing frame 23, which is close to the first heat sealing frame 22, is fixedly connected with a rotating ring 231 which is matched with the rotating shaft 221, the rotating shaft 221 is rotatably clamped in the corresponding rotating ring 231, the opposite sides of the two transverse plate frames 21 are fixedly provided with rotating protrusions 211, the rotating protrusions 211 are rotatably clamped in the rotating shaft 221, the opposite sides of the first heat sealing frame 22 and the second heat sealing frame 23, which are close to the rotating protrusions 211, are fixedly provided with clamping protrusions 24, the opposite sides of the two transverse plate frames 21 are respectively provided with arc-shaped grooves 212 corresponding to the clamping protrusions 24, the clamping protrusions 24 are movably clamped in the corresponding arc-shaped grooves 212, the positions of the circle centers of the arc-shaped grooves 212 and the positions of the rotating shafts 221 are corresponding to the rotating shafts 221, so that the first heat sealing frames 22 and the second heat sealing frames 23 can be conveniently driven in the corresponding arc-shaped grooves 212;

the side heat sealing pieces 25 are arranged at one end parts of the first heat sealing frame 22 and the second heat sealing frame 23 far away from the rotating shaft 221, the empty groove 251 is reserved at the middle part of the side heat sealing pieces 25, when the first heat sealing frame 22 and the second heat sealing frame 23 synchronously rotate in opposite directions, the two side heat sealing pieces 25 are contacted to carry out side heat sealing on the folded heat sealing bags, a cavity which is not heat sealed is formed at the middle part of the side part and is used for storing an oxygen indication line body, the bottom heat sealing pieces 26 are fixedly clamped at the bottom parts of one side of the first heat sealing frame 22 and the second heat sealing frame 23 close to the side heat sealing pieces 25, when the first heat sealing frame 22 and the second heat sealing frame 23 synchronously rotate in opposite directions, the two bottom heat sealing pieces 26 rotate in opposite directions, the two bottom heat-seal pieces 26 contact to carry out bottom heat-seal to folding heat-seal bag to form the cavity (the cavity is located between side heat-seal, bottom heat-seal top) that is used for depositing the deoxidizer in folding heat-seal bag, first heat-seal frame 22, the bottom of second heat-seal frame 23 is all fixed mounting in opposite sides of opposite ends has L type frame 27, the opposite side bottom of L type frame 27 is all fixed mounting cuts the sword 271, when first heat-seal frame 22, the synchronous rotation in opposite directions of second heat-seal frame 23, two L type frames 27 drive cuts the sword 271 and rotates in opposite directions, carry out automatic synchronous to the deoxidizer of bottom heat-seal and cut into single deoxidizer, cut deoxidizer strip (adjacent a plurality of deoxidizers link together), promote deoxidizer production effect.

The outer wall of one side of the first heat sealing frame 22, the second heat sealing frame 23 is kept away from side heat sealing piece 25 is all fixed mounting has the drive inclined frame 28 of upper and lower symmetric distribution, all slide the card between the vertical two drive inclined frames 28 of corresponding and be equipped with drive post 29, fixed mounting has connecting bottom plate 291 between two drive posts 29, one side of the first heat sealing frame 22 is kept away from to two diaphragm frames 21 is fixed mounting has telescopic link 210, telescopic link 210's drive end and connecting bottom plate 291's middle part fixed mounting, during the use, control and open telescopic link 210, drive connecting bottom plate 291 horizontal migration, drive both sides drive post 29 horizontal migration, thereby drive two drive inclined frames 28 and rotate about axis of rotation 221, and then synchronous drive first heat sealing frame 22, second heat sealing frame 23 rotates about axis of rotation 221.

