CN112829381A - Packaging bag processing equipment and working method thereof - Google Patents
Packaging bag processing equipment and working method thereof Download PDFInfo
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- CN112829381A CN112829381A CN202011616822.4A CN202011616822A CN112829381A CN 112829381 A CN112829381 A CN 112829381A CN 202011616822 A CN202011616822 A CN 202011616822A CN 112829381 A CN112829381 A CN 112829381A
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- adjusting
- shaping
- bag
- conveying
- assembly
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B31—MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B—MAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B70/00—Making flexible containers, e.g. envelopes or bags
- B31B70/60—Uniting opposed surfaces or edges; Taping
- B31B70/64—Uniting opposed surfaces or edges; Taping by applying heat or pressure
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B31—MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B—MAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B70/00—Making flexible containers, e.g. envelopes or bags
- B31B70/006—Controlling; Regulating; Measuring; Safety measures
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B31—MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B—MAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B70/00—Making flexible containers, e.g. envelopes or bags
- B31B70/02—Feeding or positioning sheets, blanks or webs
- B31B70/04—Feeding sheets or blanks
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B31—MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B—MAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B70/00—Making flexible containers, e.g. envelopes or bags
- B31B70/26—Folding sheets, blanks or webs
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B31—MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B—MAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B70/00—Making flexible containers, e.g. envelopes or bags
- B31B70/74—Auxiliary operations
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B31—MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B—MAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B70/00—Making flexible containers, e.g. envelopes or bags
- B31B70/74—Auxiliary operations
- B31B70/92—Delivering
- B31B70/94—Delivering singly or in succession
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B31—MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B—MAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B2160/00—Shape of flexible containers
- B31B2160/10—Shape of flexible containers rectangular and flat, i.e. without structural provision for thickness of contents
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B31—MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B—MAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31B2170/00—Construction of flexible containers
- B31B2170/20—Construction of flexible containers having multi-layered walls, e.g. laminated or lined
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- Making Paper Articles (AREA)
- Auxiliary Devices For And Details Of Packaging Control (AREA)
Abstract
The invention relates to the field of packaging, in particular to packaging bag processing equipment which comprises a processing assembly, wherein the processing assembly comprises a processing assembly frame and a first material state adjusting device, the first material state adjusting device is arranged on the processing assembly frame, a material adjusting space is formed in an area corresponding to a working face on the processing assembly frame by the first material state adjusting device, and the material is adjusted in the material adjusting space. The invention has the advantages and effects that: the angle of the materials can be automatically adjusted during feeding, so that the labor is saved, and the efficiency is improved; the processing assembly has high synchronization rate, good shaping effect and high yield; the defect of irregular shaping caused by the structural reason of double-layer materials during shaping is overcome; the edge folding work can be carried out on the shaped material through the edge folding adding process, and the application range of the equipment is expanded.
Description
Technical Field
The invention relates to the field of packaging, in particular to packaging bag processing equipment and a working method thereof.
Background
Along with the improvement of living standard of people, along with the continuous development of science and technology, the plastic woven bag is gradually applied to various fields by the characteristics of low manufacturing cost, high tensile strength and the like. The plastic woven bag is made up by using polypropylene as main raw material, extruding out, drawing to obtain flat filament, weaving, braiding and making bag. The woven bag is generally white or grey white, is nontoxic and tasteless, generally has little harm to human bodies, is made of various chemical plastics, but has strong environmental protection performance and large recovery force. Woven bags are widely used, in the packaging of agricultural products, plastic woven bags are widely used for the packaging of aquatic products, the packaging of poultry feeds, covering materials of farms, sun-shading, wind-proofing, hail-suppression sheds for crop planting and other materials, and common products comprise feed woven bags, chemical woven bags, putty powder woven bags, urea woven bags, vegetable mesh bags, fruit mesh bags and the like; in the field of food packaging, common woven bags include rice woven bags, flour woven bags, corn woven bags and the like; in particular, woven bags are not available for flood fighting and disaster relief: woven bags, particularly, communication-preventing woven bags, drought-preventing woven bags and flood-preventing woven bags are not available in the construction of dams, river banks, railways and highways.
For agricultural product woven bags such as feed woven bags and urea woven bags, as the product needs to be damp-proof or prevent odor diffusion and other requirements, a layer of inner film is usually added in the woven bag, the shaping of the outer bag and the inner film of the woven bag in the prior art is mainly completed through a shaping machine, but the shaping effect of the existing woven bag shaping machine is poor, the inner film of the woven bag can fall off from the outer bag sometimes, and the yield of the product is reduced.
How to accurately and automatically position the inner film of the woven bag and shape the inner film and the outer bag becomes a technical problem which needs to be solved urgently by people.
Disclosure of Invention
The invention discloses packaging bag processing equipment which comprises a processing assembly, wherein the processing assembly comprises a processing assembly frame and a first material state adjusting device, the first material state adjusting device is arranged on the processing assembly frame, a material adjusting space is formed in an area corresponding to a working surface on the processing assembly frame by the first material state adjusting device, and the material state is adjusted in the material adjusting space.
Furthermore, the processing assembly further comprises an adjusting linkage mechanism, the first material state adjusting device is installed on the frame of the processing assembly through the adjusting linkage mechanism, and the adjusting linkage mechanism drives the first material state adjusting device to stretch to or away from the material adjusting space.
Further, the adjustment linkage includes: and the adjusting driving device is arranged on the processing assembly frame, and the power output end of the adjusting driving device is fixedly connected with the material state adjusting device I.
Further, the first material state adjusting device comprises: and the grabbing device is fixedly connected to the driving end of the adjusting driving device, and the grabbing direction of the grabbing device faces the material adjusting space.
Furthermore, the number of the first material state adjusting devices is 2, the first material state adjusting devices are arranged towards the material adjusting space, the first material state adjusting devices are arranged on the processing assembly frame and are opened or closed through the adjusting linkage mechanism, and when the first material state adjusting devices are opened relatively, a boundary of the material adjusting space is formed.
Furthermore, the first material state adjusting device comprises N groups of clamps and/or negative pressure devices which are arranged along the extending direction of the material adjusting space, and an interval is arranged between every two adjacent clamps or negative pressure devices.
Furthermore, the processing assembly further comprises a material state adjusting device II, the material state adjusting device II comprises an adjusting and shifting mechanism, the adjusting and shifting mechanism is installed on the processing assembly, and the adjusting and shifting mechanism can adjust the relative position between the material state adjusting device I and/or the material state adjusting device II and the material adjusting space.
Furthermore, the processing assembly further comprises a first shaping device, the first shaping device comprises a first shaping structure and a pressing device, the first shaping structure is installed on the material state adjusting device, and the pressing device is installed on the frame of the processing assembly and can move relative to the first shaping structure until the first shaping structure is pressed.
Furthermore, the first shaping structure is high-frequency electronic heat seal equipment.
Furthermore, the pressing device comprises a first driving device and a pressing piece, the pressing piece is of a point and/or line and/or surface structure matched with the first shaping structure, and the pressing piece is installed on the frame of the machining assembly through the first driving device.
Furthermore, the material state adjusting device II further comprises an adjusting workpiece, the adjusting workpiece is installed on the adjusting and shifting mechanism and linked through the adjusting and shifting mechanism and/or the material state adjusting device I, the adjusting workpiece is a mechanism with a grabbing function, and the grabbing direction of the adjusting workpiece is perpendicular to the reciprocating motion direction of the adjusting workpiece.
Furthermore, the adjusting and shifting mechanism comprises a shifting driving device and a shifting transmission mechanism, and the shifting driving device drives the adjusting workpiece to reciprocate towards or away from the material adjusting space through the shifting transmission mechanism.
Furthermore, the displacement transmission mechanism is a horizontally arranged slide block and slide rail mechanism, and the displacement driving device drives a slide block in the displacement transmission mechanism to displace.
Furthermore, the second material state adjusting device further comprises a side supporting workpiece and a supporting driving mechanism, the supporting driving mechanism is installed on the machining assembly, the driving end of the supporting driving mechanism is linked with the side supporting workpiece arranged on one side of the adjusting and shifting mechanism, and the supporting driving mechanism drives the side supporting workpiece to perform telescopic reciprocating motion along the plane where the adjusting and shifting mechanism performs reciprocating motion.
Furthermore, the side supporting workpiece is of a tubular structure with air holes and is communicated with the negative pressure air path, and the moving directions of the side supporting workpiece and the adjusting workpiece are not the same or opposite.
Furthermore, the material state adjusting device II further comprises a side supporting workpiece I, the side supporting workpiece I is an elastic workpiece with a curved edge, the side supporting workpiece I is arranged on one side of the adjusting and shifting mechanism, one end of the side supporting workpiece is fixedly connected to one side of the adjusting workpiece, the other end of the side supporting workpiece is a free end, and the edge from the fixedly connected end of the side supporting workpiece to the free end is a convex arc.
Furthermore, the processing assembly further comprises a shaping device, the shaping device and the material state adjusting device are adjacently installed on the frame of the processing assembly, and the position of the shaping device is far away from the material than the position of the material state adjusting device.
Furthermore, the shaping device comprises a shaping mechanism and a shaping linkage mechanism, the shaping mechanism is mounted on the frame of the processing assembly through the shaping linkage mechanism, and the shaping linkage mechanism drives the shaping mechanism to perform stretching/shrinking reciprocating motion relative to the material adjusting space.
Furthermore, the shaping mechanism is voltage type heat sealing equipment, ultrasonic equipment, a nail mouth, high-frequency electronic heat sealing equipment or sewing equipment.
Furthermore, the number of the shaping devices is 2, the shaping devices are arranged in a plane symmetry manner, the two shaping mechanisms are driven by the respectively connected shaping linkage mechanisms to perform opening or closing actions between the shaping mechanisms, and the shaping mechanisms in an open state form the boundary of the material adjusting space.
Further, the shaping mechanism is matched with the adjusting workpiece to shape the material, the adjusting workpiece further comprises a shaping pressed part arranged in the material adjusting space, the shaping pressed part is of a pressed point and/or line and/or surface structure matched with the shape of the working structure of the shaping mechanism, and the shaping device presses the material on the shaping pressed part to shape the material.
Furthermore, the shaping pressed part is installed on the machining assembly through a shifting transmission mechanism, the shifting transmission mechanism further comprises a vertical shifting mechanism, and the shaping pressed part and a sliding block sliding rail mechanism in the shifting transmission mechanism are arranged at the shifting end of the vertical shifting mechanism and are linked with the vertical shifting mechanism.
Furthermore, the shaping linkage mechanism comprises a driving device and a transmission part, and the driving device, the transmission part and the shaping mechanism are sequentially linked.
Further, the driving device further comprises a synchronous transmission piece, and the driving device synchronously drives each transmission component.
Further, the processing assembly conveys materials through a material conveying assembly.
Furthermore, the material conveying assembly comprises a power device, a transmission mechanism and a material grabbing device which are arranged on the conveying assembly frame, and the power device drives the material grabbing device through the transmission mechanism.
Further, the transmission mechanism includes: the conveying assembly comprises a driving belt wheel, a driven belt wheel, a transmission synchronous belt, a third tensioning wheel and a synchronous belt side plate, wherein the driving belt wheel, the driven belt wheel and the third tensioning wheel are installed on a conveying assembly frame through the synchronous belt side plate, the driving belt wheel is in transmission connection with a power device, and the driving belt wheel, the driven belt wheel and the third tensioning wheel are in synchronous transmission connection through the transmission synchronous belt.
Further, the material grabbing device includes: preceding grabbing device, back grabbing device, grabbing device mounting panel slider, grabbing device mounting panel slide rail and hold-in range fixed plate, grabbing device mounting panel slide rail sets up on carrying the assembly frame along material direction of delivery, grabbing device mounting panel slider and grabbing device mounting panel rigid coupling, the grabbing device mounting panel passes through grabbing device mounting panel slider and grabbing device mounting panel slide rail sliding fit, preceding grabbing device and back grabbing device are installed on the grabbing device mounting panel along material direction of delivery, hold-in range fixed plate is installed on the grabbing device mounting panel and hold-in range fixed plate and drive hold-in range fixed connection, drive hold-in range drives the grabbing device mounting panel and is reciprocating motion along material direction of delivery on grabbing device mounting panel slide rail.
Further, the material grabbing device still includes: the zero position sensing device comprises a zero position sensing plate arranged at a fixed position on the grabbing device mounting plate and a sensor arranged on the conveying assembly frame.
Further, it still includes the pan feeding assembly that sets up at the process feed end, the pan feeding assembly includes: the feeding device comprises a feeding assembly frame and a feeding conveying mechanism, wherein the feeding conveying mechanism is arranged on the feeding assembly frame.
Further, pan feeding conveying mechanism includes: the feeding mechanism comprises a motor I, a driving pulley I, a driving shaft I, a driven pulley I, a conveying pulley I and a conveying belt I, wherein the driving shaft I and the driven pulley I are horizontally arranged on a feeding assembly frame at intervals, the driving pulley I is fixedly arranged on the driving shaft I, the driving pulley I is connected with the motor through a synchronous belt in a four-transmission mode, the conveying pulley I is arranged to be N, a plurality of conveying pulley I are fixedly arranged on the driving shaft I in an equidistant mode, and the conveying pulley I and the driven pulley I are in transmission connection through the conveying belt.
Further, the pan feeding assembly still includes: and the material is adjusted by the feeding adjusting and positioning mechanism and then is conveyed to the processing assembly by the feeding conveying mechanism and/or the material conveying assembly.
Further, pan feeding adjustment positioning mechanism includes: the material blocking device comprises a material blocking piece, a material blocking piece cylinder, a cylinder mounting plate, a material blocking head seat, a material blocking tail seat, a material blocking adjusting screw rod, an adjusting screw rod seat, a mounting plate sliding block and a guide sliding rod, wherein the material blocking head seat and the material blocking tail seat are fixedly arranged on a feeding assembly frame, and the material blocking headstock and the material blocking tailstock are connected through a guide sliding rod to form a frame structure, an installation plate sliding block is fixedly connected on the cylinder installation plate, and the mounting plate sliding block can be slidably sleeved on the guide sliding rod, the cylinder mounting plate is provided with a material blocking piece cylinder, the power output end of the material blocking piece cylinder is connected with a material blocking piece, the material blocking piece is driven by the material blocking piece cylinder to stretch towards the material direction, the cylinder mounting plate is also provided with an adjusting screw rod seat which is in threaded fit with the material blocking adjusting screw rod, the material blocking adjusting screw rod and the guide sliding rod are arranged in parallel and penetrate through the material blocking head seat or the material blocking tail seat.
Further, it still includes the ejection of compact assembly that sets up at the process discharge end: the ejection of compact assembly includes: the discharging assembly machine frame, the discharging conveying mechanism and the stacking mechanism are arranged on the discharging assembly machine frame in a grounding mode in the working procedure of the stacking mechanism, and the stacking mechanism is arranged corresponding to the discharging area. The ejection of compact conveying mechanism includes: the discharging and conveying device comprises a discharging and conveying rack and a discharging and conveying part, wherein the discharging and conveying part is arranged on the discharging and conveying rack and comprises a discharging conveying part and/or a discharging pressing wheel part.
