CN110667943A - Packaging equipment for cable sheath material - Google Patents
Packaging equipment for cable sheath material Download PDFInfo
- Publication number
- CN110667943A CN110667943A CN201911020963.7A CN201911020963A CN110667943A CN 110667943 A CN110667943 A CN 110667943A CN 201911020963 A CN201911020963 A CN 201911020963A CN 110667943 A CN110667943 A CN 110667943A
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- plate
- molding
- forming
- plates
- guide rail
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B59/00—Arrangements to enable machines to handle articles of different sizes, to produce packages of different sizes, to vary the contents of packages, to handle different types of packaging material, or to give access for cleaning or maintenance purposes
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B1/00—Packaging fluent solid material, e.g. powders, granular or loose fibrous material, loose masses of small articles, in individual containers or receptacles, e.g. bags, sacks, boxes, cartons, cans, or jars
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B61/00—Auxiliary devices, not otherwise provided for, for operating on sheets, blanks, webs, binding material, containers or packages
- B65B61/24—Auxiliary devices, not otherwise provided for, for operating on sheets, blanks, webs, binding material, containers or packages for shaping or reshaping completed packages
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Supplying Of Containers To The Packaging Station (AREA)
Abstract
The invention discloses packaging equipment for cable sheath materials, wherein a molding mechanism positioned below a hopper comprises two first molding plates, two second molding plates and a guide rail, the first molding plates and the second molding plates are both installed on the guide rail through a connecting seat, the second molding plates are positioned between the two first molding plates, the first molding plates and the second molding plates enclose a molding cavity for molding a packaging bag, two ends of a rotating plate are respectively connected with a driving assembly and the first molding plates, a rotating hole for the guide rail to pass through is formed in the rotating plate, second rotating rods are installed on two sides of each first molding plate, the second molding plates are installed on the second rotating rods, and the second molding plates are installed on a second connecting plate through an extrusion cylinder. The invention can avoid the irregular accumulation of materials at the corners to influence the regularity of the packaging structure, and is convenient for workers to adjust and replace the first molding plate and the second molding plate and adjust the thickness and the width of the molding cavity to adapt to the packaging requirements of different specifications.
Description
Technical Field
The invention relates to packaging equipment for a cable sheath material, and belongs to the technical field of cable processing.
Background
The plastic for the wire and cable insulation and the sheath is commonly called as cable material, wherein the plastic comprises various varieties such as rubber, plastic, nylon and the like, and after the cable material is produced, the packaging bag is required to be used for packaging material particles, on one hand, the adverse effect of the external environment on the material can be isolated, and a regular packaging structure can be formed, so that the stacking and the transportation are convenient.
However, in the existing packaging bag forming device, the forming device is generally arranged in a box shape, so that the packaging bag forming device is troublesome to use, has large regularity difference of the packaged packaging bags, and is very troublesome due to the fact that different forming devices are required to be designed according to different packaging requirements.
Disclosure of Invention
The invention aims to provide packaging equipment for cable sheath materials, which can avoid the problem that the regularity of a packaging structure is influenced by irregular accumulation of materials at corners, and is convenient for workers to adjust and replace a first molding plate and a second molding plate and adjust the thickness and the width of a molding cavity so as to meet the packaging requirements of different specifications.