The material control assembly 3 comprises a material storage cylinder 31 and a material control cylinder 32, wherein the material storage cylinder 31 and the material control cylinder 32 are vertically distributed, a steady frame 38 is fixedly arranged at the top of the outer side of the material storage cylinder 31, the steady frame 38 is fixedly arranged on the outer frame 1 of the device, a connecting frame 33 is fixedly arranged between the outer walls of the material storage cylinder 31 and the material control cylinder 32, the material storage cylinder 31 and the material control cylinder 32 are connected, the connecting frame 33 is fixedly arranged at the top of the outer side of the outer frame 1 of the device, a material storage frame 34 is fixedly clamped at the bottom of the inner wall of the material storage cylinder 31, a plurality of material storage through grooves 341 are formed in the material storage frame 34, a plurality of deoxidizing agent raw materials are stored in the material storage through grooves 341 for quantitative buffering, a material control frame 35 is rotatably clamped at the top of the material control cylinder 32, a plurality of material control through grooves 351 which are matched with the material storage through grooves 341 are formed in the material control frame 35, the material control frame 35 is driven to rotate to drive the material control through grooves 351 to rotate, when the material control through grooves 351 and the material storage through grooves 341 correspond, quantitatively buffered deoxidizer raw materials are discharged into the material control cylinder 32 through the material control through grooves 351, when the material control through grooves 351 and the material storage through grooves 341 do not correspond, the deoxidizer raw materials are reserved in the material storage through grooves 341 for quantitative buffering, quantitative indirect discharge of the deoxidizer raw materials is achieved, a toothed ring 36 is fixedly sleeved at the top of the outer side of the material control frame 35, a rack 361 is connected at the side end of the toothed ring 36 in a meshed mode, a connecting clamping frame 37 is fixedly arranged at the end part of the rack 361, and one side, far away from the rack 361, of the connecting clamping frame 37 is slidably clamped at the top of the outer frame 1 of the device; the middle part slip card of top diaphragm frame 21 is equipped with connecting rod 7, and the bottom of connecting rod 7 and the middle part fixed mounting of connecting plate 291, the top of connecting rod 7 and the middle part fixed mounting of connecting clamping frame 37, when connecting plate 291 horizontal migration, drive connecting rod 7, connecting clamping frame 37 horizontal migration to drive rack 361 horizontal migration drives ring gear 36, accuse material frame 35 rotation in step.

The forming assembly 4 comprises a guide inclined tube 41, the top end of the guide inclined tube 41 and the bottom end of the material control cylinder 32 are fixedly arranged, a sleeve frame 411 is fixedly sleeved at the top of the guide inclined tube 41, the sleeve frame 411 is fixedly arranged on the outer frame 1, a feeding tube 42 is fixedly arranged at the bottom end of the guide inclined tube 41, a forming ring 43 is sleeved at the middle part of the outer side of the feeding tube 42, the forming ring 43 is fixedly arranged on the outer frame 1, a dredging tube 44 is fixedly arranged at one side of the forming ring 43 far away from the outer frame 1, during use, a heat sealing bag is folded to pass between the forming ring 43 and the feeding tube 42, the outer side of the feeding tube 42 is wrapped by the folding heat sealing bag, an opening of the folding heat sealing bag faces the dredging tube 44, and an oxygen indication line body is arranged between the openings of the folding heat sealing bag; the deoxidizer raw material indirectly discharged into the control cylinder 32 quantitatively is discharged into the cavity for storing deoxidizer through the guide inclined tube 41 and the feed tube 42.

The feeding assembly 5 comprises a feeding bracket 51, the feeding bracket 51 is fixedly arranged at one side, close to the forming assembly 4, of the outer side of the device frame 1, a feeding roller 52 is rotatably arranged at the top of the feeding bracket 51, a motor 9 is fixedly arranged at one side, close to the feeding roller 52, of the device frame 1, the driving end of the motor 9 and the end part of the feeding roller 52 are fixedly arranged, and when the feeding assembly is used, the motor 9 is controlled and started to drive the feeding roller 52 to rotate;

the middle part rotation of feed bracket 51 installs the sparse material roller 53, feed bracket 51's bottom rotates installs the wire roller 54, feed roller 52, be equipped with first belt pulley drive group 55 between the wire roller 54, wherein, first belt pulley drive group 55 includes two belt pulleys and the movable driving belt who cup joints in two belt pulley outsides, two belt pulleys are fixed respectively cup joints at feed roller 52, wire roller 54 tip, feed roller 52 normal running fit first belt pulley drive group 55, the synchronous drive wire roller 54 rotates, feed roller 52, sparse material roller 53 is located the homonymy of guide inclined tube 41, wire roller 54 is located the opposite side of guide inclined tube 41, wherein, the cover is equipped with cylindric heat seal bag on the wire roller 52, the cover is equipped with cylindric oxygen indication line body on the wire roller 54, during the use, pull open the heat seal bag tip through sparse material roller 53, oxygen indication line body tip pull open.