Further, the outfeed conveyor comprises: the device comprises a fifth motor, a second transmission belt wheel, a second driving shaft, a second driven roller and a second conveyor belt, wherein the second driving shaft and the second driven roller are arranged along the material conveying direction and are located at the feed end and the discharge end of the discharge conveying part, the device conveys a raw material bag to the feed end of the stacking mechanism through the discharge conveying part, the second transmission belt wheel is fixedly arranged on the second driving shaft, a plurality of transmission belts are arranged at equal intervals, the second conveyor belt is arranged along the material conveying direction and wound on the second transmission belt wheel and the second driven roller to form a conveying plane, and the fifth motor is fixedly arranged on the discharge assembly rack and is in transmission connection with the second driving shaft through a motor rotating shaft.
Further, ejection of compact pinch roller portion includes: ejection of compact pinch roller frame, lift the pinch roller, lift pinch roller cylinder, connecting axle, decide pinch roller, link one and link two, ejection of compact pinch roller frame is erect in the vertical top of ejection of compact conveying portion, lifts the pinch roller setting and ejection of compact conveying portion feed end and can with the connection of ejection of compact conveying portion contact and separation in ejection of compact pinch roller frame, decide the pinch roller setting in ejection of compact conveying portion discharge end position, and press in ejection of compact conveying portion, decide the pinch roller and pass through link two and install in ejection of compact pinch roller frame.
Further, an operating method of the packaging bag processing equipment comprises the following steps:
s2 sizing: the raw material bag is conveyed to a processing assembly through a feeding assembly, and a combined structure is formed at the processing assembly by the double-layer structure of the raw material bag;
s21 opening the bag opening: the first material state adjusting device picks up two sides of the bag opening and opens the bag opening;
s22 pressing the plate into a bag: the material state adjusting device II enters the material through the bag opening in the opening state;
s24 two-stage bag outlet/inlet: the side supporting workpiece extends into or extends out of the bag opening under the driving of the adjusting and shifting mechanism to complete the action of adjusting the relative position of the bag opening edge between the material bag body and the inner film.
S26 outside sizing: the shaping device presses the material on the shaping pressed part for shaping;
s27 reset send: and the second material state adjusting device resets, and the material bag is conveyed to enter the next station through the material conveying assembly.
Further, in step S24, the side support workpiece of the second material state adjusting device performs negative pressure adsorption on the inner bag, and cooperates with the first material state adjusting device under the driving of the adjusting and shifting mechanism to complete the relative position adjustment of the bag opening edge between the material bag bodies.
Further, the steps S24 and S26 include a step S24-1, where the S24-1 wale is unfolded: the side supporting workpiece is driven by the opening driving mechanism to stretch and retract along the plane where the adjusting workpiece is located, and the bag body is supported to be flat.
Further, between the steps S24-1 and S26, there is a step S25, wherein the step S25 is to lower and set: the adjusting workpiece is driven by the adjusting and shifting mechanism to move to the shaping device arranged on the other side along with the shaping device arranged on one side, and the shaping devices arranged on the two sides of the material state adjusting device simultaneously press the materials on the adjusting workpiece.
Further, the step S2 is preceded by a step S1, where the step S1 sets the feeding: and placing the raw material bag to be processed on the feeding assembly frame, and conveying the raw material bag to enter the next station through the feeding conveying mechanism and/or the material conveying assembly.
Further, before the material bag is conveyed to the next station by the material conveying mechanism in the step S1, the angle at which the material bag enters the material feeding assembly mechanism is adjusted by the material feeding adjusting and positioning mechanism, and after the side edge of the material bag is adjusted to be perpendicular to the feeding direction, the material bag is conveyed to the next station by the material conveying mechanism and/or the material conveying assembly.
Further, step S3 is included after step S2, and step S3 includes: the materials are stacked to a material storage area through a discharging assembly;
s31 pressure feeding and discharging: the discharging conveying mechanism conveys the finished product materials to the stacking mechanism;
s32 bag folding: the stacking mechanism stacks the finished material in the discharge area.
Further, the outside sizing of S26: and a material pressing device in the shaping device presses the material on the first shaping structure to carry out shaping.
Advantageous effects
The technical effects obtained by implementing the technical scheme of the invention are as follows:
1. the angle to the material can automatically regulated save the manual work during pan feeding, raises the efficiency.
2. The transmission in the equipment is stable, and the synchronous rate of the shaping mechanism is high, the shaping effect is good, and the yield is high.
3. The defect of irregular shaping caused by the structural reason of double-layer materials during shaping is overcome.
4. The material state is neat after each station ejection of compact.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural view of a tooling assembly of the present invention;
FIG. 3 is a schematic structural diagram of the connection state of the first material state adjusting device and the adjusting linkage mechanism according to the present invention;
FIG. 4 is a schematic structural diagram of a second material condition adjusting device according to the present invention;
FIG. 5 is a schematic view of the connection between a first side support and an adjustment member according to the present invention;
FIG. 6 is a schematic structural view of a setting device according to the present invention;
FIG. 7 is a second schematic structural view of the setting device of the present invention;
FIG. 8 is a schematic structural view of a material transport assembly according to the present invention;
FIG. 9 is a second schematic structural view of the material transport assembly of the present invention;
FIG. 10 is a schematic view of the feed assembly of the present invention;
FIG. 11 is a schematic structural view of a feeding adjustment positioning mechanism according to the present invention;
FIG. 12 is a schematic structural view of a discharge assembly of the present invention;
FIG. 13 is a schematic structural view of a discharge pinch roller mechanism of the present invention;
fig. 14 is a schematic structural view of the bag stacking mechanism of the present invention.
FIG. 15 is a schematic view of the hem assembly of the invention;
FIG. 16 is a schematic view of the axial hemming mechanism of the present invention;
FIG. 17 is a schematic structural view of a folding mechanism of the present invention;
FIG. 18 is a schematic view of the radial displacement mechanism of the present invention;
FIG. 19 is a schematic view of the radial hemming mechanism of the present invention;
FIG. 20 is a schematic structural view of the cam mechanism of the present invention;
FIG. 21 is a schematic structural view of the positioning mechanism of the present invention;
fig. 22 is a schematic structural diagram of a first sizing device of the present invention.
Legend: 1. processing the assembly; 11. processing the assembly frame; 12. a shaping device; 121. a shaping mechanism; 1211. a heat seal cutter; 1212. heat sealing the tool apron; 1213. shaping the mounting rack; 122. a shaping linkage mechanism; 1221. a second connecting rod; 1222. a rack; 1223. a second gear; 1224. a gear shaft; 1225. a bearing seat; 1226. a swing arm; 1227. shaping the linkage cylinder; 1228. a rack seat; 122a. a drive means; 122a1. driving a first wheel; 122a2. upper driven wheel one; 122a3. lower driven wheel one; 122a4. tension pulley one 122a5. timing belt one; 122a6. motor one; 122b. a transmission member; 122b1, connecting rod one; 122b2. eccentric wheel I; 122b3. eccentric wheel one; 122b4. drive shaft one; 122b5., bearing seat one; 123. adjusting space for materials; 13. a first material state adjusting device; 131. a gripping device; 132. the air pipe 14 is a material state adjusting device II; 141. adjusting the workpiece; 1411. shaping the pressed part; 142. a displacement adjusting mechanism; 1421. a displacement drive device; 1422. a shift transmission mechanism; 14221. a vertical direction shift mechanism; 143. laterally supporting the workpiece; 144. a distraction drive mechanism; 1441. a distraction mechanism slide block; 1442. opening the mechanism slide rail; 1443. a distraction mechanism cylinder; 1444. connecting sheets; 145. laterally supporting a first workpiece; 15. an adjustment linkage mechanism; 151. an adjustment drive; 152. a mounting member; 16. a first shaping device; 161. a shaping structure I; 162. a pressing device; 1621. a first driving device; 1622. pressing the material; 12. a flanging assembly; 21. a flanging assembly frame; 22. an axial flanging mechanism; 221. a turnover mechanism; 2211. a hemmer; 2212. a turnover power device; 22121. a gear transmission mechanism; 221211. straight rack; 221212. a first gear; 2213. a turnover transmission mechanism; 22131. a rotating shaft; 222. a material positioning mechanism; 223. a workspace; 23. a folding opening and closing power mechanism; 231. a second driving wheel; 232. an upper driven wheel II; 233. a second lower driven wheel; 234. a second tensioning wheel; 235. a second synchronous belt; 236. a second motor; 24. a radial displacement mechanism; 241. a displacement plate; 242. a displacement plate slider; 243. a displacement plate slide rail; 244. a displacement mechanism mounting plate; 245. a displacement mechanism cylinder; 25. a radial flanging mechanism; 251. a spreader; 252. a distraction displacement mechanism; 2521. opening the sliding block; 2522. opening the slide rail; 2523. opening the cylinder; 2524. a distraction mechanism mounting plate; 26. a combiner; 27. a cam mechanism; 271. a second connecting rod; 272. a second eccentric wheel sleeve; 273. a second eccentric wheel; 274. a second transmission shaft; 275. a second bearing seat; 28. a position adjusting mechanism; 281. adjusting the position of the bolt; 282. the first rotatable connecting piece; 283. positioning the mounting plate; 3. a material conveying assembly; a power plant; 32. a transmission mechanism; 321. a driving pulley; 322. a driven pulley; 323. a synchronous belt is driven; 324. a third tensioning wheel; 325. synchronous belt side plate; 33. a transport assembly frame; 34. a material gripping device; 341. a front gripping device; 342. a rear gripping device; 343. a gripping device mounting plate; 344. the grabbing device is provided with a plate sliding block; 345. the grabbing device is provided with a plate slide rail; 346. fixing a synchronous belt; 347. a gripping device anti-collision device; 348. a null sensing device; 4. a feeding assembly; 41. a feeding assembly frame; 42. a feeding adjusting and positioning mechanism; 421. a material blocking part; 422. a material blocking piece cylinder; 423. a cylinder mounting plate; 424. a material blocking head seat; 425. a material blocking tailstock; 426, a material blocking adjusting screw rod; 427. adjusting the screw rod seat; 428. mounting a plate slide block; 429. a guide slide bar; 43. a feeding conveying mechanism; 431. a fourth motor; 432. driving belt wheel IV; 433. a first driving shaft; 434. a driven roller I; 435. a first transmission belt wheel; 436. a first conveyor belt; 5, a discharging assembly; 51. a discharge assembly frame; 52. a discharge conveying mechanism; 521. a discharge conveyor frame; 522. a discharge conveying part; 5221. a discharge conveying section; 52211. a fifth motor; 52212 driving pulley two; 52213. a second driving shaft; 52214 driven roller two; 52215. a second conveyor belt; 5222. a discharge press wheel part; 52221. a discharging pinch roller frame; 52222. lifting the pressing wheel; 52223. a pinch roller lifting cylinder; 52224. a connecting shaft; 52225. fixing the pressing wheel; 52226. a first connecting frame; 52227. a second connecting frame; 53. a bag folding mechanism; 531. stacking the materials; 532. fold material drive arrangement.
Detailed Description
The present invention is further illustrated by the following examples, but is not limited to the details of the description.
As shown in fig. 2, the present invention discloses a packaging bag processing apparatus, which includes a processing assembly 1, wherein the processing assembly 1 includes a processing assembly frame 11 and a first material state adjusting device 13, the first material state adjusting device 13 is installed on the processing assembly frame 11, the first material state adjusting device 13 forms a material adjusting space 123 in a region corresponding to a working surface on the processing assembly frame 11, and the material adjusts the material state in the material adjusting space 123. Specifically, the material may be a single-layer structure, and the material is adjusted in the adjustment space 123.
As shown in fig. 3, the processing assembly 1 further includes an adjusting linkage mechanism 15, the first material state adjusting device 13 is mounted on the processing assembly frame 11 through the adjusting linkage mechanism 15, and the adjusting linkage mechanism 15 drives the first material state adjusting device 13 to extend or move away from the material adjusting space 123. The adjusting linkage 15 includes: the adjusting and driving device 151 and the mounting part 152 are arranged, the adjusting and driving device 151 is mounted on the machining assembly frame 11 through the mounting part 152, the specific mounting part can be a mounting plate, the power output end of the adjusting and driving device 151 is fixedly connected with the first material state adjusting device 13, the adjusting and driving device 151 can be a motor or an air cylinder, and the like.
Specifically, the first material state adjusting device 13 includes: the gripping device 131 is fixedly connected to the driving end of the adjusting driving device 151, and the gripping direction of the gripping device 131 is arranged towards the material adjusting space 123. The gripping device 131 may be a fixture or a negative pressure device, preferably, the negative pressure gripping device can reduce the influence on the material, especially when the material to be processed is a film or a bag, the fixture can influence the flatness of the material, the negative pressure gripping device is exemplified here, the gripping device can be a hollow negative pressure suction plate with air holes on the bottom surface as the gripping device 131, and is communicated with the air passage of the vacuum equipment through the air pipe 132, when the gripping device 131 grips the material, the gripping device 131 is driven by the adjusting driving device 151 to move towards the material adjusting space 123 until contacting the material, the material is gripped, so that the material is adsorbed on the gripping surface of the gripping device 131, the specific material is tightly attached to the adsorption surface of the negative pressure suction plate, and the material and the gripping device move synchronously under the driving of the adjusting driving device 151, so that the material is adjusted and displaced in the adjustment space. When the material to be processed is a double-layer film body structure, the first material state adjusting device 13 may be set as 2 sets of clamps and/or negative pressure devices arranged along the extending direction of the material adjusting space 123, and an interval is provided between adjacent clamps or negative pressure devices. For example, along the extension direction of the layers of the double-layer plastic film, the first material state adjusting device 13 is respectively arranged corresponding to the double-layer structure to be processed and respectively adsorbs the film surface at the edge of each film body, so that the double-layer film body can be shifted and fixed, for example, two groups of grabbing devices 131 are arranged and can be used for processing the double-layer plastic film, the two films of the material are respectively sucked during working, due to the fact that the film materials are not attached, the alignment operation is inconvenient, the phenomenon of folding caused by the gap forming between the two layers can occur during other processing operations, the two layers of films are respectively controlled by the two groups of negative pressure grabbing devices, the position of the material is fixed, after the material is fixed, the material can be processed by other devices more conveniently, a gap is arranged between the adjacent clamps or negative pressure devices, and the gap between the layers of the double-layer material to be processed is arranged, and the edge of each layer of double-layer materials to be adjusted is aligned with the clamp or the negative pressure device through the first material state adjusting device 13, so that the grabbing device 131 can grab and adsorb each layer of edge conveniently, and each layer of materials is shifted and adjusted in the material adjusting space 123 under the driving of the adjusting driving device 151, so that relative displacement between layers is not easy to occur, and when the alignment of each layer of edge of double-layer materials is needed, the shifting and adjusting work can be carried out on the basis of the adsorption.