In order to achieve the purpose, the invention adopts the technical scheme that: a packaging device for cable sheath materials is characterized in that a forming mechanism located below a hopper comprises two first forming plates, two second forming plates and a guide rail, the first forming plates and the second forming plates are both mounted on the guide rail through a connecting seat, the second forming plates are located between the two first forming plates, the first forming plates and the second forming plates enclose a forming cavity for forming a packaging bag, a supporting plate is mounted right below the forming mechanism, and the supporting plate is located below the forming mechanism;
the two guide rails and the two connecting seats are arranged, the second molding plate is arranged on the first molding plate, a driving assembly is arranged between the two connecting seats, two ends of a rotating plate are respectively connected with the driving assembly and the first molding plate, a rotating hole for the guide rails to pass through is formed in the rotating plate, the driving assembly comprises two driving rods, a synchronizing rod and a driving cylinder, one end of each driving rod is connected with the top end of the rotating plate, the other end of each driving rod is connected with the end of the synchronizing rod, the middle part of each synchronizing rod is hinged to one connecting plate, one end of each driving cylinder is hinged to the top end of the rotating plate, and the other end of each driving cylinder is hinged to;
one a second dwang is all installed to the both sides of first shaping board, the second shaping board passes through the second connecting plate to be installed on the second dwang, installs the second connecting rod of a perpendicular to second dwang on this second dwang, and a second cylinder both ends articulate respectively on second connecting rod tip and first shaping board, the second shaping board is installed on the second connecting plate through an extrusion cylinder.
The further improved scheme in the technical scheme is as follows:
1. in the above scheme, the connecting seat has at least two guide assemblies, the guide assemblies comprise two guide wheels, and a gap for the guide rail to pass through is reserved between the circumferential surfaces of the two guide wheels.
2. In the above scheme, the guide wheel is provided with an annular groove for embedding the guide rail.
3. In the above scheme, the guide rails are arranged in two and distributed on two sides of the hopper, and the two first forming plates are respectively arranged on the two guide rails.
4. In the above-mentioned scheme, the connecting seat has a sleeve that is sleeved on the guide rail, and the sleeve is embedded in the rotating hole of the rotating plate.
5. In the above scheme, the back side of the first forming plate is provided with a first connecting rod, the top end of the first connecting rod is provided with a horizontally arranged first connecting strip, and the rotating plate is connected to the end part of the first connecting strip.
6. In the above scheme, the sleeve is hinged with a first reinforcing plate, and the first reinforcing plate is connected to the first connecting strip.
7. In the above scheme, the outer sides of the connecting seat and the first connecting strip are respectively provided with the auxiliary rods parallel to the guide rail, and two ends of the reinforcing strip are respectively connected to the two auxiliary rods.
Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:
1. the second molding plate is positioned between the two first molding plates, the first molding plates and the second molding plates form a molding cavity for molding a packaging bag, the molding cavity with a certain shape is formed by the cooperation of the first molding plates and the second molding plates, the deformation of the packaging bag after the materials are injected is limited, and the packaging bag with the materials is integrally fixed in a certain size, so that the shape and the specification of the packaging bag with the materials are unified, the storage and the transportation are convenient, the subsequent cost is reduced, meanwhile, the second molding plates are arranged between the two first molding plates, the transition space at the corners of the first molding plates and the second molding plates can be reduced through the assembly of a plurality of plates and the embedded splicing structure, the irregular accumulation of the materials at the corners can be avoided, the regularity of a packaging structure is influenced, and the adjustment of workers can be facilitated, The first forming plate and the second forming plate are changed in size, so that the packaging machine is suitable for packaging of different specifications.
2. The invention relates to a packaging device for cable sheath materials, wherein one end of a driving rod is connected with the top end of a rotating plate, the other end of the driving rod is connected with the end part of a synchronizing rod, the middle part of the synchronizing rod is hinged on a connecting plate, one end of a driving cylinder is hinged with the top end of the rotating plate, and the other end of the driving cylinder is hinged with the connecting plate, on one hand, when the first molding plate is rotatably arranged on a guide rail, the distance between the two first molding plates is the preset thickness of a packaging bag filled with materials, so that the packaging bag can be shaped, a worker can conveniently adjust the distance between the two first molding plates when the first molding plates rotate to be relatively parallel to adapt to the shaping requirements of different thicknesses, on the other hand, the two first molding plates can synchronously rotate through the connection of the two driving rods and a linkage rod, the first molding plate can be conveniently and synchronously adjusted by workers, the driving precision is improved, and the cost can be reduced.