The material guiding assembly 6 comprises a material guiding frame 61, the material guiding frame 61 is fixedly arranged at one side, close to the material controlling assembly 3, of the outer side of the outer frame 1 of the device, two material guiding rollers 62 which are symmetrically distributed are rotatably arranged on the material guiding frame 61, the two material guiding rollers 62 are positioned below the first heat sealing frame 22 and the second heat sealing frame 23, the two material guiding rollers 62 are positioned between the two L-shaped frames 27, transmission gears 63 are fixedly sleeved at the end parts of the two material guiding rollers 62, the two transmission gears 63 are in meshed connection, an auxiliary shaft 64 is fixedly arranged at one end part of one material guiding roller 62, a crown gear 65 is fixedly sleeved at the outer side of the auxiliary shaft 64, a driving shaft 66 is rotatably arranged at the side end of the material guiding frame 61, and a driving gear 651 in meshed connection with the crown gear 65 is fixedly arranged at the end part of the driving shaft 66; a second belt pulley transmission group 8 is arranged between the feeding roller 52 and the driving shaft 66, wherein the second belt pulley transmission group 8 comprises two belt pulleys and a transmission belt movably sleeved on the outer sides of the two belt pulleys, the two belt pulleys are fixedly sleeved on the ends of the feeding roller 52 and the driving shaft 66 respectively, when the feeding roller 52 rotates, the driving shaft 66 is driven to rotate by matching with the second belt pulley transmission group 8, the driving gear 651 drives the crown gear 65 and the auxiliary shaft 64 and one of the guide rollers 62 to rotate, and the other guide roller 62 is driven to reversely rotate by matching with the meshing connection of the two transmission gears 63, so that deoxidizing agent strips arranged between the two guide rollers 62 are automatically dredged, and the subsequent cutting stability is improved.

An automatic production method of an oxygen indication type deoxidizer comprises the following steps:

step one, a cylindrical heat-seal bag is sleeved on a feeding roller 52, a cylindrical oxygen indication line body is sleeved on a line inlet roller 54, the end part of the heat-seal bag is pulled open to pass through a material thinning roller 53, the heat-seal bag is folded to pass through a forming ring 43 and between a feeding pipe 42, the folded heat-seal bag is wrapped on the outer side of the feeding pipe 42, an opening of the folded heat-seal bag faces a material thinning pipe 44, and the oxygen indication line body passes through the material thinning pipe 44 and is arranged between the openings of the folded heat-seal bag;

step two, controlling and starting the telescopic rod 210, driving the connecting bottom plate 291 to horizontally move, driving the driving columns 29 at two sides to horizontally move, driving the two driving inclined frames 28 to rotate about the rotating shaft 221, synchronously driving the first heat sealing frame 22 and the second heat sealing frame 23 to rotate about the rotating shaft 221, synchronously rotating the first heat sealing frame 22 and the second heat sealing frame 23 in opposite directions, enabling the two side heat sealing pieces 25 to contact and laterally heat-seal the folded heat sealing bag, enabling a cavity which is not heat-sealed to be formed in the middle position of the side part and used for storing an oxygen indication line body to be formed, enabling the two bottom heat sealing pieces 26 to oppositely rotate, enabling the two bottom heat sealing pieces 26 to contact and heat-seal the bottom of the folded heat sealing bag, and forming a cavity for storing deoxidizer in the folded heat sealing bag;

step three, when the first heat sealing frame 22 and the second heat sealing frame 23 synchronously rotate in opposite directions, the connecting bottom plate 291 horizontally moves to drive the connecting rod 7 and the connecting clamping frame 37 to horizontally move, the driving rack 361 horizontally moves to synchronously drive the toothed ring 36 and the material control frame 35 to rotate, when the plurality of material control through grooves 351 and the plurality of material storage through grooves 341 correspond, quantitatively buffered deoxidizer raw materials are discharged into the material control cylinder 32 through the plurality of material control through grooves 351, and the deoxidizer raw materials discharged into the material control cylinder 32 are discharged into a cavity for storing deoxidizer through the material guide inclined tube 41 and the material feed tube 42;