Correspondingly, when the material to be processed is a bag body, as an optimized scheme of the invention, on the basis of the arrangement mode of the first material state adjusting devices 13, the first material state adjusting devices 13 can be symmetrically arranged relative to the bag body, specifically, the number of the first material state adjusting devices 13 is 2, the first material state adjusting devices 13 are arranged towards the material adjusting space 123, the two first material state adjusting devices 13 are arranged on the processing assembly frame 11 and perform opening or closing actions through the adjusting linkage mechanism 15, and when the two first material state adjusting devices 13 are relatively opened, a boundary of the material adjusting space 123 is formed. In order to reduce the difficulty of assembling equipment of the processing assembly 1, one material state adjusting device I13 can be selected to be fixedly connected with a processing assembly frame 11, the other material state adjusting device I13 is driven by an adjusting linkage mechanism 15, so that the two material state adjusting devices I13 can be opened or closed, specifically, the material state adjusting devices I13 can be oppositely arranged in the vertical direction, after a bag to be processed enters a material adjusting space 123 on the processing assembly 1, the material state adjusting devices I13 are driven by the adjusting linkage mechanism 15 to perform closing action, after the gripping device 131 is contacted with a bag body, the gripping device 131 sucks air under negative pressure, two packaging bags are gripped and fixed by the gripping device 131, then the material state adjusting devices I13 are driven by the adjusting linkage mechanism 15 to move away from each other to perform opening action or approach each other to perform closing action so as to open or close the bag mouth, and when needs are adjusted the material to the closure state, can accomplish through setting up the relative closure of symmetry material state adjusting device 13, can flatten the sack like this or reduce the sack and deform and be favorable to the state of the bag body after the adjustment unified, the equipment of being convenient for is processed the bag body.
As shown in fig. 4, the processing assembly 1 further includes a second material state adjusting device 14, the second material state adjusting device 14 includes an adjusting workpiece 141 and an adjusting and shifting mechanism 142, the adjusting and shifting mechanism 142 is mounted on the processing assembly 1 and is linked with the adjusting workpiece 141 and/or the first material state adjusting device 13, and the adjusting and shifting mechanism 142 can adjust the relative position between the first material state adjusting device 13 and/or the second material state adjusting device 14 and the material adjusting space 123. Specifically, the double-layer sleeved bag body is treated for example, the edge positions of the inner bag and the outer bag opening of the double-layer bag are random, and a certain level state cannot be guaranteed, so that the subsequent processing process can be influenced by the bag body state, the inner bag opening edge and the outer bag opening edge of the double-layer bag need to be adjusted to a level state, the adjustment of the inner bag opening edge and the outer bag opening edge is completed by arranging the material state adjusting device II 14 and matching with the material state adjusting device I13, the outer bag of the bag body can be placed in the material adjusting space, the outer bag opening is opened by negative pressure adsorption of the material state adjusting device I13, the inner bag body is adjusted by the adjusting workpiece 141 and the adjusting and shifting mechanism 142, the inner bag is pushed to the level position of the inner bag opening and the outer bag opening along the extending direction of the bag body, and the; the inner bag of the bag body can be fixed in the material adjusting space 123 through the adjusting workpiece 141, the outer bag is adjusted by the adjusting and shifting mechanism 142 and the first material state adjusting device 13, the outer bag is pulled to a preset position along the extending direction of the bag body, and at the moment, the adjusting and shifting mechanism 142 is linked with the first material state adjusting device 13; the adjusting and shifting mechanism 142 can be linked with the first material state adjusting device 13 and the adjusting workpiece 141 respectively, and the positions of the inner bag and the outer bag of the bag body can be adjusted simultaneously in the extending direction of the bag body, so that the bag openings of the inner bag and the outer bag are in a parallel and level state.
As shown in fig. 4, the adjusting and shifting mechanism 142 includes a shifting driving device 1421 and a shifting transmission mechanism 1422, and the shifting driving device 1421 drives the adjusting workpiece 141 to reciprocate toward or away from the material adjusting space 123 through the shifting transmission mechanism 1422. The displacement driving device 1421 drives the adjusting workpiece 141, so that the extending distance of the adjusting workpiece 141 can be adjusted, and the requirements of different working conditions can be met, the displacement driving device 1421 can adopt a motor, an air cylinder and the like, the air cylinder is selected as a model selection of the displacement driving device 1421, correspondingly, the displacement transmission mechanism 1422 is a horizontally arranged slide block and slide rail mechanism, and the displacement driving device 1421 drives a slide block in the displacement transmission mechanism 1422 to displace. Specifically, a slide rail in the displacement transmission mechanism 1422 is horizontally installed on the machining assembly frame 11 through an installation plate, a slide block in the displacement transmission mechanism 1422 is in sliding fit with the slide rail, and the slide block is fixedly connected with the adjusting workpiece 141, when the adjusting workpiece 141 is driven by the adjusting displacement mechanism 142 to perform material adjusting work, a power output end of the displacement driving device 1421 is fixedly connected with the slide block, and the adjusting workpiece 141 is driven to move through displacement of the slide block, so that the adjusting work is completed.
Accordingly, the regulating workpiece 141 is a mechanism having a gripping function, and the gripping direction of the regulating workpiece 141 is perpendicular to the direction in which the regulating workpiece 141 reciprocates. Specifically, the adjusting workpiece 141 can be a clamp or a negative pressure device, the negative pressure device is selected, when the material is a film or a bag body, the clamp can cause wrinkles of the material, and the subsequent processing work is not facilitated, specifically, a negative pressure suction plate which is provided with a hollow structure and an air suction hole can be selected, and is communicated with an air passage of vacuum equipment through a pipeline, the double-layer sleeved bag body is processed, for example, a bag opening of an inner bag and an outer bag is opened through a material state adjusting device I13, the adjusting workpiece 141 adsorbs the edge of the inner bag body through negative pressure and is matched with the material state adjusting device I13, the adjusting workpiece extends into the material adjusting space 123 along the extending direction of the bag body under the driving of the adjusting and shifting mechanism 142, the edge of the double-layer bag body is aligned and adjusted, and the material state is favorably unified.
The equipment can process double-layer material bags, the double-layer material bags are exemplified at present, the material bags enter the processing equipment, bag openings are arranged towards the side of a material state adjusting device I13, the material bags adjust the bag openings to correspond to a material state adjusting device II 14 through the material state adjusting device I13, the material state adjusting device I13 grabs the material bag opening parts and then separates the material bag openings to adjust the material bag openings to an opening state, at the moment, even if the material bags are double-layer, the material state adjusting device I13 respectively grabs the outer bag opening and the inner film opening of the material bag, so that the opening action of fixing the relative positions between the bag openings can be carried out, after the bag openings are opened, the material state adjusting device II 14 can extend into the bag openings, after the inner film bags are grabbed, the material state adjusting device I13 sends out the inner film edges, and the inner film bags are further plugged into or pulled out of the outer bags through the material state adjusting device, the first material state adjusting device 13 is matched with the second material state adjusting device 14, and the retraction amount or the extension amount of the inner film in the outer bag is completed under the driving of the adjusting linkage mechanism 15 and the adjusting displacement mechanism 142 so as to meet the size requirements, the filling process requirements or the sewing process requirements of different packaging bags.
As shown in fig. 4, the second material state adjusting device 14 further includes a side supporting workpiece 143 and an expanding driving mechanism 144, the expanding driving mechanism 144 is installed on the machining assembly 1, a driving end of the expanding driving mechanism 144 is linked with the side supporting workpiece 143 disposed on one side of the adjusting workpiece 141, and the expanding driving mechanism 144 drives the side supporting workpiece 143 to perform a telescopic reciprocating motion along a plane where the adjusting workpiece 141 reciprocates. Correspondingly, the side supporting workpiece 143 and the adjusting workpiece 141 jointly form a plate-shaped structure, the side supporting workpiece 143 is a tubular structure with air holes, the side supporting workpiece 143 is communicated with the negative pressure air path, and the moving directions of the side supporting workpiece 143 and the adjusting workpiece 141 are not the same or opposite. Specifically, the side supporting workpiece 143 can be an L-shaped tube with an air hole, the side supporting workpiece 143 forms the edge of the plate-shaped structure, and the size of the side supporting workpiece 143 is reduced through the arrangement, so that a workpiece with a small size can more easily extend into the material bag opening to work, the grabbing or opening effect cannot be influenced, the stretching direction of the side supporting workpiece 143 can be perpendicular to the reciprocating direction of the adjusting workpiece 141, the stretching operation of the side supporting workpiece 143 is facilitated, the material bag opening can be in a grabbing state and a transverse flat state can be kept through the processing, and the bag opening part is flat after the packaging bag is processed.
Specifically, the distractor drive mechanism 144 includes: the opening mechanism sliding block 1441, the opening mechanism sliding rail 1442, the opening mechanism cylinder 1443 and the connecting sheet 1444, the opening mechanism sliding block 1441 is fixedly connected with a power output end of the opening mechanism cylinder 1443 and can be arranged on the opening mechanism sliding rail 1442 in a sliding mode, the extending direction of the opening mechanism sliding rail 1442 is perpendicular to the reciprocating direction of the adjusting workpiece 141, after the adjusting workpiece extends into the bag opening, the opening mechanism cylinder 1443 drives the opening mechanism sliding block 1441 to move towards two sides along the opening mechanism sliding rail 1442, the side supporting workpiece 143 moves towards two sides along the opening mechanism sliding block 1441 through the connecting sheet 1444 to open the bag opening, then the side supporting workpiece 143 performs negative pressure suction, and the bag body is adsorbed and grabbed.
When the first material state adjusting device 13 and the second material state adjusting device 14 are matched with each other to process a double-layer sleeved bag body, the opening of the inner bag is positioned outside the opening of the outer bag, the adjusting linkage mechanism 15 drives the first material state adjusting device 13 to move towards the double-layer bag body to be contacted with the surface of the bag body and then respectively adsorb the inner bag and the outer bag, the adjusting linkage mechanism 15 drives the first material state adjusting device 13 to move away from each other to open the openings of the inner bag and the outer bag, then the side supporting workpiece 143 and the adjusting workpiece 141 move towards the inner bag body, when the bag is moved into the bag, the side supporting workpiece 143 is driven by the opening driving mechanism 144 to transversely support the inner bag tightly and adsorb the inner bag through negative pressure suction, meanwhile, the grabbing device 131 adsorbed in the first material state adjusting device 13 is adjusted to release the inner bag, and the adjusting and shifting mechanism 142 drives the inner bag to move, the adjustment work of the inner bag opening and the outer bag opening of the double-layer bag body is completed.
As shown in fig. 5, the side supporting workpiece 143 may be replaced by a side supporting workpiece one 145, the side supporting workpiece one 145 is an elastic workpiece with curved edges, the side supporting workpiece one 145 is disposed in the same direction as the extending direction of the adjusting workpiece 141, one end of the side supporting workpiece one 145 is fixedly connected to one side of the adjusting workpiece 141, the other end is a free end, and an edge from the fixedly connected end of the side supporting workpiece one 145 to the free end is a convex arc. The first side supporting workpiece 145 needs to have certain elasticity, the elastic coefficient is based on that the inner bag is not broken when the side supporting workpiece 145 deforms, the first side supporting workpiece 145 is exemplified by a metal rod, the metal rod is preferably a rod body with curvature, one end of the metal rod serving as the first side supporting workpiece 145 is fixedly arranged on one side of the adjusting workpiece 141, the other end of the metal rod is far away from the adjusting workpiece 141 due to the relation of the curvature, but the metal rod should have a rod body which extends towards the adjusting workpiece 141 and has the same direction of extension and retraction, the metal rod deforms along with the adjusting workpiece 141 when the adjusting workpiece 141 enters the bag body, the free end of the metal rod serving as the first side supporting workpiece 145 extends into the bag mouth, the bag mouth is further transversely supported through the curvature of the bag mouth, after the bag mouth is supported to the maximum transverse direction, the metal rod deforms to avoid the bag mouth from being broken, meanwhile, the flat state of the bag mouth is continuously kept to be opened by the deformation elastic force, compared with the side supporting workpiece 143 with a negative pressure, according to the adjustment process of the inner bag and the outer bag of the double-layer bag body, the moving distance of the adjusting workpiece 141 is set, when the adjusting workpiece 141 extends towards the inner side of the bag body, the first side supporting workpiece 145 is fixedly connected to the outer side of the edge of the adjusting workpiece 141, the inner bag is tightly supported by the first side supporting workpiece 145 along with the movement of the adjusting workpiece 141, the first material state adjusting device 13 releases negative pressure adsorption on the inner bag, and then the adjusting and shifting mechanism 142 drives the inner bag tightly supported on the adjusting workpiece 141 and the first side supporting workpiece 145 to move to the position where the mouths of the inner bag and the outer bag are flush along the extending direction of the bag body, so that the adjustment work of the inner bag and the outer bag of the.
As shown in fig. 2 and 6, the processing assembly 1 further includes a shaping device 12, the shaping device 12 is mounted on the processing assembly frame 11 adjacent to the first material condition adjusting device 13, and the shaping device 12 is located farther from the material than the first material condition adjusting device 13. Specifically, the shaping device 12 is far away from the material than the material state adjusting device I13, so that the material is shaped by the shaping device 12 after being adjusted, and the quality of the finished material is better; the purpose of setting up like this is to avoid setting device 12 to contact the material in advance in material state adjusting device 13, takes place to finalize the design excessively with the material scald be out of shape, scald badly or directly cut out the part adjusted as the machining allowance, the state of having avoided the material after the material finalizes the design is not good, the condition that finished product quality is poor takes place.
As shown in fig. 6, the shaping device 12 includes a shaping mechanism 121 and a shaping linkage mechanism 122, the shaping mechanism 121 is mounted on the processing assembly frame 11 through the shaping linkage mechanism 122, and the shaping linkage mechanism 122 drives the shaping mechanism 121 to perform reciprocating movement of extending/contracting relative to the material adjusting space 123. The shaping mechanism 121 can be voltage type heat sealing equipment, ultrasonic equipment, nail openings, electric fuses, high-frequency electronic heat sealing equipment or sewing equipment, and the like, the shaping linkage mechanism 122 drives the shaping mechanism 121 to extend into the material adjusting space 123 until the shaping mechanism is contacted with the material with the double-layer film structure, then shaping is carried out, and the device is reset after shaping is finished. Preferably, the shaping mechanism 121 is a voltage type heat sealing device, which includes: the heat sealing tool 1211 is driven by the shaping linkage mechanism 122 to reciprocate close to or away from the shaping mounting frame 1213. The voltage type heat seal equipment has the advantages of simple structure, convenience in installation and use and lower cost.
The shaping linkage mechanism 122 can be in a cylinder transmission type, a cam transmission type or a hydraulic device or an electromagnetic adsorption type for linkage transmission, and the cylinder transmission type and the cam transmission type are exemplified below; the cam transmission type has the characteristic of high shaping precision, and is suitable for shaping materials with higher shaping precision.
