CN111137474A - Automatic compression bag-making packaging machine - Google Patents

Abstract

The invention relates to an automatic compression bag-making packaging machine, which comprises a packaging machine frame; the packaging unit is arranged on the packaging rack and comprises a compression chamber and a main pressure plate; the feeding unit is arranged on the compression chamber and comprises a storage hopper and a feeding hopper; the bag outlet unit is arranged on the packaging rack and comprises a bag pushing pressure plate, a bag outlet channel and a gate; the bag sleeving machine comprises a bag sleeving machine frame arranged beside the packaging machine frame, and a bag sleeving unit arranged on the bag sleeving machine frame, wherein the bag sleeving unit comprises a bag making assembly, a sealing assembly and a conveying assembly arranged at a discharge port of a bag discharging channel. The invention has the advantages that: through the cooperation between packing unit, reinforced unit, play package unit, the cover bag unit to can carry out automatic cover bag to the package piece after having realized packing the blocking to the material compression, reduce artifical work, reduce artifical labour, improve work efficiency.

Description

Automatic compression bag-making packaging machine

Technical Field

The invention relates to the field of packaging of solid wastes, in particular to an automatic compression bag-making packaging machine.

Background

The hydraulic baling press is mainly suitable for steel mill, crop straw, recovery processing industry and non-ferrous metal smelting industry. The hydraulic baling press can extrude various metal leftover materials (such as steel shavings, scrap steel, scrap aluminum, scrap copper, scrap stainless steel, scrapped automobile waste and the like) into qualified furnace charges in various shapes such as cuboids, octagonal bodies, cylinders and the like, so that the transportation and smelting cost can be reduced, and the furnace charging speed can be increased.

For example, in patent CN109319241A, an automatic compressing and bagging machine with a weighing hopper is proposed, which comprises a frame, a compressing chamber is arranged in the frame, the compressing chamber comprises a primary compressing cavity and a forming compressing cavity which are arranged in sequence, and the bottom end of the forming compressing cavity has a height lower than that of the primary compressing cavity; the device comprises a compression chamber, a hopper, a material door, a material baffle, a weighing assembly and a control system, wherein the hopper is arranged above a primary compression cavity of the compression chamber, the material door is arranged on the hopper, the material baffle is arranged between the hopper and the compression chamber, the hopper and the material baffle are movably matched, the bottom end of the hopper is also provided with the weighing assembly, and the weighing assembly comprises a weighing sensor arranged on a frame; a compression assembly; a discharging component. The invention has the advantages that: set up weighing sensor through the bottom at the feeder hopper to can weigh in real time the weight of loading hopper, control the weight of the solid material to adding in the loading hopper, provide good basis for the control of the weight of follow-up packing piece.

The automatic compression packing bagging machine is used for packing a packed block, and still needs to manually pack the block when the packed block is bagged, so that automatic bagging of the block cannot be realized.

Disclosure of Invention

The invention aims to provide an automatic compression bag-making and packaging machine which can automatically sleeve bags on packaged bags.

In order to solve the technical problems, the technical scheme of the invention is as follows: an automatic compression bag-making and packaging machine is characterized in that: comprises that

A baling frame;

the packaging unit is arranged on the packaging rack and comprises a compression chamber arranged on the packaging rack, a compression cavity is arranged in the compression chamber, a main pressure plate is arranged in the compression cavity, and the main pressure plate is driven by a main oil cylinder to reciprocate along the extension direction of the compression cavity;

the feeding unit is arranged on the compression chamber and comprises a storage hopper arranged on the upper end surface of the compression chamber, the bottom end of the storage hopper is communicated with a compression cavity of the compression chamber, and the top end of the storage hopper is connected with a feeding hopper;

the bag discharging unit is arranged on the packaging rack and comprises a bag pushing pressure plate arranged on one side, opposite to the main pressure plate, of the compression cavity, the bag pushing pressure plate and the main pressure plate are distributed in the vertical direction, a bag discharging channel is further arranged on one side, close to the bag pushing pressure plate, of the compression chamber, the bag discharging channel and the compression chamber are vertically arranged, a bag discharging port communicated with the bag discharging channel is formed in the side end of the compression chamber, a gate is further arranged at the bag discharging port and driven by a gate oil cylinder to lift up and down, a bag discharging hole larger than the bag discharging port in size is formed in the gate, and the bag pushing pressure plate is driven by the bag pushing oil cylinder to enter the bag discharging channel;

the bag sleeving machine comprises a bag sleeving machine frame arranged beside the packaging machine frame, and a bag sleeving unit arranged on the bag sleeving machine frame, wherein the bag sleeving unit comprises a bag making assembly, a sealing assembly and a conveying assembly arranged at a discharge port of a bag discharging channel.