3. According to the packaging equipment for the cable sheath material, the second rotating rods are mounted on two sides of one first molding plate, the second molding plate is mounted on the second rotating rods through the second connecting plate, the second molding plate is mounted on the first molding plate through the second rotating rods, the rotatably arranged second molding plate can give way for a packaging bag when the packaging bag enters and exits from the molding cavity, and can synchronously move along with the first molding plate, so that the matching efficiency and precision of the second molding plate and the first molding plate are improved, meanwhile, the second molding plate is driven to rotate through the second cylinder, the opening and closing automation of the second molding plate is realized, the packaging bag entering and exiting are facilitated, and the molding of the packaging bag filled with the material is assisted.
4. According to the packaging equipment for the cable sheath material, the second molding plate is arranged on the second connecting plate through the extrusion cylinder, and the second molding plate is pushed to move between the two first molding plates through the arrangement of the extrusion cylinder, so that not only can a packaging bag be extruded and formed, but also the compactness of materials in the packaging bag is improved, the distance between the two second molding plates can be adjusted according to the widths of different packaging bags, and the applicability of a molding mechanism is improved; a supporting plate is installed under the forming mechanism, the supporting plate is located below the forming mechanism, and the supporting plate is arranged to provide a pivot for the packaging bag so as to match the forming mechanism to finish the shaping and charging work of the packaging bag.
Drawings
FIG. 1 is a schematic overall structure diagram of a packaging device for cable sheath materials according to the present invention;
FIG. 2 is a schematic mechanical view of a portion of the forming mechanism;
fig. 3 is an enlarged view of a portion a of fig. 1.
In the above drawings: 101. a hopper; 102. packaging bags; 3. a molding mechanism; 31. a first molding plate; 311. a first connecting rod; 312. a first connecting bar; 313. a first reinforcing plate; 314. an auxiliary lever; 315. a reinforcing strip; 32. a second molding plate; 321. a second rotating lever; 322. a second connecting plate; 323. a second connecting rod; 324. a second cylinder; 33. a molding cavity; 34. a connecting seat; 341. a sleeve; 342. a connecting plate; 343. a guide assembly; 344. a guide wheel; 345. an annular groove; 35. an extrusion cylinder; 301. a guide rail; 4. a drive assembly; 41. a rotating plate; 411. rotating the hole; 42. a drive rod; 43. a linkage rod; 44. a driving cylinder; 7. and a support plate.
Detailed Description
Example 1: 1-3, a forming mechanism 3 located below a hopper 101 comprises two first forming plates 31, two second forming plates 32 and a guide rail 301, the first forming plates 31 and the second forming plates 32 are both mounted on the guide rail 301 through a connecting seat 34, the second forming plates 32 are located between the two first forming plates 31, the first forming plates 31 and the second forming plates 32 enclose a forming cavity 33 for forming a packaging bag 102, a supporting plate 7 is mounted right below the forming mechanism 3, and the supporting plate 7 is located below the forming mechanism 3;
the two guide rails 301 and the two connecting seats 34 are arranged, the second molding plate 32 is installed on the first molding plate 31, a driving assembly 4 is arranged between the two connecting seats 34, two ends of a rotating plate 41 are respectively connected with the driving assembly 4 and the first molding plate 31, a rotating hole 411 for the guide rails 301 to pass through is formed in the rotating plate 41, the driving assembly 4 comprises two driving rods 42, a synchronizing rod 43 and a driving cylinder 44, one end of each driving rod 42 is connected with the top end of the corresponding rotating plate 41, the other end of each driving rod is connected with the end of the corresponding synchronizing rod 43, the middle part of each synchronizing rod 43 is hinged to a connecting plate 342, one end of each driving cylinder 44 is hinged to the top end of the corresponding rotating plate 41, and the other end of each driving cylinder;
one second rotating rod 321 is installed on each of two sides of the first forming plate 31, the second forming plate 32 is installed on the second rotating rod 321 through a second connecting plate 322, a second connecting rod 323 perpendicular to the second rotating rod 321 is installed on the second rotating rod 321, two ends of a second air cylinder 324 are respectively hinged to the end portion of the second connecting rod 323 and the first forming plate 31, and the second forming plate 32 is installed on the second connecting plate 322 through an extrusion air cylinder 35.