As shown in fig. 6, the shaping linkage 122 includes, by way of example in a cylinder drive: the machining assembly comprises a second connecting rod 1221, a rack 1222, a second gear 1223, a gear shaft 1224, a second bearing seat 1225, a swing arm 1226, a shaping linkage cylinder 1227 and a rack seat 1228, the gear shaft 1224 is installed on the machining assembly frame 11 through the second bearing seat 1225, the second gear 1223 is 2 in number and is fixedly sleeved on the gear shaft 1224 at intervals, the rack 1222 is in meshed transmission with the second gear 1223, the rack 1222 is movably connected with the rack seat 1228, the rack seat 1228 is installed on the machining assembly frame 11, one end of the second connecting rod 1221 is fixedly connected with the rack 1222, the other end of the second connecting rod 1221 is fixedly connected with the heat sealing cutter seat 1212 in linkage, the shaping linkage cylinder 1227 is installed on the machining assembly frame 11, one end of the swing arm 1226 is in transmission hinge connection with a power output end of.
During operation, the shaping linkage cylinder 1227 pushes the swing arm 1226 to swing, the swing arm 1226 drives the gear shaft 1224 to rotate on the bearing seat 1225, the gear pair 1223 is driven by the gear shaft to rotate, the gear rack 1222 meshed with the gear pair is driven to move towards the movement direction of the shaping mechanism 121, the heat sealing cutter holder 1212 drives the heat sealing cutter 1211 to move along with the gear rack 1222 under the connection of the connecting rod pair 1221 until the heat sealing cutter 1211 completes heat sealing of materials, and then the devices are reset. Through cylinder and rack and pinion cooperation for the device is when moving, and the cylinder stretches out for a certain distance, and it is certain to reach rack and pinion transmission distance, and the rack and pinion cooperation can avoid because setting mechanism 121 inertia continues to move, can avoid because setting mechanism 121 inertial motion causes the design effect poor, influences finished product quality.
As shown in fig. 7, the shaping linkage 122 may also be a cam transmission type, and the shaping linkage 122 includes: the driving device 122a is installed on the processing assembly frame 11, the power output end of the driving device 122a is linked with the transmission member 122b, the power output end of the transmission member 122b is fixedly connected with the heat sealing tool holder 1212, and the driving device 122a drives the heat sealing tool holder 1212 with the heat sealing tool 1211 to reciprocate close to or away from the shaping mounting frame 1213 through the transmission member 122b.
Specifically, the driving device 122a includes: the machining assembly comprises a first driving wheel 122a1, a first upper driven wheel 122a2, a first synchronous belt 122a5 and a first motor 122a6, wherein the first motor 122a6 is fixedly mounted on the machining assembly frame 11, the first motor 122a6 drives the first driving wheel 122a1, the first synchronous belt 122a5 is stretched on the first driving wheel 122a1 and the first upper driven wheel 122a2, the first driving wheel 122a1 is in synchronous power connection with the first upper driven wheel 122a2, and the first upper driven wheel 122a2 drives a transmission component 122b. Step motor or servo motor etc. can be chooseed for use to the motor one, in order to choose for use servo motor to exemplify, servo motor transmission precision is higher, can control the interact of forming mechanism better, promote the material effect of stereotyping, in operation, the power take off end of a motor 122a6 drives a drive wheel 122a1 and rotates, and then a drive wheel 122a1 drives through a hold-in range 122a5 and goes up from a drive wheel 122a2 and carry out synchronous rotation, when carrying out synchronous transmission, a hold-in range 122a5 is in the state of tightening, the emergence of the phenomenon of preventing skidding, promote transmission precision. The transmission component 122b comprises a first connecting rod 122b1, a first eccentric wheel sleeve 122b2, a first eccentric wheel 122b3, a first transmission shaft 122b4 and a first bearing seat 122b5, the first transmission shaft 122b4 is fixedly mounted on the machining assembly frame 11 through the first bearing seat 122b5, the first transmission shaft 122b4 is in power connection with the driving device 122a, the number of the first eccentric wheels 122b3 is 2, the first eccentric wheels 122b3 are fixedly sleeved on the first transmission shaft 122b4 at intervals, the first eccentric wheel sleeve 122b2 is sleeved on the first eccentric wheel 122b3, the first eccentric wheel sleeve 122b2 is fixedly connected with one end of the first connecting rod 122b1, and the other end of the first connecting rod 122b1 is fixedly connected with the tool apron 1212 in a heat sealing manner. When the heat sealing device works, the driven wheel I122 a2 is fixedly connected with the transmission shaft I122 b4 in a sleeved mode, the driven wheel I122 a2 drives the transmission shaft I122 b4 to rotate, the rotation of the transmission shaft I122 b4 can be changed into the vertical up-and-down movement of the connecting rod I122 b1 through the cam transmission mechanism, and therefore the heat sealing tool apron 1212 fixedly connected with one end of the connecting rod I122 b1 is driven to do reciprocating motion close to or far away from the shaping mounting frame 1213. The driving device 122a and the transmission part 122b are matched to enable the shaping mechanism 121 to press materials on the adjusting workpiece 141 for material shaping, the cam transmission type shaping linkage mechanism is high in control precision, and the shaping effect of the shaping mechanism 121 can be improved.
As shown in fig. 2, as an optimized solution of the present invention, the number of the shaping devices 12 is 2, the shaping devices are arranged in a plane symmetry manner, the symmetry plane can be a horizontal plane, a vertical plane, a spatial inclined plane, and other various planes, which are determined according to the equipment condition and the working environment, the horizontal plane is used as an example here, and the two shaping mechanisms 121 are driven by the respective connected shaping linkage mechanisms 122 to perform an opening or closing action between the shaping mechanisms 121, and the shaping mechanisms 121 in the open state form a boundary of the material adjustment space 123. Correspondingly, the two heat sealing mechanisms are arranged in a surface symmetry mode, and after the space enclosed by the two heat sealing mechanisms 121 when opened is the material adjusting space 123 closed, the heat sealing surfaces are attached, so that the heat sealing effect of the arranged heat sealing mechanisms is good.
As shown in fig. 2, the shaping mechanism 121 cooperates with the adjusting workpiece 141 to shape the material, the adjusting workpiece 141 further includes a shaping pressed part 1411 disposed in the material adjusting space 123, the shaping pressed part 1411 has a pressed point and/or line and/or surface structure adapted to the shape of the working structure of the shaping mechanism 121, and the shaping device 12 presses the material against the shaping pressed part 1411 to shape the material. The shaping pressed component 1411 is mounted on the processing assembly 1 through the displacement transmission mechanism 1422, the displacement transmission mechanism 1422 further includes a vertical displacement mechanism 14221, and the shaping pressed component 1411 and the slider-slide rail mechanism in the displacement transmission mechanism 1422 are disposed at the displacement end of the vertical displacement mechanism 14221 and are linked with the vertical displacement mechanism 14221. When the adjusted double-layer sleeved bag body is shaped through the shaping device 12, the vertical direction displacement mechanism 14221 drives the adjusting workpiece 141 which has been inserted into the bag body to move towards the shaping mechanism 121 on one side, so that the distances from the two sides of the bag body to the respective corresponding shaping mechanisms 121 are equal, the heat sealing effects of the two sides of the bag body in the heat sealing process of the bag body tend to be consistent, and the product quality is improved.
The shaping pressed component 1411 may be a structure separately installed on a device, or may be a structure for adjusting a part of the workpiece 141 to extend out, and is structurally characterized in that the shaping pressed component 1411 can receive hot press shaping of the shaping device on the inner film, and the shaping pressed component 1411, in cooperation with the displacement transmission mechanism 1422, can not only evenly divide displacement required for shaping the shaping device 12, but also evenly distribute the pressure of the material when the shaping device 12 is shaped, so that the pressures at various positions are basically consistent, thereby ensuring uniform shaping effect and high yield.
And when the shaping device 12 is matched with the shaping pressed part 1411, the rate of finished products can be further improved by matching with the first side supporting workpiece 145, the first side supporting workpiece 145 can reduce the curling or folding condition of the bag mouth during shaping by supporting the bag mouth of the packaging bag flat, the processing effect is good at the moment, and the rate of finished products of material processing is further improved by controlling the equipment state and the material state.
Alternatively, the setting device 12 may be a heat setting device, which heats the package by using a heat sealing knife, wherein the setting device 12 heats the package from the outside to the inside, the heating and shaping effect is good, compared with the heat sealing mode from inside to outside, the mode can keep the shaping effect, the packaging bag is not easy to be heated to the heat sealing state, thus, the processed packaging bag can be subjected to heat sealing procedures again, for example, the same or adjacent positions of the packaging bag are subjected to heat sealing actions for two or more times, the rejection rate of the packing bag is easily increased and the strength of the packing bag is also reduced, so that the packing bag is selectively shaped from the outside to the inside by using the shaping device 12, and this kind of design mode cooperation side props work piece 145 in this scheme and can play better effect, and the wrapping bag is more level and more smooth, and the design effect is better.
As shown in fig. 22, in another form of the shaping device, the shaping device i 16 includes a shaping structure i 161 and a pressing device 162, the shaping structure i 161 is installed on the material state adjusting device ii 14, and the pressing device 162 is installed on the processing assembly frame 11 and can move relative to the shaping device i 16 until pressing on the shaping structure i 161. The first shaping structure (161) is high-frequency electronic heat seal equipment. The pressing device 162 comprises a first driving device 1621 and a pressing piece 1622, the pressing piece 1622 is a point and/or line and/or surface structure matched with the first sizing structure 161, specifically, the pressing piece 1622 can be a surface structure formed by the bottom of the point, the line or the surface, or a structure formed by the point, the line, the surface or the line and the surface, or a structure formed by the point, the line and the surface and capable of pressing on a material, and the pressing piece 1622 is mounted on the processing assembly frame 11 through the first driving device 1621. The specific driving means may be the same structure as the driving means 122a. The first specific shaping structure 161 can be installed on the first shaping pressed part 1411, when shaping is performed, the material pressing piece 1622 presses the first shaping structure 161 to achieve material shaping, and the first shaping pressed part 1411 and the material pressing piece can be respectively set as a fixed electrode and a die.
As shown in fig. 1, 8 and 9, the processing assembly 1 performs material conveyance by the material conveyance assembly 3. The material to be processed is conveyed to the processing assembly 1 through the material conveying assembly 3 to carry out the shaping processing procedure of the material, so that the time required by material conveying is reduced, and the productivity is improved. The specific material conveying assembly 3 can be a conveying belt, a movable gripping device and the like, the movable gripping device is selected as the material conveying assembly, the bag body with the inner film is based on the material to be processed, and the bag body can be better unfolded by selecting the movable gripping device as the conveying device, so that the follow-up working procedures can be facilitated.
Specifically, the material conveying assembly 3 includes a power device 31, a transmission mechanism 32 and a material gripping device 34 which are arranged on a conveying assembly frame 33, and the power device 31 drives the material gripping device 34 through the transmission mechanism 32. The transmission mechanism 32 is powered by the power device 31, can drive the material gripping device 34 to reciprocate along the material conveying direction, improves the working efficiency of the device, grips the material by the material gripping device, and conveys the material by the driving of the transmission mechanism 32, so that the material can be conveyed to a specified position, the material conveying process is optimized, and the productivity is improved, the power device 31 can select a stepping motor, a servo motor and the like, and the transmission mechanism 32 can select a belt transmission or a tooth transmission gear and the like; the material gripping device 34 may be selected from a clamp, a manipulator, a negative pressure gripping device, and the like. According to the invention, the negative pressure gripping device is selected as the material gripping device, and has an advantage in processing soft materials of the bag body, so that the influence on the materials can be reduced, for example, the bag body is wrinkled when the clamp is used for gripping.
Specifically, the transmission mechanism 32 includes: the driving pulley 321, the driven pulley 322, the transmission synchronous belt 323, the tension pulley III 324 and the synchronous belt side plate 325, wherein the driving pulley 321, the driven pulley 322 and the tension pulley III 325 are installed on the conveying assembly frame 33 through the synchronous belt side plate 326, the driving pulley 321 is in transmission connection with the power device 31, and the driving pulley 321, the driven pulley 322 and the tension pulley III 324 are in synchronous transmission connection through the transmission synchronous belt 323. The number of the synchronous belt side plates 325 is 2, the synchronous belt side plates are oppositely arranged and are installed on the conveying assembly frame 33 at intervals, driving belt wheels 321 are arranged on the synchronous belt side plates 325, driven belt wheels 322 are provided with three tensioning belt 325 installation holes, the number of the driven belt wheels 322 is 2, the driven belt wheels are respectively arranged at the feeding end and the discharging end, the driving belt wheels 321 are arranged among the driven belt wheels 322, the transmission synchronous belt 323 is wound on the driving belt wheels 321 and the driven belt wheels 322, the number of the three tensioning belt 325 is 2, the tensioning belt wheels 325 abut against the outer surfaces of the transmission synchronous belt 323, and the function of tightly supporting the transmission synchronous belt 323 is achieved. Because drive mechanism 32 needs to drive material grabbing device 34 and carries out the reciprocating motion along material direction of delivery ascending, corresponding power device 31 chooses for use positive and negative motor, and the conveyer belt can choose flat belt, hold-in range etc. for use, adopts hold-in range and synchronous pulley's cooperation mode to carry out the transmission, can avoid conveyer belt and drive wheel skidding phenomenon when servo motor positive and negative rotation is in turn, guarantees the stability of transmission process.
Specifically, the material gripping device 34 includes: the front grabbing device 341, the rear grabbing device 342, the grabbing device mounting plate 343, the grabbing device mounting plate slider 344, the grabbing device mounting plate slider 345 and the synchronous belt fixing plate 346 are arranged on the conveying assembly frame 33 along the material conveying direction, the grabbing device mounting plate slider 344 is fixedly connected with the grabbing device mounting plate 343, the grabbing device mounting plate 343 is in sliding fit with the grabbing device mounting plate slider 345 through the grabbing device mounting plate slider 344, the front grabbing device 341 and the rear grabbing device 342 are arranged on the grabbing device mounting plate 343 along the material conveying direction, the synchronous belt fixing plate 346 is arranged on the grabbing device mounting plate 343, the synchronous belt fixing plate 346 is fixedly connected with the synchronous belt 323, and the synchronous belt 323 drives the grabbing device mounting plate 343 to reciprocate on the grabbing device mounting plate slider 345 along the material conveying direction. The number of the gripping device mounting plate slide rails 345 is 2, the gripping device mounting plate slide rails are horizontally mounted on the conveying assembly frame 33 along the material conveying direction, the gripping device mounting plate 343 is slidably mounted on the gripping device mounting plate slide rails 345 through four gripping device mounting plate sliders 344, a synchronous belt fixing plate 346 is fixedly connected with the gripping device mounting plate 343 through bolts, a conveying synchronous belt 323 can drive the gripping device mounting plate 345 to reciprocate along the material conveying direction, a front gripping device 341 and a rear gripping device 342 are further mounted on the gripping device mounting plate 345, the gripping device has the advantages that the adsorption pressure can be adjusted, raw material bags are not wrinkled when being adsorbed, the subsequent operation is not affected, gripping device ports of the front gripping device 341 and the rear gripping device 342 are arranged towards the material conveying surface and are flush with the conveying surface, the number of the front gripping devices 341 is 2, and the gripping devices are symmetrically arranged on the gripping device mounting plate 345, the front grabbing devices 341 are communicated with the vacuum equipment through the exhaust pipes, the number of the rear grabbing devices 342 is 2, the arrangement mode of the front grabbing devices is the same as that of the front grabbing devices, and the distance between the front grabbing devices 341 and the rear grabbing devices 342 is equal to the distance between the material conveying positions of the processing assembly 1 and the material conveying positions of the discharging assembly 5, so that the continuous work of the material shaping function is realized. The material gripping device 34 further includes: the gripping device anti-collision device 347 and the zero position sensing device 348, the gripping device anti-collision device 347 is disposed on the conveying assembly frame 33 on both sides of the gripping device mounting plate slide rail 345, and the zero position sensing device 348 includes a zero position sensing plate mounted at a fixed position on the gripping device mounting plate 343 and a sensor mounted on the conveying assembly frame 33. In case of equipment aging or control system failure, the material gripping device 34 may possibly collide with the whole equipment frame by rushing out the slide rails, in order to avoid this, a protection device may be installed at a corresponding position of the material conveying assembly 3, the protection device may be an elastic sheath, an elastic stopper, or the like, preferably, the gripping device anticollision devices 347 are installed on two sides of the gripping device installation plate slide rails 345, which helps to prolong the service life of the equipment.