Furthermore, the storage hopper is also provided with two inductive switches, and the two inductive switches are respectively a full-material inductive switch positioned on the upper side of the storage hopper and a pressing inductive switch positioned on the lower side of the storage hopper.

Further, the bag making assembly comprises a packaging bag forming frame sleeved outside the bag outlet channel and a film supply mechanism arranged below the bag outlet channel;

the packaging bag forming frame is sleeved on one side of the bag outlet channel, which is close to the bag outlet;

the film supply mechanism comprises a film supply support, a pair of supporting rollers are mounted on the film supply support, a film material guide roller and a film storage roller are further distributed between the supporting rollers and the packaging bag forming frame on the film supply support, and a discharge induction photoelectric switch is further arranged beside the film storage roller.

Further, the sealing component comprises a transverse sealing mechanism arranged above the bag outlet channel and a longitudinal sealing mechanism arranged at the discharge hole of the bag outlet channel,

the transverse sealing mechanism comprises a transverse heat-sealing knife extending along the extension direction of the bag outlet channel, the upper end of the transverse heat-sealing knife is arranged on a transverse heat-sealing plate, the transverse heat-sealing knife is connected with the transverse heat-sealing plate through a plurality of threaded connecting rods, the threaded connecting rods are distributed in parallel along the long axis direction of the transverse heat-sealing knife, and the transverse heat-sealing plate is driven by a transverse heat-sealing cylinder to lift up and down;

the longitudinal sealing mechanism comprises a heat-sealing support positioned between the package outlet channel and the conveying assembly, a pair of upper longitudinal heat-sealing knife and lower longitudinal heat-sealing knife which are vertically distributed are arranged on the heat-sealing support, the upper longitudinal heat-sealing knife and the lower longitudinal heat-sealing knife are driven by an upper longitudinal sealing cylinder and a lower longitudinal sealing cylinder respectively to lift up and down so as to be close to or far away from each other, and a cursor induction sensor is further arranged on the upper side of the package outlet channel on the heat-sealing support.

Further, the conveying assembly comprises a pair of upper conveying belt and a pair of lower conveying belt which are distributed up and down, the upper conveying belt is driven by an upper conveying cylinder to move up and down, so that the upper conveying belt is close to or far away from the lower conveying belt, conveying induction switches are further arranged on the lower conveying belt, the two conveying induction switches are distributed in parallel along the conveying direction of the lower conveying belt, and the distance between the two conveying induction switches corresponds to the length of the wrapping block.

Further, the periphery of the bag pushing pressing plate is also provided with a felt.

The invention has the advantages that: according to the automatic bagging device, the packaging unit, the feeding unit, the bag discharging unit and the bagging unit are matched, so that automatic bagging can be performed on the packaged blocks after the materials are compressed and packaged into blocks, manual labor is reduced, and working efficiency is improved.

The design of gate, through design out the package hole on the gate come with go out package mouth, go out the package passageway cooperation and carry out the ejection of compact, fill the track groove through going out the board around the package hole, ensure that no material is remained in the track, ensure going on smoothly of gate oscilaltion.

The full inductive switch of material, the suppression inductive switch of the upper and lower distribution of setting on the storage hopper, then be in order to detect the material in the storage hopper, ensure reinforced smooth, avoid the material to spill over, also avoid appearing continuing reinforced phenomenon in the pressing process.

The felt arranged on the periphery of the bag pushing pressing plate is used for drawing air in the bag back by utilizing the felt when the bag pushing pressing plate is pulled back, so that the sealing position is flattened, and the subsequent sealing is conveniently cut off.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a front view of the automatic compression bag-making and packaging machine of the present invention.

Fig. 2 is a side view of the automatic compression bag-making and packaging machine of the present invention.