and fourthly, after the raw materials are injected, the first heat sealing frame 22 and the second heat sealing frame 23 are controlled to synchronously rotate back, then the motor 9 is controlled and started to drive the feeding roller 52 to rotate, the first belt pulley transmission group 55 is matched with the feeding roller 54 to rotate synchronously, the second belt pulley transmission group 8 is matched with the driving shaft 66 to rotate, the feeding roller 52 and the feeding roller 54 rotate to continuously convey the heat sealing bag and the oxygen indication line body to heat the next cavity, after the heat sealing of the next cavity is finished, the last cavity is moved between the L-shaped frames 27 below after storing the raw materials, and the upper part of the last cavity is heat-sealed, so that the deoxidizing agent strips are automatically dredged, the subsequent cutting stability is improved, the two L-shaped frames 27 drive the cutting knives 271 to rotate oppositely during the heat sealing operation of the next cavity, the deoxidizing agent at the bottom is automatically and synchronously cut into a single deoxidizing agent, and the deoxidizing agent production effect is improved.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an oxygen indication formula deoxidizer automatic production line, includes device frame (1), its characterized in that: the device comprises a device outer frame (1), a sealing and cutting mechanism (2) is fixedly clamped at the bottom of the device outer frame (1), a material control assembly (3) is fixedly arranged at the top of the outer side of the device outer frame (1), a forming assembly (4) is fixedly arranged at the bottom end of the material control assembly (3), a feeding assembly (5) is fixedly arranged at one side, close to the forming assembly (4), of the outer side of the device outer frame (1), and a material guide assembly (6) is fixedly arranged at one side, close to the material control assembly (3), of the outer side of the device outer frame (1);

the sealing and cutting mechanism (2) comprises two transverse plate frames (21) which are vertically and symmetrically distributed, wherein the transverse plate frames (21) are fixedly connected with the bottom of the device outer frame (1) in a clamping manner, a first heat sealing frame (22) and a second heat sealing frame (23) are rotatably clamped between the two transverse plate frames (21), the first heat sealing frame (22) and the second heat sealing frame (23) are symmetrically distributed, one side end part of the first heat sealing frame (22) close to the second heat sealing frame (23) is fixedly connected with a rotating shaft (221), one side end part of the second heat sealing frame (23) close to the first heat sealing frame (22) is fixedly connected with a rotating ring (231) matched with the rotating shaft (221), the rotating shaft (221) is rotatably clamped in the corresponding rotating ring (231), rotating protrusions (211) are fixedly arranged on opposite sides of the two transverse plate frames (21), the first heat sealing frame (22) and the second heat sealing frame (23) are rotatably clamped in the rotating shaft (221), the corresponding arc-shaped protruding grooves (212) are formed in the corresponding positions of the two corresponding protruding grooves (212) and the corresponding to the arc-shaped protruding grooves (212) on one side of the two opposite sides (24), the novel heat-sealing machine is characterized in that a side heat-sealing piece (25) is arranged at one end part of the first heat-sealing frame (22) and one end part of the second heat-sealing frame (23) far away from the rotating shaft (221), a hollow groove (251) is reserved in the middle of the side heat-sealing piece (25), a bottom heat-sealing piece (26) is fixedly clamped at the bottom of one side of the first heat-sealing frame (22) and the bottom of one side of the second heat-sealing frame (23) close to the side heat-sealing piece (25), L-shaped frames (27) are fixedly installed at the opposite ends of the bottom ends of the first heat-sealing frame (22) and the bottom of the second heat-sealing frame (23), and cutting knives (271) are fixedly installed at the bottoms of the opposite sides of the L-shaped frames (27);

the driving oblique frames (28) are fixedly arranged on the outer walls of one sides, far away from the side heat sealing pieces (25), of the first heat sealing frame (22) and the second heat sealing frame (23), driving columns (29) are respectively and slidably clamped between the two driving oblique frames (28) in a vertical mode, a connecting bottom plate (291) is fixedly arranged between the two driving columns (29), a telescopic rod (210) is fixedly arranged on one side, far away from the first heat sealing frame (22), of the transverse plate frame (21), and the driving end of the telescopic rod (210) and the middle of the connecting bottom plate (291) are fixedly arranged;

a cylindrical heat-seal bag is sleeved on the feeding roller (52), a cylindrical oxygen indication line body is sleeved on the feeding roller (54), the end part of the heat-seal bag is pulled open to pass through the material-thinning roller (53), the heat-seal bag is folded to pass through the forming ring (43) and the feeding pipe (42), the folded heat-seal bag is wrapped on the outer side of the feeding pipe (42), the opening of the folded heat-seal bag faces the material-thinning pipe (44), and the oxygen indication line body passes through the material-thinning pipe (44) and is arranged between the openings of the folded heat-seal bag;