In order to make the material gripping device 34 perform reciprocating motion at the material taking position and the turning point, travel switches, proximity switches or sensors can be installed on two sides of a moving guide rail of the material gripping device 34. With the installation proximity switch example, proximity switch and zero-position tablet cooperation realize power device 31 just reversing, and its theory of operation can send the signal of telecommunication when proximity switch senses zero-position tablet, and control power device's control system uses PLC control circuit, and when receiving this signal of telecommunication, PLC control system changes the electromagnetic relay on-off state of motor to control power device 31 just reversing, realize the continuous transportation of material. As an arrangement mode, the zero position sensing plate can be fixed on the gripping device mounting plate 343 of the material gripping device 34, the proximity switch is arranged on the conveying assembly frame 33, when the material gripping device 34 moves to a position where material needs to be taken, the proximity switch senses the zero position sensing plate, a signal is sent to the PLC control circuit, and then the PLC control circuit sends a reverse rotation instruction to control the power device 31 to reverse rotation to realize material transportation.
As shown in fig. 10 and 11, the apparatus further includes a feeding assembly 4 disposed at the feeding end of the process, and the feeding assembly 4 includes: a feeding assembly frame 41 and a feeding conveying mechanism 43, wherein the feeding conveying mechanism 43 is arranged on the feeding assembly frame 41. Pan feeding assembly 1 still includes: the feeding adjusting and positioning mechanism 42 is used for adjusting the material to be processed and then conveying the material to the processing assembly 1 through the feeding conveying mechanism 43 and/or the material conveying assembly 3, when the material is shaped, certain state requirements are required for the material to be processed, and specifically, the edge to be adjusted and the extending direction of the shaping mechanism 121 of the processing assembly 1 are required to be arranged in parallel, so that the state of the material to be processed is required to be adjusted when the material is fed, and the feeding assembly 4 with the feeding adjusting and positioning mechanism 42 is additionally used for adjusting the state of the material to be processed through the feeding adjusting and positioning mechanism 42; similarly, the feeding state is also required to be adjusted when the sizing process is performed. Specifically, the feeding conveying mechanism 43 is arranged before the feeding adjusting and positioning mechanism 42, the feeding adjusting and positioning mechanism 42 and the feeding conveying mechanism 43 are arranged adjacently, the feeding adjusting and positioning mechanism 42 and the feeding conveying mechanism 43 are matched to automatically adjust the material state, so that manual detail adjustment is not needed, when the operation is carried out, the material to be processed is placed on the feeding conveying mechanism 43 only by manual operation, the position of the edge to be adjusted is placed at a proper position, the feeding conveying mechanism 43 drives the material to be processed to move until the material is abutted to the feeding adjusting and positioning mechanism 42, the material adjusted by the feeding adjusting and positioning mechanism 42 is continuously conveyed to the subsequent process by the feeding conveying mechanism 43, and the working efficiency is improved.
Specifically, the feeding adjusting and positioning mechanism 42 includes: the material blocking device comprises a material blocking piece 421, a material blocking piece cylinder 422, a cylinder mounting plate 423, a material blocking head seat 424, a material blocking tail seat 425, a material blocking adjusting screw rod 426, an adjusting screw rod seat 427, a mounting plate sliding block 428 and a guide sliding rod 429, wherein the material blocking head seat 424 and the material blocking tail seat 425 are fixedly mounted on a feeding assembly frame 41, the material blocking head seat 424 and the material blocking tail seat 425 are connected through a guide sliding rod 429 to form a frame structure, a mounting plate sliding block 428 is fixedly connected onto the cylinder mounting plate 423, the mounting plate sliding block 428 can be slidably sleeved on the guide sliding rod 429, a material blocking piece cylinder 422 is mounted on the cylinder mounting plate 423, the material blocking piece 421 is connected onto the power output end of the material blocking piece cylinder 422, the material blocking piece 421 extends and retracts towards the material direction under the driving of the material blocking piece cylinder 422, an adjusting screw rod seat 427 is further mounted on the cylinder mounting plate 423, the adjusting screw rod seat 427 is in threaded fit with the adjusting screw rod 426, the material blocking, and penetrates through the stock head seat 424 or the stock tail seat 425. Correspondingly, the number of the material blocking pieces 421 is 2, the material conveying surface can be exposed or retracted under the driving of the respective connected cylinders, the material blocking and position adjusting are realized, for example, when the material to be processed is a bag body, the material bag is conveyed to the feeding adjusting and positioning mechanism 42 through the material conveying mechanism 43, the material blocking pieces 421 are driven by the cylinders to extend out to block on the material bag conveying line, and the material bag is blocked. The mounting plate slide rails 429 also have a guiding function, and the material blocking adjusting screw rods 426 can adjust the distance between the raw material bag and the material conveying mechanism 43 along the material conveying direction so as to adapt to the size change of the raw material bag.
Specifically, the feeding conveyor 43 includes: the feeding assembly comprises a motor IV 431, a driving pulley IV 432, a driving shaft I433, a driven pulley I434, a transmission pulley I435 and a transmission belt I436, wherein the driving shaft I433 and the driven pulley I434 are horizontally arranged on the feeding assembly frame 41 at intervals, the driving pulley IV 432 is fixedly sleeved on the driving shaft I433, the driving pulley IV 432 is in transmission connection with the motor IV 431 through a synchronous belt, the transmission pulley I435 is N, a plurality of transmission pulleys I435 are fixedly sleeved on the driving shaft I433 at equal intervals, and the transmission pulley I435 and the driven pulley I434 are in transmission connection through the transmission belt I436. The first 436 conveying directions of the conveying belts are the same as the conveying directions of materials, the fourth 431 of the motors can select servo motors, the stepping motors and the like, the fourth 431 of the motors and the driving belt wheel are driven through synchronous belts, the synchronous belts can reduce the slipping phenomenon between the fourth 431 of the motors and the first 433 of the driving shafts, the stability during transmission is improved, the structure of equipment can be simplified by adopting a plurality of conveying belts, the contact area with a raw material bag is reduced, and adjustment failure caused by overlarge acting force between the bag body and a material blocking part cannot be caused when material blocking adjustment is carried out.
As shown in fig. 12, 13 and 14, the present invention further includes a discharging assembly 5 disposed at the discharging end of the process, wherein the discharging assembly 5 includes: the discharging assembly machine frame 51, the discharging conveying mechanism 52 and the stacking mechanism 53, wherein the discharging conveying mechanism 52 and the stacking mechanism 53 are arranged on the discharging assembly machine frame 51 in a process connection mode, and the stacking mechanism 53 is arranged corresponding to the discharging area. Specifically, the discharging and conveying mechanism 52 can be selected from a fixture, a gripping device, a conveyor belt, and the like, and the stacking mechanism 53 is used for stacking the folded raw material bags. The discharge conveying mechanism 52 includes: the discharging conveyor comprises a discharging conveyor frame 521 and a discharging conveyor part 522, wherein the discharging conveyor part 522 is installed on the discharging conveyor frame 521, and the discharging conveyor part 522 comprises a discharging conveying part 5221 and/or a discharging pressing wheel part 5222. The preferred discharge conveying part 522 comprises a discharge conveying part 5221 and a discharge pressing wheel part 5222, and the discharge pressing wheel part 5222 presses the discharge conveying part 5221, so that the conveying is more stable, and the folded raw material bags are pre-pressed and fixed to be more beneficial to the operation of the subsequent stacking mechanism 53.
Specifically, the discharge transfer part 5221 includes: the second driving shaft 52213 and the second driven roller 52214 are arranged along the material conveying direction and are located at the feeding end and the discharging end of the discharging conveying part 5221, the device conveys the raw material bags to the feeding end of the stacking mechanism 53 through the discharging conveying part 5221, the second driving belt 52212 is fixedly sleeved on the second driving shaft 52213 and is provided with a plurality of conveying belts at equal intervals, specifically 3 conveying belts are uniformly distributed with the same length as the raw material bags, the second conveying belt 52215 is arranged along the material conveying direction and wound on the second driving belt 52212 and the second driven roller 52214 to form a conveying plane, the specific conveying plane can be flush with a working table or slightly higher than the working table, the fifth motor 52211 is fixedly arranged on the discharging assembly rack 51, and a rotating shaft of the motor is in transmission connection with the second driving shaft 52213, and specifically can be in transmission connection through a belt or a gear.
Specifically, the discharge pinch roller portion 5222 includes: the discharging pinch roller frame 52221, the lifting pinch roller 52222, the lifting pinch roller cylinder 52223, the connecting shaft 52224, the constant pressure roller 52525, the first connecting frame 52226 and the second connecting frame 52227, the discharging pinch roller frame 52221 is erected vertically above the discharging conveying part 5221, the lifting pinch roller 52222 is arranged at the feeding end of the discharging conveying part 5221 and can be connected to the discharging pinch roller frame 52221 in a contact and separation manner with the discharging conveying part 5221, specifically, the lifting pinch roller frame 52222 is fixedly sleeved on the connecting shaft 52221, the connecting shaft 52224 is fixedly sleeved on the connecting shaft 52224, the number of the lifting pinch rollers 52224 is 2, the lifting pinch roller frame 52224 is fixedly sleeved on the connecting shaft 52224, the connecting shaft 52216 is vertically arranged in the moving direction of the second conveying belts, the lifting pinch roller 52222 is arranged opposite to the second conveying belts 52216 and can be pressed on the second conveying belts 52216, the lifting pinch roller cylinder 52223 is fixedly arranged on the discharging pinch roller frame 52221 through the second connecting frame 52227, the constant pressure roller 52525 is arranged at the discharging end of the discharging conveying, the constant pressure wheels 52525 are mounted on the discharge pressure wheel frame 52221 through the second connecting frame 52227, specifically, the number of the constant pressure wheels 52525 is 2, and the constant pressure wheels are respectively pressed on the two adjacent conveyor belts 52216, and in an optimized selection, the two constant pressure wheels 52525 are also arranged at the feeding end of the stacking mechanism 53 to ensure that the raw material bags are smoothly fed into the stacking mechanism 53.
The stacking mechanism 53 comprises an overturning stacking piece 531 and a driving device 532, one side of the stacking piece 531 is arranged adjacent to the discharging end of the discharging conveying part 5221 and is located below the discharging end, the other side of the stacking piece 531 is in transmission connection with the driving device 532, the stacking piece 531 is driven by the driving device 532 to rotate along the material conveying direction to convey the raw material bags to a stacking area, an included angle which is larger than 90 degrees and smaller than or equal to 180 degrees is formed between the stacking piece 531 and the conveying surface of the discharging conveying part 5221 during feeding, the stacking piece 531 is driven by the driving device 532 to reciprocate at the feeding position and the discharging stacking position to stack the raw material bags, and the driving device 532 can select a forward and reverse rotating motor.
The double-deck suit bag body can be directly carried to ejection of compact assembly 5 department through material transport assembly 3 after processing assembly 1 is stereotyped, exports as a good wrapping bag product of stereotyping, can also regard the wrapping bag after processing assembly 1 is stereotyped as the raw materials of other processes to use. Specifically, the set of packaging bag processing equipment further comprises a folding assembly 2 which is arranged at the same side with the processing assembly 1 and is close to the process, and the formed raw material bag finishes bag opening folding and forming work at the folding assembly 2.
As shown in fig. 15 and 16, the hemming assembly 2 at least needs to include an axial hemming mechanism 22 to perform an operation of folding the edge of the raw material, where the axial hemming mechanism 22 includes a folding mechanism 221, a material positioning mechanism 222, and a working space 223 when the axial hemming mechanism 22 folds the edge of the raw material, where the folding mechanism 221 includes: the folding device 2211, the folding power device 2212 and the folding transmission mechanism 2213, the folding device 2211 is arranged on one side of the material positioning mechanism 222, the folding power device 2212 drives the folding device 2211 to perform angular displacement relative to the material positioning mechanism 222 through the folding transmission mechanism 2213, the folding power device 2212 drives the folding device 2211 to rotate through the folding transmission mechanism 2213 at the moment, and when the folding device 2211 contacts with the edge of the raw material, the folding device 2211 continuously rotates to drive the edge of the raw material to turn together to realize folding.
The folding transmission mechanism 2213 comprises a rotating shaft 22131, the rotating shaft 22131 is arranged on one side of the material positioning mechanism 222 in the same direction, a folding piece 2211 is arranged on the rotating shaft 22131, the extending direction of the folding piece 2211 is different from the axial direction of the rotating shaft 22131, the rotating shaft 22131 is driven to rotate by a folding power device 2212, the rotating range is larger than 0 degree and smaller than or equal to 360 degrees, at the moment, the folding piece 2211 is driven by the rotating shaft 22131 rotating along the axis, and then the folding piece 2211 folds the edges of the raw materials until the edges folded by the raw materials are pressed on the material positioning mechanism 122.
The material positioning mechanism 222 is one of a clamp and a negative pressure device or a combination mode of the two devices is selected, the material positioning mechanism 222 at least has one positioning working point and/or a linear structure and/or a surface, the edge folding piece 2211 performs angular displacement relative to the material positioning mechanism 222 and an included angle between the positioning working surface is gradually reduced to be less than or equal to 0 degree, the material positioning mechanism 222 has the function of opening a woven bag opening needing to be folded to form a working space with a certain size, so that the edge folding mechanism can conveniently perform edge folding work on the bag opening, correspondingly, the material positioning mechanism 222 can select an adsorption module formed by linearly arranging a plurality of grabbing devices, can select grabbing clamps capable of grabbing materials, can select a negative pressure grabbing device utilizing negative pressure to adsorb the materials and the like, the positioning work can select a point-shaped negative pressure grabbing device or a slit-shaped opening communicated with the negative pressure on the device, or an adsorption surface formed by an opening with a certain area, or a combination of the above manners, the material positioning mechanism 222 is exemplified by a negative pressure gripping device, the opening and closing of the bag opening can be better controlled by the negative pressure gripping device, the negative pressure gripping device is more convenient to match with the axial folding mechanism 22, and the folding effect of the bag opening is better.