Fig. 3 is a top view of the automatic compression bag-making and packaging machine of the present invention.

Fig. 4 is a sectional view B-B of fig. 3.

FIG. 5 is a schematic view of the gate of the present invention.

Detailed Description

The following examples are presented to enable one of ordinary skill in the art to more fully understand the present invention and are not intended to limit the scope of the embodiments described herein.

An automatic compression bag-making and packaging machine as shown in fig. 1-5 comprises

A packing frame 1, the packing frame 1 is a cuboid frame structure which is composed of a plurality of transverse rods, longitudinal rods and vertical rods.

The packing unit comprises a compression chamber 2 arranged on the packing rack 1, a compression cavity in the compression chamber 2 is in a cuboid shape, a main pressure plate 21 is arranged in the compression cavity, the outer wall of the main pressure plate 21 is attached to the inner wall of the compression cavity, and the main pressure plate 21 is driven by a main oil cylinder 22 arranged at the side end of the compression chamber 2 to reciprocate along the extension direction of the compression cavity.

The utility model provides a set up reinforced unit on compression chamber 2, reinforced unit includes that one installs storage hopper 3 on the 2 up end of compression chamber, this storage hopper 3 is the equal open-ended hollow cuboid structure in both sides about one, the bottom of storage hopper 3 is linked together with the compression cavity of compression chamber 2, the top of storage hopper 3 is connected with a feeder hopper 31, feeder hopper 31 is a lower extreme open-ended hollow cuboid structure, side at feeder hopper 31 has a feed inlet, the bottom that is located feed inlet department at feeder hopper 31 still has a level outwards extended support flitch 32 simultaneously, adopt the mode of side feed to feeder hopper 31, for the top feed from feeder hopper 31, can reduce reinforced height, conveniently subtract the material, and support flitch 32's setting, then support the material when feeding in raw material, conveniently feed in raw material.

The storage hopper 3 is further provided with two inductive switches, namely a full-material inductive switch 33 positioned on the upper side of the storage hopper 3 and a pressing inductive switch 34 positioned on the lower side of the storage hopper 3. The material that distributes from top to bottom of setting on the storage hopper 3 is full inductive switch 33, suppress inductive switch 34, then detect for the material in the storage hopper 3, ensure reinforced smooth, avoid the material to spill over, also avoid appearing continuing reinforced phenomenon in the pressing process, material is full inductive switch 33, suppress inductive switch 34 also for the feeder hopper 31 cooperation reinforced with the side, because feeder hopper 31 adopts the reinforced mode of side, therefore, when reinforced, the staff can't see the reinforced condition of material in the storage hopper 3, and through material full inductive switch 33, suppress inductive switch 34's cooperation, thereby can make things convenient for the staff accuracy to know the material condition in the storage hopper 3.

The bag outlet unit is arranged on the packaging machine frame 1 and comprises a bag pushing pressure plate 4 which is arranged on one side, opposite to the main pressure plate 21, of the compression cavity, the bag pushing pressure plate 4 and the main pressure plate 21 are distributed in the vertical direction, a bag outlet channel 41 is further arranged on one side, close to the bag pushing pressure plate 4, of the compression chamber 2, the bag outlet channel 41 and the compression chamber 2 are vertically arranged, and a bag outlet communicated with the bag outlet channel 41 is formed in the side end of the compression chamber 2.

The bag outlet is also provided with a gate 42, the gate 42 is driven by a gate oil cylinder 43 arranged on the packaging rack 1 to lift up and down, the packaging rack 1 is also provided with a pair of lifting slide rails matched with the gate 42, the inner side of each lifting slide rail is provided with a slide groove embedded with the side end of the gate 42, the lifting slide rails are matched with the slide grooves, therefore, in the process of lifting up and down the gate 42, the gate 42 is guided, the phenomenon of deviation of the gate 42 is avoided, the gate 42 is provided with a bag outlet hole 44 with the size larger than that of the bag outlet, and the bag pushing pressure plate 4 is driven by a bag pushing oil cylinder 45 arranged at the side end of the compression chamber 2 to enter the bag outlet channel 41. The gate 42 is designed to be matched with a packet outlet and a packet outlet channel for discharging by designing a packet hole 44 on the gate 42, and a track groove is filled by plates around the packet hole 44, so that no material residue is ensured in the track, and the gate 42 is ensured to smoothly go up and down.

