CN210555748U - Cylindrical object packaging machine - Google Patents

Abstract

The utility model relates to a cylindrical object packaging machine, which comprises a frame and a packaging mechanism assembled on the frame, wherein the packaging mechanism comprises an upper film mechanism, a lower film mechanism and a side sealing and cutting mechanism, the upper film mechanism and the lower film mechanism are used for correspondingly conveying an upper film and a lower film, and a cylindrical object is positioned between the upper film and the lower film of a packaging station; the side sealing and cutting mechanism is used for carrying out thermal fusion and cutting on the upper film and the lower film on two sides of the diameter direction of the cylindrical object; the end sealing mechanism is used for carrying out hot fusion on the upper film and the lower film at two ends of the length direction of the cylindrical object. The utility model discloses a packagine machine can carry out the heat seal automatically to the both sides and the tip of cylindrical packing material and seal and cut, and cylindrical object packing is effectual, can realize standardized production, and required human labor intervenes fewly, and packing efficiency is high, and packaging cost is effectively reduced.

Description

Cylindrical object packaging machine

Technical Field

The utility model relates to the field of packaging machines, in particular to a packaging machine for cylindrical objects such as cloth, glass wool roll felt and rubber.

Background

The packing of cylindrical objects such as cloth, glass wool roll felt, rubber is mostly carried out in a mode that the packing bag is sleeved with the cylindrical objects by manpower, the labor amount of the packing mode is large, the packing efficiency is low, and the production requirement of a production line cannot be met.

Disclosure of Invention

The utility model provides a cylindrical object packagine machine to overcome the big, the low problem of packaging efficiency of the amount of labour that current cylindrical object packing exists.

The utility model adopts the following technical scheme:

the cylindrical object packaging machine comprises a machine frame and a packaging mechanism assembled on the machine frame. The packaging mechanism comprises an upper film mechanism, a lower film mechanism and a side sealing and cutting mechanism, wherein the upper film mechanism and the lower film mechanism are used for correspondingly conveying an upper film and a lower film, and a cylindrical object is positioned between the upper film and the lower film at a packaging station. The side sealing and cutting mechanism is used for carrying out thermal fusion and cutting on the upper film and the lower film on two sides of the diameter direction of the cylindrical object; the end sealing mechanism is used for carrying out hot fusion on the upper film and the lower film at two ends of the length direction of the cylindrical object.

The side sealing and cutting mechanism comprises an upper sealing and cutting knife rest, a lower sealing and cutting knife rest and a cutting knife, wherein two sides of the upper sealing and cutting knife rest do lifting motion along a guide post fixedly arranged on the rack. The lower sealing and cutting tool rest is fixedly arranged on the rack, or the lower sealing and cutting tool rest is also provided with a lifting cylinder so as to facilitate the heat seal at different height positions. The lower sealing cutter frame comprises two cutter plates which are distributed side by side, heating wires are fixedly arranged at the tops of the two cutter plates respectively to form heat-fused surfaces, and the two heating wires are matched with the upper sealing cutter frame to thermally fuse the upper film and the lower film to form two closed fusion lines; above-mentioned decide the sword and locate between two cutting boards, decide the sword fixed locate the chain on, the chain drives and decides the sword and removes along heater strip extending direction, decides the sword and is used for cutting off the upper film and the lower film between the twice line that fuses.

The chain is an annular closed chain, two ends of the closed chain are arranged on the rack through pulley fixing frames, and the chain drives the cutting knife to directionally move and rotate in an annular track through the driving of a motor.

The end sealing mechanism comprises an air suction mechanism and an end sealing and cutting mechanism, the air suction mechanism comprises two air suction pipes positioned at the end parts of the two ends of the length direction of the cylindrical object, the air suction pipes are communicated with a vacuum suction fan, and the air suction pipes are used for sucking upper and lower films at the end parts of the cylindrical object so as to plan and sort the extending directions of the upper and lower films at the end parts of the two ends of the cylindrical object, so that the end sealing obtained by the end sealing and cutting mechanism is more orderly and regular; the front and rear sealing and cutting tool holders of the end sealing and cutting mechanism are used for carrying out hot fusion and sealing on upper and lower films between the end part of the cylindrical object and the corresponding air suction pipe.