through control and opening telescopic link (210), drive connecting bottom plate (291) horizontal migration, drive both sides drive post (29) horizontal migration, thereby drive two drive oblique frames (28) and rotate about axis of rotation (221), and then synchronous drive first heat-seal frame (22), second heat-seal frame (23) rotate about axis of rotation (221), first heat-seal frame (22), second heat-seal frame (23) synchronous looks rotation, two side heat-seal piece (25) contact carry out the side heat-seal to folding heat-seal bag, and lateral part intermediate position forms the cavity that is not by the heat-seal, be used for storing oxygen indication line body, two end heat-seal piece (26) rotate in opposite directions simultaneously, two end heat-seal piece (26) contact carry out the bottom heat-seal to folding heat-seal bag, thereby form the cavity that is used for depositing the deoxidizer in folding heat-seal bag.

2. An oxygen indicating type deoxidizer automatic production line according to claim 1, wherein: the utility model provides a accuse material subassembly (3) is including storage section of thick bamboo (31) and accuse feed cylinder (32), the vertical distribution of storage section of thick bamboo (31), accuse feed cylinder (32), the outside top fixed mounting of storage section of thick bamboo (31) has firm frame (38), firm frame (38) fixed mounting is on device frame (1), fixed mounting has link (33) between storage section of thick bamboo (31), accuse feed cylinder (32) outer wall, link (33) fixed mounting is at the outside top of device frame (1), the inner wall bottom fixed card of storage section of thick bamboo (31) is equipped with storage frame (34), a plurality of storage perforating groove (341) have been seted up on storage frame (34), the top rotation card of accuse feed cylinder (32) is equipped with accuse feed frame (35), a plurality of accuse feed perforating groove (351) with storage perforating groove (341) cooperation use have been seted up on accuse feed frame (35), the top fixed cover in the outside of accuse feed frame (35) is equipped with toothed ring (36), the card end (361) is kept away from at rack (37) of connecting frame (361), rack (37) are kept away from to connect one side.

3. An oxygen indicating type deoxidizer automatic production line according to claim 2, wherein: the top the middle part slip card of diaphragm frame (21) is equipped with connecting rod (7), the bottom of connecting rod (7) and the middle part fixed mounting of connecting bottom plate (291), the top of connecting rod (7) and the middle part fixed mounting of connecting card frame (37).

4. An oxygen indicating type deoxidizer automatic production line according to claim 3, wherein: the forming assembly (4) comprises a guide inclined tube (41), the top end of the guide inclined tube (41) and the bottom end of the material control barrel (32) are fixedly mounted, a sleeve frame (411) is fixedly sleeved at the top of the guide inclined tube (41), the sleeve frame (411) is fixedly mounted on the outer frame (1), a feeding tube (42) is fixedly mounted at the bottom end of the guide inclined tube (41), a forming ring (43) is sleeved at the middle part of the outer side of the feeding tube (42), the forming ring (43) is fixedly mounted on the outer frame (1), and a dredging tube (44) is fixedly mounted at one side, far away from the outer frame (1), of the forming ring (43).

5. An oxygen indicating automatic deoxidizer production line according to claim 4, wherein: feeding subassembly (5) are including feeding support (51), one side that feeding support (51) fixed mounting is close to shaping subassembly (4) in the device frame (1) outside, feed roller (52) are installed in the top rotation of feeding support (51), dredge material roller (53) are installed in the middle part rotation of feeding support (51), feed roller (54) are installed in the bottom rotation of feeding support (51), feed roller (52), dredge material roller (53) are located the homonymy of guide inclined tube (41), feed roller (54) are located the opposite side of guide inclined tube (41), be equipped with first belt pulley drive group (55) between feed roller (52), feed roller (54), one side fixed mounting that device frame (1) is close to feed roller (52) has motor (9), the drive end of motor (9) and the tip fixed mounting of feed roller (52).