In the solution, the folding power device 2212 selects an air cylinder as a power device for example, a gear transmission is adopted between the power output end of the folding power device 2212 and the rotating shaft 22131, and the gear transmission is selected as a higher-precision transmission mode, because when the folding mechanism 221 works, a more accurate displacement positioning is required, otherwise, the situation that the raw material cannot be pressed on the material positioning mechanism 222 occurs, and the situation that the folding piece 2211 is damaged due to an excessively large rotating angle is also avoided.
Specifically, the gear transmission mechanism 22121 includes a spur rack 221211 fixedly connected to the turnover power device 2212 through a connecting member and a first gear 221212 fixedly sleeved on the rotating shaft 22131 and engaged with the spur rack 221211; the air cylinder, the servo motor, the rotary air cylinder, the stepping motor and the like can be selected for the turnover power device, and due to the installation position of the turnover power device and the comprehensive consideration of the purpose of driving the turnover shaft to rotate and the equipment cost, the economic and efficient air cylinder is selected for the turnover power device to serve as a power source in the scheme. The tooth transmission is selected because the action of the edge folding piece needs to be accurately controlled when the bag opening is folded so as to match with other procedures to finish the edge folding work of the bag opening, and the tooth transmission has the advantages of high transmission precision, straight gear transmission, bevel gear transmission, gear rack transmission and the like can be selected for the tooth transmission, and the gear rack transmission is selected for example. The rack can be selected from a straight rack 221211, a straight rack 221211 is connected with a power output end of the turnover power device, the gear is selected from a straight spur gear, a first gear 221212 is fixedly sleeved on the rotating shaft 22131, a toothed surface of the straight rack 221211 is meshed with a first gear 221212, and a straight rack 221211 and a first gear 221212 are matched to apply power of the air cylinder to the edge folding piece 2211 to carry out turnover movement, so that the bag opening edge folding work is completed.
As shown in fig. 17, hemming assembly 2 further includes a hemming opening and closing power mechanism 23 mounted on hemming assembly frame 21, the number of axial hemming mechanisms 22 is 2, two sets of axial hemming mechanisms 22 are symmetrically mounted on hemming assembly frame 21, axial hemming mechanisms 22 perform opening and closing actions between the two sets of mechanisms through hemming opening and closing power mechanism 23, a working space 223 is formed between axial hemming mechanisms 22 when the axial hemming mechanisms 22 are opened, hemming opening and closing power mechanism 23 drives axial hemming mechanisms 22 to perform displacement actions, and a space range passed by axial hemming mechanisms 22 forms working space 223 when the axial hemming mechanisms 22 perform displacement.
Specifically, the folding opening and closing power mechanism 23 includes: the driving wheel II 231, the upper driven wheel II 232, the lower driven wheel II 233, the tension pulley II 234, the synchronous belt II 235 and the motor II 236, the driving wheel II 231 is in transmission connection with the motor II 236 and is in synchronous power connection with the upper driven wheel 232 and the lower driven wheel II 233 through the synchronous belt II 235, the tension pulley II 234 is arranged between the driving wheel II 231, the upper driven wheel II 232 and the lower driven wheel II 233, the motor II 236 is arranged on the hemming assembly frame 21, the power output end of the motor II 236 drives the driving wheel II 231 to rotate, the driving wheel II 231 drives the upper driven wheel II 232, the lower driven wheel II 233 and the tension pulley II 234 to rotate through the synchronous belt II 235, the upper driven wheel II 232 and the lower driven wheel II 233 can be connected with a load, and the tension pulley II 234 enables the synchronous belt II 235 to be in a tensioned state.
As shown in fig. 18 and 19, hemming assembly 2 further includes a radial displacement mechanism 24, and radial displacement mechanism 24 is mounted on hemming assembly frame 21 to move toward and away from working space 223. "radial" is a relative position concept proposed with respect to the axial direction, and refers to a radial direction of the rotation shaft 22131, here exemplified as a radial direction toward the working space 223, that is, a moving direction of the radial displacement mechanism 24 is spatially perpendicular to the axial direction of the rotation shaft 22131 and toward the working space 223.
Hemming assembly 2 further includes a radial hemming mechanism 25 mounted on radial displacement mechanism 24, and radial hemming mechanism 25 is driven by radial displacement mechanism 24 to perform an operation of extending toward or away from working space 223, and thereby radial hemming mechanism 25 avoids colliding with axial hemming mechanism 22.
Specifically, the radial displacement mechanism 24 includes: the hemming device comprises a displacement plate 241, a displacement plate sliding block 242, a displacement plate sliding rail 243, a displacement mechanism mounting plate 244 and a displacement mechanism air cylinder 245, wherein the displacement mechanism mounting plate 244 is mounted on the hemming assembly frame 21, the displacement plate sliding rail 243 is mounted on the displacement mechanism mounting plate 244 along the axial direction of a rotating shaft 22131, the displacement plate 241 is fixedly connected with the displacement plate sliding block 242, the displacement plate 241 slides on the displacement plate sliding rail 243 through the displacement plate sliding block 242, the displacement mechanism air cylinder 245 is mounted on the displacement mechanism mounting plate 244, a power output end of the displacement mechanism air cylinder 245 faces to the working space 223 and is fixedly connected with the displacement plate 241 to drive the displacement plate 241 to extend into/out of the working space 223, and the displacement mechanism air cylinder 245 drives the displacement plate 241 to slide on the displacement plate sliding rail 243 and to perform reciprocating motion of extending into or out.
Specifically, the distractor mechanism 252 includes: the expanding mechanism comprises an expanding slide block 2521, an expanding slide rail 2522 and an expanding cylinder 2523, wherein the expanding slide rail 2522 is mounted on an expanding mechanism mounting plate 2524 fixedly connected with the radial displacement mechanism 24 along the axial direction of the rotating shaft 22131, the power output end of the expanding cylinder 2523 is fixedly connected with the expanding slide block 2521, and the expanding piece 251 is fixedly connected to the expanding slide block 2521 towards the working space 223. The expanding member 251 is driven by the expanding cylinder 2523 to reciprocate on the expanding displacement mechanism 252 along the rotating shaft 22131 in the working space 223 in a manner similar to "lateral expanding".
Specifically, hemming assembly 2 further includes a coupling 26, where coupling 26 is mounted on radial displacement mechanism 24, and radial displacement mechanism 24 drives relative working space 223 to perform the extending/extending motion. The connector 26 is used for shaping the folded bag opening, the connector can adopt a heat seal cutter and an ultrasonic bonding device for heat seal shaping of the bag opening, and can also adopt sewing equipment for sewing shaping of the bag opening.
As shown in fig. 20, hemming assembly 2 further includes a cam mechanism 27, and axial hemming mechanism 22 is respectively connected to hemming opening and closing power mechanism 23 through cam mechanism 27. The power connection here has various forms, including but not limited to the cylinder drives the cam mechanism, accomplishes the opening and closing action of the bag mouth, also can choose the cam mechanism, through setting up an eccentric wheel mechanism and turning into the linear motion of the cam mechanism with the rotation of the eccentric shaft, thus accomplish the opening and closing action of the bag mouth. In the invention, because the upper part and the lower part in the cam mechanism need to simultaneously move close to or away from each other, the cylinder transmission is difficult to achieve, the number of the installation components is large, the stability of the lifting device is not facilitated, the required requirements can be met by transmission through the eccentric wheel component, the structural transmission is stable, the motor can be a servo motor or a stepping motor and the like, the servo motor is selected as the type selection of the motor II 236, the servo motor has high control precision, the synchronous effect is good when the servo motor is matched with a synchronous belt and a synchronous belt wheel, and the requirement of the flanging assembly 2 can be met.
Specifically, the cam mechanism 27 includes: the folding mechanism comprises a connecting rod II 271, an eccentric wheel sleeve II 272, an eccentric wheel II 273, a transmission shaft II 274 and a bearing seat II 275, wherein the transmission shaft II 274 is installed on the folding assembly rack 21 through the bearing seat II 275, the transmission shaft II 274 is in transmission connection with the folding opening and closing power mechanism 23, the number of the eccentric wheel II 273 is 2 as large as the transmission shaft II 274 in a sleeved mode, the two eccentric wheel II 273 is fixedly sleeved with the transmission shaft II 274 at intervals, the eccentric wheel sleeve II 272 is sleeved on the eccentric wheel II 273, the eccentric wheel sleeve II 272 is fixedly connected with one side end portion of the connecting rod II 271, and the other end portion of the connecting rod II 271 is fixedly connected with the. When the material needs to be opened, for example, the material has an opening, the two material positioning mechanisms 222 can perform displacement, adsorption and separation actions relatively, thereby completing the opening of the material.
As shown in fig. 21, the hemming assembly 2 further includes a positioning mechanism 28, the hemming assembly frame 21 is mounted on the ground through the positioning mechanism 28, the positioning mechanism can be a lead screw, a cylinder, a motor or a bolt, and the like. The positioning mechanism 28 comprises: the position adjusting bolt 281, the first rotatable connecting piece 282 and the position adjusting mounting plate 283, wherein the position adjusting mounting plate 283 is fixedly arranged on the ground, the first rotatable connecting piece 282 is fixedly connected with the hemming assembly frame 21, one end part of the position adjusting bolt 281 is in threaded fit with the first rotatable connecting piece 282, and the other end part of the position adjusting bolt 281 is in threaded fit with the position adjusting mounting plate 283. The head end of the positioning bolt 281 is in threaded fit with the mounting plate, the other end of the positioning bolt is in threaded fit with a first rotatable connector 282 fixedly connected on the wall plate of the flanging assembly frame 11, and a nut is arranged at the first rotatable connector 282 for locking. The first rotatable connecting piece 282 can be a flat plate or a fisheye joint, preferably, the fisheye joint is selected as the first rotatable connecting piece, when the first rotatable connecting piece is in transmission fit with a bolt, the fisheye joint is not easy to be clamped, when the positioning action is carried out, the fixing bolt of the folding edge assembly 2 is firstly loosened to enable the folding edge assembly 2 to move, then the nut is rotated to enable the folding edge assembly 2 to horizontally move away from the material conveying assembly 3 in the direction perpendicular to the material conveying direction, so that the folding edge assembly is separated from the production line temporarily, different processing requirements of different materials are met, and the application range of the equipment is expanded.
As shown in fig. 15-21, in combination with the device in the hemming assembly 2, the hemming opening and closing power mechanism 23 is installed on the hemming assembly frame 21, the hemming opening and closing power mechanism 23 drives the axial hemming mechanism 22 to perform opening or closing movement between the devices through the cam mechanism 27, at this time, the material positioning mechanism 222 clamps the bag body or performs negative pressure suction, the bag mouth of the raw material bag is opened, the radial hemming mechanism 25 and the connector 26 are both installed on the displacement end of the radial displacement mechanism 24 and are driven by the radial displacement mechanism 24, the radial displacement mechanism 24 drives the radial hemming mechanism 25 and the connector 26 to perform "extending in" and "extending" movements to the bag mouth in the working space 223, and the radial hemming mechanism 25 performs "cross-bracing" movement to the bag mouth.
The shaped raw material bag is placed at the hemming assembly 2, firstly, the bag mouth is opened by a material positioning mechanism 222 in a section, the opening amount of the bag mouth is smaller than the maximum opening amount of the bag mouth, meanwhile, a folding mechanism 221 folds two opposite sides of the bag mouth inwards, a radial displacement mechanism 24 drives a radial hemming mechanism 24 and a connector 26 to extend into the bag mouth, then, the material positioning mechanism 222 opens two sections of the bag mouth and matches the folding mechanism 221 to open the bag mouth to the maximum opening amount of the bag mouth, thereby folding the other two sides of the raw material bag inwards, the radial hemming mechanism 25 starts to transversely support when the material positioning mechanism 222 performs two-section opening action or later, simultaneously, the material positioning mechanism 222 makes opposite movement to press the folded bag mouth at the connector 26 for shaping, the material positioning mechanism 222 opens after the shaping is completed, each mechanism resets to complete the bag mouth hemming, but at the moment, if the bag mouth is easy to open a phenomenon with a large, in order to obtain a flat product, the material positioning mechanism 222 performs a relative closing and opening action again to flatten the bag opening without performing material grabbing and positioning, i.e., the negative pressure device stops sucking air or the clamp does not clamp any more.
In summary, as shown in fig. 1, the present invention discloses a packaging bag processing apparatus, which may include a processing assembly 1, a folding assembly 2, a material conveying assembly 3, a feeding assembly 4, and a discharging assembly 5.
By combining the specific implementation methods, the working steps of the packaging bag processing equipment are as follows:
the raw materials can be selected from a single-layer bag body, a double-layer bag body or a single-layer or double-layer plastic film, and the double-layer bag body is selected for process examples.
When the double-layer sleeved raw material bag only needs to be shaped, the shaping method can be completed through the following steps:
preparing S20 raw material: the raw material bags sleeved in a double layer are selected to be flatly stacked together, and the raw material bag openings are placed in the material adjusting space 123 by aligning the first material state adjusting device 13 to wait for operation.
S21 opening the bag opening: picking up two side edges of the bag opening through a first material state adjusting device 13, respectively grabbing each layer of bag opening edge of the bag opening of the double-layer sleeved raw material bag by the first material state adjusting device 13, and then displacing the first material state adjusting device 13 to open the bag opening.
S22 pressing the plate into a bag: the second material state adjusting device 14 enters the interior of the material through the opening of the bag in the opening state, and the adjusting workpiece 141 extends into the opening of the raw material bag.
S24 two-stage bagging: the side supporting workpiece 143 is driven by the adjusting and shifting mechanism 142 to extend into the bag opening, the material outer bag is adsorbed by the material state adjusting device I13 at the moment, the bag opening is in an open state, the inner film is adsorbed by the side supporting workpiece 143 and is in a tightening state, the relative position of the material outer bag and the bag opening of the inner film is adjusted through the extending action of the side supporting workpiece 143 to the bag opening, the distance between the bag opening of the inner film and the bag opening of the outer bag is adjusted, the extending amount of the bag opening of the inner film extending out of the bag opening of the outer bag is adjustable, and preparation is made for next setting work.
S26 outside sizing: the shaping device 12 presses the material on the adjusting workpiece 141 for shaping, the shaping device 12 may be a heat sealing device, such as a heat sealing knife, an ultrasonic point ironing machine, or a gluing and sewing machine, and is exemplified by a heat sealing knife, and during heat sealing, the shaping device 12 performs synchronous heat pressing action towards the bag mouth direction on both sides of the bag mouth of the raw material bag; the adjusting workpiece 141 is inserted into the mouth of the raw material bag and then should be located at the center of the heat sealing area when the raw material bag is subjected to pressure heat sealing, the adjusting workpiece 141 has two working and setting modes, one mode is that the adjusting workpiece 141 is a pressed piece which is arranged in a flush manner with the center of the heat sealing area, the adjusting workpiece 141 is directly inserted into the mouth of the bag to be matched with the shaping device 12 for carrying out bag mouth shaping work, the other mode is that the starting position of the adjusting workpiece 141 cannot be arranged in a flush manner with the center of the heat sealing area due to limited station space, after the adjusting workpiece 141 is inserted into the mouth of the bag, the adjusting workpiece 141 needs to be inserted into the mouth of the bag and before the shaping device 12 carries out bag mouth shaping work or moves synchronously with the shaping device 12, so that the adjusting workpiece 141 can be subjected to pressure matching shaping at the center of the heat sealing area, otherwise, the other side is easy to have poor shaping effect.