The end sealing mechanism comprises two end sealing boxes which are symmetrically distributed, and the air suction mechanism and the end sealing and cutting mechanism are respectively assembled on the two end sealing boxes. The end seal box bottom sliding assembly is on the frame, and two end seal boxes do directional slip through the drive of aversion motor respectively, and two end seal boxes obtain the interval that matches with cylinder length through slide adjusting for the end seal box can carry out the adjustment of adaptability and make its packing work that is applicable to more different specifications's cylinder according to the length of cylinder. The air suction mechanism comprises a lifting frame and a lifting cylinder, wherein the air suction pipe is fixedly assembled on the lifting frame, and the lifting frame is used for adjusting the height from the air suction pipe to the height coaxial with the cylindrical object.

The shrinking mechanism comprises two symmetrically distributed hot air machines which are used for blowing and heating the upper film and the lower film at the two end parts of the cylindrical object to shrink. The shrinking mechanism also comprises a shaping puncturing mechanism, the shaping puncturing mechanism comprises two thermoplastic boxes which are symmetrically distributed, the two thermoplastic boxes are respectively provided with a shaping disc, and a plurality of groups of spurs are respectively and fixedly arranged on the shaping disc; the bottom is slidingly assembled on the rack, the two thermoplastic boxes are driven by the shifting motor to directionally slide respectively, the two thermoplastic boxes are adjusted to obtain a proper distance matched with the length of the cylindrical object through sliding, the two shaping disks are used for pressing and shaping the film layers at the two ends of the cylindrical object, and the spurs pierce the film layers at the two ends of the cylindrical object for exhaust. The thermoplastic box is also provided with a lifting frame for adjusting the shaping disc to the required height, so that the shaping puncturing mechanism can perform adaptive adjustment on cylindrical objects with different diameters and sizes to obtain better shaping puncturing effect.

The packaging mechanism, the end sealing mechanism and the shrinking mechanism are respectively and fixedly arranged on the same frame, or three independent mechanisms are sequentially arranged and spliced; the cylindrical object is conveyed between two adjacent mechanisms through a conveying belt.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: the utility model discloses a packagine machine can carry out the heat seal automatically to the both sides and the tip of cylindrical packing material and seal and cut, and cylindrical object packing is effectual, can realize standardized production, and required human labor intervenes fewly, and packing efficiency is high, and packaging cost is effectively reduced. In addition, the packaging machine can package cylindrical objects with different lengths and different diameter sizes, and is wide in packaging applicability.

Drawings

Fig. 1 is a right-side view structural schematic diagram of the packaging machine of the present invention.

Fig. 2 is a schematic view of a cross-sectional structure of a side sealing and cutting mechanism and a partial enlarged view thereof.

Fig. 3 is a schematic view of the packaging mechanism of the present invention.

Fig. 4 is a schematic structural view of the end sealing mechanism of the present invention.

Fig. 5 is a schematic top view of the retraction mechanism of the present invention.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

Referring to fig. 1, 2 and 3, the cylindrical object packaging machine comprises a frame 1 and a packaging mechanism 2 mounted on the frame 1. The packaging mechanism 2 comprises an upper film mechanism 21, a lower film mechanism 22 and a side sealing and cutting mechanism 23, wherein the upper film mechanism 21 and the lower film mechanism 22 are used for correspondingly conveying the upper film and the lower film, and the cylindrical object is positioned between the upper film and the lower film at the packaging station. The side sealing and cutting mechanism 23 is used for thermally fusing and cutting the upper film and the lower film on the two sides of the diameter direction of the cylindrical object; the end sealing device further comprises an end sealing mechanism 3, and the end sealing mechanism 3 is used for carrying out hot fusion on the upper film and the lower film at two ends of the cylindrical object in the length direction.

With continued reference to fig. 1, 2, and 3, the side seal cutting mechanism 23 includes an upper seal cutting blade holder 24, a lower seal cutting blade holder 25, and a guillotine blade 26, and the upper seal cutting blade holder 24 is driven by a side seal cutting cylinder 27, and the end portions of both ends of the upper seal cutting blade holder respectively move up and down along guide posts fixed to the frame 1. The lower sealing and cutting tool holder 25 is fixedly mounted on the frame 1, or, as shown in fig. 3, the lower sealing and cutting tool holder 25 is also provided with a lifting cylinder 28, so that the height of the lower sealing and cutting tool holder 25 can be adjusted to facilitate the heat sealing and cutting at different height positions. The lower sealing and cutting tool rest 25 comprises two tool plates 251 which are distributed side by side, the tops of the two tool plates 251 are respectively and fixedly provided with heating wires 252 to form heat-combining surfaces, and the two heating wires 252 are matched with the upper sealing and cutting tool rest 24 to thermally combine the upper film and the lower film to form two closed fusion lines; the cutting blade 26 is provided between the two blades 251, the cutting blade 26 is fixed to the chain 261, the chain 261 drives the cutting blade 26 to move in the extending direction of the heating wire 252, and the cutting blade 26 is used for cutting the upper film and the lower film between the two fusing lines. The chain 261 is a closed chain 261 in an annular shape, two ends of the closed chain 261 are fixedly mounted on the frame 1 through pulleys, and the chain 261 drives the cutting knife 26 to directionally move and rotate in an annular track through the driving of a motor.