The connecting seat 34 has at least two guiding assemblies 343, the guiding assemblies 343 include two guiding wheels 344, and a gap for the guide rail 301 to pass through is reserved between the circumferential surfaces of the two guiding wheels 344; the guide wheel 344 is provided with an annular groove 345 for the guide rail 301 to be embedded; the two guide rails 301 are arranged and distributed on two sides of the hopper 101, and the two first forming plates 31 are respectively installed on the two guide rails 301.
The connecting seat 34 has a sleeve 341 fitted over the guide rail 301, and the sleeve 341 is fitted into the rotation hole 411 of the rotation plate 41; a first connecting rod 311 is arranged on the back side of the first shaping plate 31, a horizontally arranged first connecting bar 312 is arranged at the top end of the first connecting rod 311, and the rotating plate 41 is connected to the end part of the first connecting bar 312; a first reinforcing plate 313 is hinged on the sleeve 341, and the first reinforcing plate 313 is connected to the first connecting strip 312; the outer sides of the connecting seat 34 and the first connecting bar 312 are respectively provided with an auxiliary rod 314 parallel to the guide rail 301, and both ends of a reinforcing bar 315 are respectively connected to the two auxiliary rods 314.
Example 2: 1-3, a forming mechanism 3 located below a hopper 101 comprises two first forming plates 31, two second forming plates 32 and a guide rail 301, the first forming plates 31 and the second forming plates 32 are both mounted on the guide rail 301 through a connecting seat 34, the second forming plates 32 are located between the two first forming plates 31, the first forming plates 31 and the second forming plates 32 enclose a forming cavity 33 for forming a packaging bag 102, a supporting plate 7 is mounted right below the forming mechanism 3, and the supporting plate 7 is located below the forming mechanism 3;
the two guide rails 301 and the two connecting seats 34 are arranged, the second molding plate 32 is installed on the first molding plate 31, a driving assembly 4 is arranged between the two connecting seats 34, two ends of a rotating plate 41 are respectively connected with the driving assembly 4 and the first molding plate 31, a rotating hole 411 for the guide rails 301 to pass through is formed in the rotating plate 41, the driving assembly 4 comprises two driving rods 42, a synchronizing rod 43 and a driving cylinder 44, one end of each driving rod 42 is connected with the top end of the corresponding rotating plate 41, the other end of each driving rod is connected with the end of the corresponding synchronizing rod 43, the middle part of each synchronizing rod 43 is hinged to a connecting plate 342, one end of each driving cylinder 44 is hinged to the top end of the corresponding rotating plate 41, and the other end of each driving cylinder;
one second rotating rod 321 is installed on each of two sides of the first forming plate 31, the second forming plate 32 is installed on the second rotating rod 321 through a second connecting plate 322, a second connecting rod 323 perpendicular to the second rotating rod 321 is installed on the second rotating rod 321, two ends of a second air cylinder 324 are respectively hinged to the end portion of the second connecting rod 323 and the first forming plate 31, and the second forming plate 32 is installed on the second connecting plate 322 through an extrusion air cylinder 35.
The connecting seat 34 has at least two guiding assemblies 343, the guiding assemblies 343 include two guiding wheels 344, and a gap for the guide rail 301 to pass through is reserved between the circumferential surfaces of the two guiding wheels 344; the guide wheel 344 is provided with an annular groove 345 for the guide rail 301 to be embedded; the two guide rails 301 are arranged and distributed on two sides of the hopper 101, and the two first forming plates 31 are respectively installed on the two guide rails 301.