S26 reset send: and the second material state adjusting device 14 resets, and the material bag is conveyed to enter the next station through the material conveying assembly 3.
In step S24, the side-supporting workpiece 143 of the second material state adjusting device 14 performs negative pressure adsorption on the inner bag, and cooperates with the first material state adjusting device 13 under the driving of the adjusting and shifting mechanism 142 to complete the relative position adjustment of the bag opening edge between the material bag bodies, the side-supporting workpiece 143 adsorbs the inner raw material bag, at this time, the outer raw material bag is positioned by the first material state adjusting device 13, that is, the inner and outer raw material bags are respectively grabbed by the two devices, and then the two shaped devices perform relative displacement, in this case, the negative pressure mechanism 143 moves, the first material state adjusting device 13 does not move, and a relative displacement is generated between the two bags to adjust the distance between the two bag bodies, wherein the adjusted extending amount or extending amount of the bag opening edge can be specifically determined according to the actual working condition requirements.
The method also comprises the following steps of S24-1 spreading the wale between the steps of S24 and S26: the side supporting workpiece 143 is driven by the supporting driving mechanism 144 to perform telescopic action along the plane of the adjusting workpiece 141, so as to support the bag body to be flat, the side supporting workpiece 143 is driven by the supporting driving mechanism 144 to perform transverse supporting action on two sides of the adjusting workpiece 141, so that the bag body sleeved together in a stack manner can be supported to be flat, the influence of wrinkles caused by the material state adjusting device 13 when grabbing materials on the setting can be solved, the vacuum adsorption is firstly performed, then the negative pressure mechanism 143 moves to position the inner bag and the outer bag, then the side supporting is performed, the phenomenon that the inner bag near the bag opening caused by the movement of the negative pressure mechanism 143 after the side supporting and the vacuum adsorption is accumulated near the bag opening to form inner bag wrinkles in the area of the bag opening is avoided, and the accumulated wrinkles are not positioned at the bag opening but placed at the bag body below the bag opening through the action of internal feeding after the adsorption, so as to help the bag opening to be flat, also help the wrapping bag interior membrane bag to have more allowances when filling, reduce the damaged condition of interior membrane bag, if the fold is in sack department in addition, setting device 12 can be used in the inner bag part of fold during the design, can influence the design effect, can not set even, causes the defective percentage to rise, and adopts and carries out vacuum adsorption earlier then negative pressure mechanism removes the location sack, then carries out the side branch and can effectively avoid appearing the fold phenomenon that setting device 12 acts on the part and reduce the defective percentage.
Accordingly, by installing the first side-supporting workpiece 145 on the adjusting workpiece 141, the step S23 can be omitted, that is, the first side-supporting workpiece 145 replaces the first side-supporting workpiece 143 and the opening driving mechanism 144, in the step S22, the first side-supporting workpiece 145 enters the inner bag while the adjusting workpiece 141 extends into the space between the inner bags of the opened double-layered bag, and because the first side-supporting workpiece 145 has a convex arc elastic workpiece, the first side-supporting workpiece 145 tightens the inner bag while the adjusting workpiece 141 enters the inner bag, so as to achieve the effect achieved by the unfolding of the cross brace in the step S23.
When the workpiece 141 is adjusted not to be flush with the center of the heat-sealed area, a step S25 of lowering and setting is further included between steps S24-1 and S26: the adjusting workpiece 141 is driven by the adjusting and shifting mechanism 142 to move along with the shaping device 12 arranged on one side to the shaping device 12 arranged on the other side, and the shaping devices 12 arranged on two sides of the material state adjusting device II 14 press the materials on the adjusting workpiece 141 at the same time.
When the double-layer bagging needs to be subjected to bag opening edge folding after the shaping is finished at the processing assembly 1, the method can be finished through the following steps:
s3 folding: the raw material bag is folded inwards or outwards through the folding assembly 2.
S31 opening the bag opening for one section: the material positioning mechanisms 222 clamp the material or start negative pressure suction, the material positioning mechanisms 222 move away from each other to open the bag mouth, and the opening range is smaller than the maximum opening amount of the bag mouth.
S32 folding the opening of the bag: after the material positioning mechanism 222 performs the first opening action, the folding mechanism 221 folds the edge of the bag opening into or out of the bag body; the folding mode here depends on the needs of the working conditions at the time, and here, the folding into the bag body is exemplified.
S34 binding protrusion: after the folding mechanism 221 performs the folding operation into the bag body, the bag mouth edge of the raw material bag is folded inwards to form an unshaped folding structure, and at this time, the connector 26 is driven by the radial displacement mechanism 24 to perform the extending operation relative to the working space 223.
S35 close binding: when the connector 26 extends into the working space 223 in the pocket, the axial flanging mechanism 22 performs a closing action by aligning with the pocket flanging structure, and at this time, the axial flanging mechanism 22 presses the unshaped pocket flanging structure on the connector 26 to combine and fix the materials; the advantage of doing so is that the mode can improve yield and the pleasing to the eye, firm degree after the design to the design mode of other directions.
S36 reset: the devices are reset and the material positioning mechanism 222 stops positioning.
Step S33 may be added between steps S32 and S34, and step S33 is that the material positioning mechanism 222 stretches the bag opening two-stage: the material positioning mechanism 222 opens the bag mouth for the second time, the opening range is larger than the step S31 or the bag mouth is opened to the maximum, so that two sides of the raw material bag mouth, which are not folded or are not folded completely, are tensioned and straightened, the bag mouth sides can be turned over along with the bag mouth folding structure, and besides the effect of folding the sides, the bag mouth edges, especially the edges of the double-layer bag mouth overlapping sleeve can be combined in a smooth state after being tensioned and straightened, so that the combination effect can be ensured, and the requirement of the finished product rate can be met.
Wherein, in step S35, the axial hemming mechanism 22 performs a synchronous closing action with respect to the connector 26, the synchronous closing action is performed simultaneously with the closing action of the axial hemming mechanism 22, the radial hemming mechanism 25 performs an opening action along the axial direction of the rotating shaft 22131, the timing of the radial hemming mechanism 25 to the transverse bracing action of the bag opening of the raw material bag is important here, if the transverse bracing is late, the radial mechanism 25 collides with the axial hemming mechanism 22, or the bag opening cannot be combined in a flat state, if the transverse bracing is performed before the axial hemming mechanism 22, the bag opening is easy to be flattened, so that the bag opening hemming structure is easy to be partially or wholly attached to the connector 26 in advance, which may cause the product to be defective due to too long combining time, and if the bag opening passes through the two-stage opening action during the transverse bracing action of the radial hemming mechanism 25, the side edge is not completely folded, the radial flanging mechanism 25 can realize complete flanging of the side edge of the bag opening through cross bracing action, and the radial flanging mechanism 25 and the connector 26 synchronously extend in and out to achieve the aim of synchronous working more easily.
In step S36, after the devices are reset, the material positioning mechanism 222 is closed, the material positioning mechanism 222 stops positioning after being closed, and the material positioning mechanism 222 is reset and opened after stopping positioning. Because when the jointer 26 combines the raw material bag or material positioning mechanism 222 is grabbing the material and carrying out location work, the material can produce physical deformation or thermal deformation, especially under some circumstances, if the operational environment influences, there are phenomena such as adhesion between material and the jointer 26, cause the defective percentage to rise easily at this moment, and material positioning mechanism 222 carries out a pressfitting with the raw materials sack just can solve this moment, and the material can keep the leveling state after being processed.
In order to save the labor consumption of raw material feeding, straightening and the like, a step S1 of straightening and feeding can be added before the step S2: the raw material bags to be folded are placed on the feeding workbench 41, the raw material bags are conveyed to enter the next station through the feeding conveying mechanism 43 and/or the material conveying assembly 3, the adjustment between the processes can be flexibly carried out according to the working space and the processing requirements, and the S1 alignment feeding process is arranged before the S2 process for example.
Before the material bag is conveyed to the next station by the feeding conveying mechanism 43 in the step S1, the angle at which the material bag enters the mechanism of the feeding assembly 4 is adjusted by the feeding adjusting and positioning mechanism 42, the operator places the material bag at the initial position of the feeding conveying mechanism 43, and then the feeding conveying mechanism 43 conveys the material bag to the feeding adjusting and positioning mechanism 42, at this time, the feeding adjusting and positioning mechanism 42 can generate a shift effect on the material bag, the feeding conveying mechanism 43 continuously conveys the material bag until the side of the material bag is adjusted to be perpendicular to the feeding direction, and the feeding conveying mechanism 43 and/or the material conveying assembly 3 conveys the material bag to the next station.
Step S4 is also included after step S2 or S3, and the step S4 is discharging: the materials are stacked to a material storage area through a discharging assembly 5;
s41 pressure feeding and discharging: the discharging conveying mechanism 52 conveys the finished product materials to a bag stacking mechanism 53;
s42 bag folding: the bag stacking mechanism 53 stacks the finished material in the discharge area.
The S26 lateral sizing may also be: and a material pressing device in the shaping device presses the material on the first shaping structure to carry out shaping.
It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. Not all embodiments are exhaustive. All obvious changes and modifications which are obvious to the technical scheme of the invention are covered by the protection scope of the invention.
Claims (44)
1. The utility model provides a wrapping bag processing equipment, its characterized in that, it is including processing assembly (1), processing assembly (1) is including processing assembly frame (11) and material state adjusting device (13), material state adjusting device (13) are installed on processing assembly frame (11), and material state adjusting device (13) are on processing assembly frame (11) the regional material adjustment space (123) that forms that the working face corresponds, and the material carries out the material state adjustment in material adjustment space (123).
2. The packaging bag processing device according to claim 1, wherein the processing assembly (1) further comprises an adjusting linkage mechanism (15), the first material state adjusting device (13) is mounted on the processing assembly frame (11) through the adjusting linkage mechanism (15), and the adjusting linkage mechanism (15) drives the first material state adjusting device (13) to extend towards or away from the material adjusting space (123).
3. The bag processing apparatus according to claim 2, wherein the adjustment linkage (15) comprises: and the adjusting driving device (151) is arranged on the machining assembly frame (11), and the power output end of the adjusting driving device (151) is fixedly connected with the first material state adjusting device (13).
4. The bag processing apparatus as claimed in claim 3, wherein said first material condition adjusting means (13) comprises: the grabbing device (131) is fixedly connected to the driving end of the adjusting driving device (151), and the grabbing direction of the grabbing device (131) faces the material adjusting space (123).
5. The packaging bag processing apparatus according to claim 4, wherein the number of the first material state adjusting means (13) is 2, and the two first material state adjusting means (13) are provided toward the material adjusting space (123), and the two first material state adjusting means (13) are installed on the processing assembly frame (11) and perform an opening or closing motion by the adjusting link mechanism (15), and form a boundary of the material adjusting space (123) when the two first material state adjusting means (13) are relatively opened.
6. The packaging bag processing apparatus according to claim 1, wherein the first material condition adjusting means (13) comprises N sets of clamps and/or negative pressure means arranged along the extension direction of the material adjusting space (123), and there is a space between adjacent clamps or negative pressure means.
7. The packaging bag processing device according to claim 1, wherein the processing assembly (1) further comprises a second material state adjusting device (14), the second material state adjusting device (14) comprises an adjusting and shifting mechanism (142), the adjusting and shifting mechanism (142) is mounted on the processing assembly (1), and the adjusting and shifting mechanism (142) can adjust the relative position between the first material state adjusting device (13) and/or the second material state adjusting device (14) and the material adjusting space (123).
8. The packaging bag processing apparatus according to claim 1, wherein the processing assembly (1) further comprises a first shaping device (16), the first shaping device (16) comprises a first shaping structure (161) and a pressing device (162), the first shaping structure (161) is mounted on the second material state adjusting device (14), and the pressing device (162) is mounted on the frame (11) of the processing assembly and can move relative to the first shaping device (16) until pressing on the first shaping structure (161).
9. The bag processing apparatus as claimed in claim 8, wherein said one modular structure (161) is a high frequency electronic heat sealing apparatus.
10. The packaging bag processing apparatus as claimed in claim 8, wherein the pressing device (162) comprises a first driving device (1621) and a pressing member (1622), the pressing member (1622) is of a point and/or line and/or surface structure adapted to the first shaping structure (161), and the pressing member (1622) is mounted on the processing assembly frame (11) by the first driving device (1621).
11. The packaging bag processing equipment according to claim 7, wherein the second material state adjusting device (14) further comprises an adjusting workpiece (141), the adjusting workpiece (141) is mounted on the adjusting and shifting mechanism (142), linkage is performed through the adjusting and shifting mechanism (142) and/or the first material state adjusting device (13), the adjusting workpiece (141) is a mechanism with a grabbing function, and the grabbing direction of the adjusting workpiece (141) is perpendicular to the reciprocating direction of the adjusting workpiece (141).
12. The packaging bag processing apparatus according to claim 11, wherein the adjusting and displacing mechanism (142) comprises a displacing driving device (1421) and a displacing transmission mechanism (1422), and the displacing driving device (1421) drives the adjusting workpiece (141) to reciprocate toward or away from the material adjusting space (123) through the displacing transmission mechanism (1422).
13. The bag processing apparatus according to claim 12, wherein the displacement transmission mechanism (1422) is a horizontally disposed slide-and-slide mechanism, and the displacement driving device (1421) drives the slide in the displacement transmission mechanism (1422) to displace.
14. The packaging bag processing equipment according to claim 7, wherein the second material state adjusting device (14) further comprises a side supporting workpiece (143) and an opening driving mechanism (144), the opening driving mechanism (144) is installed on the processing assembly (1), a driving end of the opening driving mechanism (144) is linked with the side supporting workpiece (143) arranged on one side of the adjusting and shifting mechanism (142), and the opening driving mechanism (144) drives the side supporting workpiece (143) to perform telescopic reciprocating motion along a plane where the adjusting and shifting mechanism (142) reciprocates.
15. The packaging bag processing equipment according to claim 14, wherein the side supporting workpiece (143) is a tubular structure with air holes, the side supporting workpiece (143) is communicated with the negative pressure air path, and the moving directions of the side supporting workpiece (143) and the adjusting workpiece (141) are different from each other or opposite.
16. The packaging bag processing device according to claim 7, wherein the second material state adjusting device (14) further comprises a first side supporting workpiece (145), the first side supporting workpiece (145) is an elastic workpiece with a curved edge, the first side supporting workpiece (145) is arranged on one side of the adjusting and shifting mechanism (142), one end of the first side supporting workpiece (145) is fixedly connected to one side of the adjusting workpiece (141), the other end of the first side supporting workpiece is a free end, and an edge from the fixedly connected end of the first side supporting workpiece (145) to the free end is a convex arc.