With continued reference to fig. 1 and 4, the end sealing mechanism 3 includes an air suction mechanism 31 and an end sealing and cutting mechanism 32, the air suction mechanism 31 includes two air suction pipes 311 located at two end portions of the cylindrical object in the length direction, the air suction pipes 311 are communicated with a vacuum suction fan, the air suction pipes 311 are used for sucking upper and lower films at the end portions of the cylindrical object, so as to plan and arrange the extending directions of the upper and lower films at the end portions of the cylindrical object, and the end sealing obtained by the end sealing and cutting mechanism 32 is more orderly and regular; the front sealing and cutting tool holder 321 and the rear sealing and cutting tool holder 322 of the end sealing and cutting mechanism 32 are used for thermally fusing and sealing the upper and lower films between the end of the cylindrical object and the corresponding air suction pipe 311.

With continued reference to fig. 1 and 4, the end sealing mechanism 3 includes two end sealing boxes 33 symmetrically distributed, and the air suction mechanism 31 and the end sealing and cutting mechanism 32 are respectively mounted on the two end sealing boxes 33. The front sealing and cutting tool post 321 and the rear sealing and cutting tool post 322 are driven by corresponding cylinders, and the upper and lower ends of the front sealing and cutting tool post and the rear sealing and cutting tool post respectively move horizontally in the front-rear direction along a guide column 323 arranged in the end sealing box 33. The bottom of the end sealing box 33 is slidably assembled on the rack 1, the two end sealing boxes 33 are driven to slide directionally by a displacement motor (the displacement motor is matched with a chain or a screw rod in a conventional mode to realize directional movement of the driving end sealing box), the two end sealing boxes 33 are adjusted by sliding to obtain a proper distance with the length of the cylindrical object, and the end sealing boxes 33 can be adjusted adaptively according to the length of the cylindrical object to be suitable for packaging more cylindrical objects with different specifications. The air suction mechanism 31 comprises a lifting frame 312 and a lifting cylinder 313, wherein the air suction pipe 311 is fixedly assembled on the lifting frame 312, the lifting frame 312 is driven by the lifting cylinder 313 to move up and down, and the lifting frame 312 is used for adjusting the height of the air suction pipe 311 to be coaxial with the cylindrical object.

With continued reference to fig. 1 and 5, the shrinking apparatus 4 further comprises a shrinking mechanism 4, wherein the shrinking mechanism 4 comprises two hot air blowers 41 symmetrically distributed left and right, and the hot air blowers 41 are used for blowing and heating the upper and lower films at the two ends of the cylindrical object for shrinking. The shrinking mechanism 4 further comprises a shaping and puncturing mechanism, the shaping and puncturing mechanism comprises two thermoplastic boxes 42 which are symmetrically distributed left and right, and the hot air blower 41 is fixedly assembled in the thermoplastic boxes 42. The two thermoplastic boxes 42 are respectively provided with a shaping disc 421, and a plurality of groups of spurs are respectively fixedly arranged on the shaping disc 421; the bottom is assembled on the frame 1 in a sliding mode, the two thermoplastic boxes 42 respectively slide directionally under the driving of the shifting motor, the two thermoplastic boxes 42 obtain a proper distance matched with the length of the cylindrical object through sliding adjustment, the two shaping disks 421 perform compression shaping on film layers at two ends of the cylindrical object, and the film layers at two ends of the cylindrical object are punctured by the spurs for exhaust. The thermoplastic tank 42 is also provided with a lifting frame 312 for adjusting the shaping plate 421 to a desired height so that the shaping and piercing mechanism can be adapted to cylinders of different diameter sizes for better shaping and piercing.

With reference to fig. 1, the packaging mechanism 2, the end sealing mechanism 3 and the shrinking mechanism 4 are respectively fixed on the same frame 1, or as shown in fig. 1, three independent mechanisms are sequentially arranged and spliced; the cylinder is transferred between two adjacent mechanisms by means of a conveyor belt 5.