The connecting seat 34 has a sleeve 341 fitted over the guide rail 301, and the sleeve 341 is fitted into the rotation hole 411 of the rotation plate 41; the first molding plate 31 is provided at a back side thereof with a first connecting rod 311, the first connecting rod 311 is mounted at a top end thereof with a first connecting bar 312 horizontally arranged, and the rotating plate 41 is connected to an end of the first connecting bar 312.
When the packaging equipment for the cable sheath material is adopted, the first molding plate and the second molding plate are matched to enclose a molding cavity with a certain shape, deformation of the packaging bag after the material is injected is limited, so that the packaging bag with the material is integrally fixed in a certain size, the shape and the specification of the packaging bag with the material are unified, the storage and the transportation are convenient, the subsequent cost is reduced, meanwhile, the second molding plate is arranged between the two first molding plates, the transition space at the corners of the first molding plate and the second molding plate can be reduced through the assembly of a plurality of plates and the embedded splicing structure, the irregular accumulation of the material at the corners can be avoided, the regularity of a packaging structure is influenced, the adjustment and the size replacement of the first molding plate and the second molding plate by workers can be facilitated, and the packaging equipment is suitable for packaging of different specifications;
in addition, on one hand, when the first shaping plates are rotatably arranged on the guide rail, the distance between the two first shaping plates is the preset thickness of the packaging bag filled with materials when the first shaping plates rotate to be in a vertical state, so that the packaging bag can be shaped, and the distance between the two first shaping plates can be conveniently adjusted by workers when the first shaping plates rotate to be relatively parallel so as to adapt to the shaping requirements of different thicknesses;
in addition, the second forming plate is installed on the first forming plate through the second rotating rod, the second forming plate which is rotatably arranged can not only give way to the packaging bag when the packaging bag enters and exits the forming cavity, but also can synchronously move along with the first forming plate, so that the matching efficiency and precision of the second forming plate and the first forming plate are improved, meanwhile, the second forming plate is driven to rotate through the second air cylinder, the opening and closing automation of the second forming plate is realized, the packaging bag entering and exiting are facilitated, and the packaging bag which is filled with materials is assisted to be formed;
in addition, the second molding plates are pushed to move between the two first molding plates through the arrangement of the extrusion cylinder, so that not only can the packaging bag be extruded and formed, and the compactness of materials in the packaging bag be improved, but also the distance between the two second molding plates can be adjusted according to the widths of different packaging bags, and the applicability of the molding mechanism is improved; the supporting plate is arranged to provide a fulcrum for the packaging bag so as to match with the forming mechanism to finish the shaping and charging work of the packaging bag.
The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.
Claims (8)
1. The utility model provides a equipment for packing for cable sheath material which characterized in that: the forming mechanism (3) positioned below the hopper (101) comprises two first forming plates (31), two second forming plates (32) and a guide rail (301), the first forming plates (31) and the second forming plates (32) are both installed on the guide rail (301) through a connecting seat (34), the second forming plates (32) are positioned between the two first forming plates (31), the first forming plates (31) and the second forming plates (32) enclose a forming cavity (33) for forming the packaging bag (102), a supporting plate (7) is installed right below the forming mechanism (3), and the supporting plate (7) is positioned below the forming mechanism (3);
the guide rail (301) and the connecting seats (34) are arranged in two numbers, the second molding plate (32) is arranged on the first molding plate (31), a driving assembly (4) is arranged between the two connecting seats (34), two ends of a rotating plate (41) are respectively connected with the driving assembly (4) and the first molding plate (31), and the rotating plate (41) is provided with a rotating hole (411) for the guide rail (301) to pass through, the driving assembly (4) comprises two driving rods (42), a synchronizing rod (43) and a driving cylinder (44), one end of each driving rod (42) is connected with the top end of the corresponding rotating plate (41), the other end of the synchronous rod is connected with the end part of a synchronous rod (43), the middle part of the synchronous rod (43) is hinged on a connecting plate (342), one end of the driving cylinder (44) is hinged with the top end of the rotating plate (41), and the other end of the driving cylinder is hinged with the connecting plate (342);
one a second dwang (321) is all installed to the both sides of first fashioned board (31), second fashioned board (32) are installed on second dwang (321) through second connecting plate (322), install second connecting rod (323) of a perpendicular to second dwang (321) on this second dwang (321), and a second cylinder (324) both ends articulate respectively on second connecting rod (323) tip and first fashioned board (31), install on second connecting plate (322) through an extrusion cylinder (35) second fashioned board (32).