6. An oxygen indicating automatic deoxidizer production line according to claim 5, wherein: the material guiding assembly (6) comprises a material guiding frame (61), the material guiding frame (61) is fixedly arranged on one side, close to the material controlling assembly (3), of the outer side of the outer frame (1), two material guiding rollers (62) which are symmetrically distributed are rotatably arranged on the material guiding frame (61), two material guiding rollers (62) are arranged below the first heat sealing frame (22) and the second heat sealing frame (23), two material guiding rollers (62) are arranged between two L-shaped frames (27), a transmission gear (63) is fixedly sleeved at the end part of each material guiding roller (62), two transmission gears (63) are in meshed connection, one end part of each material guiding roller (62) is fixedly provided with an auxiliary shaft (64), a crown gear (65) is fixedly sleeved at the outer side of each auxiliary shaft (64), a driving shaft (66) is rotatably arranged at the side end of each material guiding frame (61), and a driving gear (651) is fixedly arranged at the end part of each driving shaft (66) and is meshed with the crown gear (65).

7. An oxygen indicating automatic deoxidizer production line according to claim 6, wherein: a second belt pulley transmission group (8) is arranged between the feeding roller (52) and the driving shaft (66).

8. The oxygen indicating type deoxidizer automatic production line according to any one of claims 1 to 7, wherein the oxygen indicating type deoxidizer automatic production method is performed, comprising the steps of:

step one, a cylindrical heat-seal bag is sleeved on a feeding roller (52), a cylindrical oxygen indication line body is sleeved on a wire inlet roller (54), the end part of the heat-seal bag is pulled to pass through a material thinning roller (53), the heat-seal bag is folded to pass through a forming ring (43) and between a feeding pipe (42), the folded heat-seal bag is wrapped on the outer side of the feeding pipe (42), an opening of the folded heat-seal bag faces a material thinning pipe (44), and the oxygen indication line body passes through the material thinning pipe (44) and is arranged between the openings of the folded heat-seal bags;

step two, controlling and starting a telescopic rod (210), driving a connecting bottom plate (291) to horizontally move, driving two side driving columns (29) to horizontally move, driving two driving inclined frames (28) to rotate relative to a rotating shaft (221), synchronously driving a first heat sealing frame (22) and a second heat sealing frame (23) to rotate relative to the rotating shaft (221), enabling the first heat sealing frame (22) and the second heat sealing frame (23) to synchronously rotate in opposite directions, enabling two side heat sealing pieces (25) to contact with and heat the side of a folded heat sealing bag, enabling a cavity which is not heat-sealed to be formed in the middle of the side of the heat sealing bag to be used for storing an oxygen indication line body, enabling two bottom heat sealing pieces (26) to oppositely rotate, enabling the two bottom heat sealing pieces (26) to contact with and heat the bottom of the folded heat sealing bag, and forming a cavity for storing deoxidizer in the folded heat sealing bag;

step three, when the first heat sealing frame (22) and the second heat sealing frame (23) synchronously rotate in opposite directions, the connecting bottom plate (291) horizontally moves to drive the connecting rod (7) and the connecting clamping frame (37) to horizontally move, the driving rack (361) horizontally moves to synchronously drive the toothed ring (36) and the material control frame (35) to rotate, and when the plurality of material control through grooves (351) and the plurality of material storage through grooves (341) correspond, quantitatively cached deoxidizer raw materials are discharged into the material control cylinder (32) through the plurality of material control through grooves (351), and deoxidizer raw materials discharged into the material control cylinder (32) are discharged into a cavity for storing deoxidizer through the material guide inclined tube (41) and the material feed tube (42);

and fourthly, after the raw materials are injected, the first heat sealing frame (22) and the second heat sealing frame (23) are controlled to synchronously rotate back to back, then, the motor (9) is controlled and started, the feeding roller (52) is driven to rotate, the first belt pulley transmission group (55) is matched, the feeding roller (54) is synchronously driven to rotate, the second belt pulley transmission group (8) is matched, the driving shaft (66) is driven to rotate, the feeding roller (52) and the feeding roller (54) are rotated to continuously convey the heat sealing bag and the oxygen indication line body, the heat sealing of the next cavity is carried out, after the heat sealing of the next cavity is finished, the raw materials are stored in the last cavity, the last cavity is moved between the L-shaped frames (27) below, and the upper part of the last cavity is heat sealed, so that deoxidizing agent strips are realized, the deoxidizing agent strips are arranged between the two guide rollers (62), the cutting knife (271) are driven to rotate relatively, the deoxidizing agent at the bottom is automatically and synchronously cut, and the deoxidizing agent is produced to be a single deoxidizing agent.