Continuing to refer to fig. 1, the utility model discloses a packagine machine can carry out the heat seal automatically to the both sides and the tip of cylindrical packing material and cut, and cylindrical packing is effectual, and the packing is stable, can realize standardized production, and required human labor intervenes fewly, and packing efficiency is high, and packaging cost is effectively reduced. In addition, the packaging machine can package cylindrical objects with different lengths and different diameter sizes, and is wide in packaging applicability.

The above-mentioned be the utility model discloses a concrete implementation way, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims (8)

1. Cylindrical object packagine machine includes the frame and assembles the packagine machine structure in the frame, its characterized in that: the packaging mechanism comprises an upper film mechanism, a lower film mechanism and a side sealing and cutting mechanism, the upper film mechanism and the lower film mechanism are used for correspondingly conveying an upper film and a lower film, and the cylindrical object is positioned between the upper film and the lower film at the packaging station; the side sealing and cutting mechanism is used for carrying out thermal fusion and cutting on the upper film and the lower film on two sides of the diameter direction of the cylindrical object; the end sealing mechanism is used for carrying out hot fusion on the upper film and the lower film at two ends of the length direction of the cylindrical object.

2. The cylinder wrapping machine of claim 1 wherein: the side sealing and cutting mechanism comprises an upper sealing and cutting knife rest, a lower sealing and cutting knife rest and a cutting knife, wherein two sides of the upper sealing and cutting knife rest do lifting motion along guide pillars fixedly arranged on the rack; decide the sword and locate between two cutting boards, decide the sword and fix and locate the chain on, the chain drives and decides the sword and removes along heater strip extending direction, decides the sword and is used for cutting off the upper membrance and the lower membrane between the twice line that fuses.

3. The cylinder wrapping machine of claim 2 wherein: the chain is for being annular closed chain, and on the frame was located through the pulley mount at the both ends of closed chain, the chain passed through motor drive and drove decide the sword and do the directional removal rotation that is the annular orbit.

4. The cylinder wrapping machine of claim 1 wherein: the end sealing mechanism comprises an air suction mechanism and an end sealing and cutting mechanism, the air suction mechanism comprises two air suction pipes positioned at the end parts of the two ends of the cylindrical object in the length direction, and the air suction pipes are used for sucking upper and lower films at the end parts of the cylindrical object; the front and rear sealing and cutting tool holders of the end sealing and cutting mechanism are used for carrying out hot fusion and sealing on upper and lower films between the end part of the cylindrical object and the corresponding air suction pipe.

5. The cylinder wrapping machine of claim 4 wherein: the end sealing mechanism comprises two end sealing boxes which are symmetrically distributed, and the air suction mechanism and the end sealing and cutting mechanism are respectively assembled on the two end sealing boxes; the bottom of each end seal box is slidably assembled on the rack, the two end seal boxes are driven by the displacement motor to perform directional sliding respectively, and the two end seal boxes are adjusted in a sliding manner to obtain a distance which is matched with the length of the cylindrical object; the air suction mechanism comprises a lifting frame and a lifting cylinder, wherein the air suction pipe is fixedly assembled on the lifting frame, and the lifting frame is used for adjusting the height from the air suction pipe to the height coaxial with the cylindrical object.

6. The cylinder wrapping machine of claim 1 wherein: the shrinking mechanism comprises two symmetrically distributed hot air machines which are used for blowing and heating the upper film and the lower film at the two end parts of the cylindrical object to shrink.

7. The cylinder wrapping machine of claim 6 wherein: the contraction mechanism also comprises a shaping puncture mechanism, the shaping puncture mechanism comprises two thermoplastic boxes which are symmetrically distributed, the two thermoplastic boxes are respectively provided with a shaping disc, and a plurality of groups of spurs are respectively fixedly arranged on the shaping disc; the bottom is slidingly assembled on the rack, the two thermoplastic boxes are driven by the shifting motor to directionally slide respectively, the two thermoplastic boxes are adjusted to obtain a proper distance matched with the length of the cylindrical object through sliding, the two shaping disks are used for pressing and shaping the film layers at the two ends of the cylindrical object, and the spurs pierce the film layers at the two ends of the cylindrical object for exhaust.

8. The cylinder wrapping machine of claim 6 wherein: the packaging mechanism, the end sealing mechanism and the shrinking mechanism are respectively and fixedly arranged on the same frame, or three independent mechanisms are sequentially arranged and spliced; the cylindrical object is conveyed between two adjacent mechanisms through a conveying belt.

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