2. The packaging device for cable sheath material according to claim 1, wherein: the connecting seat (34) is provided with at least two guide assemblies (343), the guide assemblies (343) comprise two guide wheels (344), and a gap for the guide rail (301) to pass through is reserved between the peripheral surfaces of the two guide wheels (344).
3. The packaging device for cable sheath material according to claim 2, wherein: the guide wheel (344) is provided with an annular groove (345) for embedding the guide rail (301).
4. The packaging device for cable sheath material according to claim 1, wherein: the two guide rails (301) are arranged and distributed on two sides of the hopper (101), and the two first forming plates (31) are respectively arranged on the two guide rails (301).
5. The packaging device for cable sheath material according to claim 1, wherein: the connecting base (34) has a sleeve (341) fitted over the guide rail (301), and the sleeve (341) is fitted into a rotary hole (411) of the rotary plate (41).
6. The packaging device for cable sheath material according to claim 5, wherein: a first connecting rod (311) is arranged on the back side of the first molding plate (31), a first connecting strip (312) which is horizontally arranged is installed at the top end of the first connecting rod (311), and the rotating plate (41) is connected to the end part of the first connecting strip (312).
7. The packaging device for cable sheath material according to claim 6, wherein: the sleeve (341) is hinged with a first reinforcing plate (313), and the first reinforcing plate (313) is connected to the first connecting strip (312).
8. The packaging device for cable sheath material according to claim 6, wherein: the outer sides of the connecting seat (34) and the first connecting bar (312) are respectively provided with an auxiliary rod (314) parallel to the guide rail (301), and two ends of a reinforcing bar (315) are respectively connected to the two auxiliary rods (314).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201911020963.7A CN110667943B (en) | 2019-10-25 | 2019-10-25 | Packaging equipment for cable sheath material |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201911020963.7A CN110667943B (en) | 2019-10-25 | 2019-10-25 | Packaging equipment for cable sheath material |
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| Publication Number | Publication Date |
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| CN110667943A true CN110667943A (en) | 2020-01-10 |
| CN110667943B CN110667943B (en) | 2021-09-10 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN201911020963.7A Active CN110667943B (en) | 2019-10-25 | 2019-10-25 | Packaging equipment for cable sheath material |
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| FR2530582B3 (en) * | 1982-07-20 | 1985-08-30 | Barathe Christian | NEW COMPLETE CLASSIC OR VACUUM BAGGING SYSTEM WITH ARTICULATED OR FLEXIBLE CHUTE AND CONFORMING COMPACTOR BOX |
| JPH07315328A (en) * | 1994-05-24 | 1995-12-05 | Kawasaki Kiko Co Ltd | Tea-products packer having various packing shapes |
| JP3098964B2 (en) * | 1996-10-11 | 2000-10-16 | 鎌長製衡株式会社 | Powder compaction shaping device |
| EP1733968A1 (en) * | 2005-06-17 | 2006-12-20 | Ivo Passini | Bagging apparatus particularly for granular and/or powdery products |
| EP2098452A2 (en) * | 2008-03-03 | 2009-09-09 | Haver & Boecker oHG | Method and device for filling a container |
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| CN110667943B (en) | 2021-09-10 |
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