17. The bag processing apparatus according to claim 1, wherein the processing assembly (1) further comprises a setting device (12), the setting device (12) is mounted on the processing assembly frame (11) adjacent to the first material condition adjustment device (13), and the setting device (12) is located farther from the material than the first material condition adjustment device (13).
18. The packaging bag processing apparatus according to claim 17, wherein the shaping device (12) comprises a shaping mechanism (121) and a shaping linkage mechanism (122), the shaping mechanism (121) is mounted on the processing assembly frame (11) through the shaping linkage mechanism (122), and the shaping linkage mechanism (122) drives the shaping mechanism (121) to perform an extending/contracting reciprocating motion relative to the material adjusting space (123).
19. The bag processing apparatus according to claim 18, wherein the setting mechanism (121) is a voltage type heat sealing apparatus, an ultrasonic apparatus, a nail mouth, a high frequency electronic heat sealing apparatus, or a sewing apparatus.
20. The packaging bag processing equipment according to claim 18, wherein the number of the shaping devices (12) is 2, the shaping devices are arranged in a plane symmetry manner, the two shaping mechanisms (121) are driven by the shaping linkage mechanisms (122) connected with each other to perform opening or closing actions between the shaping mechanisms (121), and the shaping mechanisms (121) in an opened state form the boundary of the material adjusting space (123).
21. The packaging bag processing equipment according to claim 20, wherein the shaping mechanism (121) is matched with the adjusting workpiece (141) for material shaping, the adjusting workpiece (141) further comprises a shaping pressed part (1411) arranged in the material adjusting space (123), the shaping pressed part (1411) is of a pressed point and/or line and/or surface structure matched with the shape of the working structure of the shaping mechanism (121), and the shaping device (12) presses the material on the shaping pressed part (1411) for shaping.
22. The packaging bag processing device according to claim 21, wherein the shaping pressed part (1411) is mounted on the processing assembly (1) through a displacement transmission mechanism (1422), and the displacement transmission mechanism (1422) further comprises a vertical displacement mechanism (14221), and the shaping pressed part (1411) and a slider-slide mechanism in the displacement transmission mechanism (1422) are arranged at a displacement end of the vertical displacement mechanism (14221) and are linked with the vertical displacement mechanism (14221).
23. The apparatus of claim 18, wherein the shaping linkage mechanism (122) comprises a driving device (122a) and a transmission member (122b), and the driving device (122a), the transmission member (122b) and the shaping mechanism (121) are linked in sequence.
24. The bag processing apparatus according to claim 23, wherein the drive means (122a) further comprises a synchronous drive, the drive means (122a) driving each drive member (122b) synchronously.
25. A bag processing apparatus according to claim 1, wherein the processing assembly (1) provides for the transfer of material by means of a material transfer assembly (3).
26. The packaging bag processing device according to claim 25, wherein the material conveying assembly (3) comprises a power device (31), a transmission mechanism (32) and a material gripping device (34) which are arranged on a conveying assembly frame (33), and the power device (31) drives the material gripping device (34) through the transmission mechanism (32).
27. The bag processing apparatus of claim 26, wherein the drive mechanism (32) comprises: the device comprises a driving pulley (321), a driven pulley (322), a transmission synchronous belt (323), a third tensioning pulley (324) and a synchronous belt side plate (325), wherein the driving pulley (321), the driven pulley (322) and the third tensioning pulley (325) are mounted on a conveying assembly frame (33) through the synchronous belt side plate (326), the driving pulley (321) is in transmission connection with a power device (31), and the driving pulley (321), the driven pulley (322) and the third tensioning pulley (324) are in synchronous transmission connection through the transmission synchronous belt (323).
28. The bag processing apparatus of claim 26, wherein the material grasping device (34) comprises: a front gripping device (341), a rear gripping device (342), a gripping device mounting plate (343), a gripping device mounting plate slider (344), a gripping device mounting plate slide rail (345) and a synchronous belt fixing plate (346), the gripping device mounting plate slide rail (345) is arranged on the conveying assembly frame (33) along the material conveying direction, the gripping device mounting plate slider (344) is fixedly connected with the gripping device mounting plate (343), the gripping device mounting plate (343) is in sliding fit with the gripping device mounting plate slide rail (345) through the gripping device mounting plate slider (344), the front gripping device (341) and the rear gripping device (342) are arranged on the gripping device mounting plate (343) along the material conveying direction, the synchronous belt fixing plate (346) is arranged on the gripping device mounting plate (343) and the synchronous belt fixing plate (346) is fixedly connected with the transmission synchronous belt (323), the transmission synchronous belt (323) drives the grabbing device mounting plate (343) to reciprocate on the grabbing device mounting plate sliding rail (345) along the material conveying direction.
29. The bag processing apparatus of claim 28, wherein the material grasping device (34) further comprises: a zero sensing device (348), the zero sensing device (348) comprising a zero sensing plate mounted at a fixed position on the gripper mounting plate (343) and a sensor mounted on the conveyor assembly frame (33).
30. The bag processing apparatus of claim 1, further comprising a feed assembly (4) disposed at the infeed end of the process, the feed assembly (4) comprising: the feeding device comprises a feeding assembly frame (41) and a feeding conveying mechanism (43), wherein the feeding conveying mechanism (43) is arranged on the feeding assembly frame (41).
31. The bag processing apparatus as claimed in claim 30, wherein said input feed mechanism (43) comprises: the feeding mechanism comprises a motor I (431), a driving pulley I (432), a driving shaft I (433), a driven pulley I (434), a conveying pulley I (435) and a conveying belt I (436), wherein the driving shaft I (433) and the driven pulley I (434) are horizontally arranged on a feeding assembly frame (41) at intervals, the driving pulley I (432) is fixedly sleeved on the driving shaft I (433), the driving pulley I (432) is in transmission connection with the motor I (431) through a synchronous belt, the conveying pulley I (435) is N, a plurality of conveying pulley I (435) are equidistantly sleeved on the driving shaft I (433), and the conveying pulley I (435) and the driven pulley I (434) are in transmission connection through the conveying belt I (436).
32. The bag processing apparatus of claim 30, wherein the inlet assembly (4) further comprises: and the material is adjusted by the feeding adjusting and positioning mechanism (42) and then is conveyed to the processing assembly (1) by the feeding conveying mechanism (43) and/or the material conveying assembly (3).
33. The bag processing apparatus of claim 32, wherein the feed adjustment positioning mechanism (42) comprises: the material blocking device comprises a material blocking part (421), a material blocking part cylinder (422), a cylinder mounting plate (423), a material blocking head seat (424), a material blocking tail seat (425), a material blocking adjusting screw rod (426), an adjusting screw rod seat (427), a mounting plate sliding block (428) and a guide sliding rod (429), wherein the material blocking head seat (424) and the material blocking tail seat (425) are fixedly mounted on a feeding assembly frame (41), the material blocking head seat (424) and the material blocking tail seat (425) are connected through the guide sliding rod (429) to form a frame structure, the mounting plate sliding block (428) is fixedly connected onto the cylinder mounting plate (423), the mounting plate sliding block (428) can be sleeved on the guide sliding rod (429) in a sliding manner, the material blocking part cylinder (422) is mounted on the cylinder mounting plate (423), the material blocking part (421) is connected onto the power output end of the material blocking part cylinder (422), and the material blocking part (421) stretches and retracts towards the material direction under the driving of the material blocking part cylinder (422, the cylinder mounting plate (423) is further provided with an adjusting screw rod seat (427), the adjusting screw rod seat (427) is in threaded fit with a material blocking adjusting screw rod (426), and the material blocking adjusting screw rod (426) is arranged in parallel with the guide sliding rod (429) and penetrates through the material blocking head seat (424) or the material blocking tail seat (425).
34. The bag processing apparatus according to claim 1, further comprising a discharge assembly (5) disposed at the process discharge end: the discharge assembly (5) comprises: the discharging assembly machine frame (51), the discharging conveying mechanism (52) and the stacking mechanism (53) are installed on the discharging assembly machine frame (51) in a process connection mode, and the stacking mechanism (53) is arranged corresponding to the discharging area. The outfeed conveyor mechanism (52) comprising: the discharging and conveying device comprises a discharging and conveying rack (521) and a discharging and conveying part (522), wherein the discharging and conveying part (522) is installed on the discharging and conveying rack (521), and the discharging and conveying part (522) comprises a discharging conveying part (5221) and/or a discharging pressing wheel part (5222).
35. The pouch processing plant as defined in claim 34, wherein the outfeed conveyor (5221) comprises: the device comprises a fifth motor (52211), a second driving belt wheel (52212), a second driving shaft (52213), a second driven roller (52214) and a second conveyor belt (52215), wherein the second driving shaft (52213) and the second driven roller (52214) are arranged along the material conveying direction and are positioned at the feeding end and the discharging end of the discharging conveying part (5221), the device conveys a raw material bag to the feeding end of the stacking mechanism (53) through the discharging conveying part (5221), the second driving belt wheels (52212) are fixedly sleeved on the second driving shaft (52213) and are arranged in a plurality of equal intervals, the second conveyor belt (52215) is arranged along the material conveying direction and is wound on the second driving belt wheel (52212) and the second driven roller (52214) to form a conveying plane, the fifth motor (52211) is fixedly arranged on a rack (51) of the discharging assembly, and a rotating shaft of the fifth motor is in transmission connection with the second driving shaft (52213).
36. The bag processing apparatus as claimed in claim 34, wherein the discharge press wheel section (5222) comprises: discharge pinch roller frame (52221), lift pinch roller (52222), lift pinch roller cylinder (52223), connecting axle (52224), level pinch roller (52225), link (52226) and link two (52227), discharge pinch roller frame (52221) erect in the vertical top of ejection of compact conveying portion (5221), lift pinch roller (52222) set up and ejection of compact conveying portion (5221) feed end and can contact with ejection of compact conveying portion (5221) and the connection of separation on discharge pinch roller frame (52221), level pinch roller (52525) set up in ejection of compact conveying portion (5221) discharge end position, and press on ejection of compact conveying portion (5221), level pinch roller (52525) are installed on discharge pinch roller frame (52221) through link two (52227).
37. A method of operating the bag processing apparatus of claims 1 to 36, the method comprising the steps of:
s2 sizing: the raw material bag is conveyed to the processing assembly (1) through the feeding assembly (4), and a combined structure is formed at the processing assembly (1) by the double-layer structure of the raw material bag;
s21 opening the bag opening: the first material state adjusting device (13) picks up two sides of the bag opening and opens the bag opening;
s22 pressing the plate into a bag: the second material state adjusting device (14) enters the material through the bag opening in the opening state;
s24 two-stage bag outlet/inlet: the side supporting workpiece (143) extends into or out of the bag opening under the driving of the adjusting and shifting mechanism (142) to complete the action of adjusting the relative position of the bag opening edge between the material bag body and the inner film;
s26 outside sizing: the shaping device (12) presses the material on the shaping pressed part (1411) for shaping;
s27 reset send: and the second material state adjusting device (14) resets, and the raw material bag is conveyed to enter the next station through the material conveying assembly (3).
38. The operating method of the packaging bag processing equipment according to claim 37, wherein in step S24, the side supporting workpiece (143) of the second material state adjusting device (14) performs negative pressure adsorption on the inner bag, and cooperates with the first material state adjusting device (13) under the driving of the adjusting and shifting mechanism (142) to complete the relative position adjustment of the bag mouth edges between the material bag bodies.
39. The operating method of a packing bag processing apparatus as set forth in claim 37, further comprising a step S24-1 between the steps S24 and S26, wherein the step S24-1 of spreading the wale: the side supporting workpiece (143) is driven by the expanding driving mechanism (144) to stretch along the plane where the adjusting workpiece (141) is located, so that the bag body is expanded to be flat.
40. The operating method of a packing bag processing apparatus as set forth in claim 39, further comprising a step S25 between the steps S24-1 and S26, wherein the step S25 descends to set: the adjusting workpiece (141) is driven by the adjusting and shifting mechanism (142) to move to the shaping device (12) arranged on the other side along with the shaping device (12) arranged on one side, and the shaping devices (12) arranged on two sides of the material state adjusting device II (14) simultaneously press the materials on the adjusting workpiece (141).
41. The operating method of a packing bag processing apparatus according to claim 37, wherein said step S2 is preceded by a step S1, and said step S1 sets the feed: the raw material bags to be processed are placed on a feeding assembly frame (41), and the raw material bags are conveyed to enter the next station through a feeding conveying mechanism (43) and/or a material conveying assembly (3).
42. The operating method of the packaging bag processing equipment according to claim 41, wherein before the material bag is conveyed to the next station by the material feeding conveying mechanism (43) in the step S1, the angle of the material bag entering the material feeding assembly (4) mechanism is adjusted by the material feeding adjusting and positioning mechanism (42), and after the side edge of the material bag is adjusted to be perpendicular to the feeding direction, the material bag is conveyed to the next station by the material feeding conveying mechanism (43) and/or the material conveying assembly (3).
43. The operating method of a packing bag processing apparatus as claimed in claim 37, wherein the step S2 is followed by a step S3, wherein the step S3 comprises: the materials are stacked to a material storage area through a discharging assembly (5);
s31 pressure feeding and discharging: the discharging and conveying mechanism (52) conveys the finished product materials to the stacking mechanism (53);
s32 bag folding: the stacking mechanism (53) stacks the finished material in a discharge area.
44. The operating method of a packing bag processing apparatus as claimed in claim 37, wherein the outer side of the S26 is formed by: and a pressing device (162) in the shaping device (12) presses the material on the first shaping structure (161) for shaping.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
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CN202011616822.4A CN112829381A (en) | 2020-12-30 | 2020-12-30 | Packaging bag processing equipment and working method thereof |
CN202110815863.4A CN114347564B (en) | 2020-12-30 | 2021-07-19 | Packaging bag processing equipment and working method thereof |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202011616822.4A CN112829381A (en) | 2020-12-30 | 2020-12-30 | Packaging bag processing equipment and working method thereof |
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CN112829381A true CN112829381A (en) | 2021-05-25 |
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WO2022242642A1 (en) * | 2021-05-21 | 2022-11-24 | 广东嘉煜机械科技有限公司 | Bonding mechanism for inner bag and outer bag of double-layer bag and bonding method for inner bag and outer bag of double-layer bag |
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CN113211873A (en) * | 2021-05-21 | 2021-08-06 | 广东嘉煜机械科技有限公司 | Inner bag and outer bag bonding mechanism of double-layer bag and inner bag and outer bag bonding method of double-layer bag |
WO2022242642A1 (en) * | 2021-05-21 | 2022-11-24 | 广东嘉煜机械科技有限公司 | Bonding mechanism for inner bag and outer bag of double-layer bag and bonding method for inner bag and outer bag of double-layer bag |
CN114290757A (en) * | 2021-12-03 | 2022-04-08 | 夏春燕 | Processing technology of aluminum plastic packaging bag |
CN117400596A (en) * | 2023-12-15 | 2024-01-16 | 江西德新达智能机械有限公司 | Bag making machine |
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CN114347564B (en) | 2024-09-13 |
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