Felt is arranged on the periphery of the bale pushing pressing plate 4. The felt provided around the push-bag platen 4 is provided to enable air in the bag to be drawn back by the felt when the push-bag platen 4 is pulled back, so that the seal is flattened and the subsequent seal is cut off.

The bagging machine frame 5 is arranged beside the packaging machine frame 1, the bagging machine frame 5 is of a cuboid frame structure which is composed of a plurality of transverse rods, longitudinal rods and vertical rods, a bagging unit is arranged on the bagging machine frame 5, and the bagging unit comprises a bag making assembly, a sealing assembly and a conveying assembly arranged at a discharge port of a bag outlet channel 41.

The bag making assembly comprises a packaging bag forming frame 51 sleeved outside the bag outlet channel 41 and a film supply mechanism arranged below the bag outlet channel 41.

The package forming frame 51 is sleeved on one side of the package outlet channel 41 close to the package outlet, and a gap for allowing a film forming the package to enter is formed in the package outlet channel 41 at the package forming frame 51.

The film supply mechanism comprises a film supply bracket 52, a pair of supporting rollers 53 are arranged on the film supply bracket 52, two sides of the supporting rollers 53 are hung on the film supply bracket 52 in a dark way through the matching of a bearing and a bearing seat, the two supporting rollers 53 jointly realize the support of a film roll, annular limiting blocks 55 for limiting the two sides of the film roll are arranged on the two sides of the supporting rollers 53, any one of the two supporting rollers 53 is driven by the unreeling motor 54 to rotate, thereby realizing the unreeling of the film roll, when the film roll is loaded and unloaded by adopting the unreeling mode, the film roll is directly placed on the two support rollers 53 or is directly taken off from the support rollers 53, which is very convenient, and the setting of annular stopper 55 is spacing to the both sides of rolling up the membrane, avoids the phenomenon that the off tracking appears in the in-process that the membrane is rolled up and is rotating, and influences the smooth feed of membrane material.

Still distribute membrane material guide roll 56, storage membrane roller on supplying membrane support 52 and being located between supporting roll 53 and the wrapping bag shaping frame, membrane material guide roll 56 has the several, sets up respectively in the both sides that store up the membrane roller, all is located the top that stores up the membrane roller at membrane material guide roll 56, still is provided with a blowing response photoelectric switch 57 at the side that stores up the membrane roller.

When bag making is carried out, the unwinding motor 54 works to drive the supporting roller 53 to rotate so as to drive the film roll to unwind, and the film material sequentially bypasses the film material guide roller 56 and the film storage roller and then enters the packaging bag forming frame 51, and a packaging bag with two open ends is formed along the inner wall of the packaging bag forming frame 51.

The sealing assembly comprises a transverse sealing mechanism arranged above the bag outlet channel 41 and a longitudinal sealing mechanism arranged at a discharge hole of the bag outlet channel 41.

The transverse sealing mechanism comprises a transverse heat-sealing knife 6 extending along the extension direction of the package outlet channel 41, the transverse heat-sealing knife 6 in the embodiment is a heat-sealing knife commonly used in the existing market, the specific structure and the working principle of the transverse heat-sealing knife are the prior art, the detailed description is omitted here, the upper end of the transverse heat-sealing knife 6 is installed on a transverse heat-sealing plate 63, the transverse heat-sealing knife 6 is connected with the transverse heat-sealing plate 63 through a plurality of threaded connecting rods 62, threaded through holes for the threaded connecting rods 62 to pass through are formed in the transverse heat-sealing plate 63, the bottom end of the threaded connecting rods 62 is movably connected with the transverse heat-sealing knife 6 through matching of bearings, the threaded connecting rods 62 are distributed in parallel along the long axis direction of the transverse heat-sealing knife 6, the vertical fine adjustment of different positions of the transverse heat-sealing knife 6 is realized by rotating the threaded connecting rods 62 at different positions, the transverse heat sealing plate 63 is driven by a transverse heat sealing cylinder 62 arranged on the bagging frame 5 to move up and down, and the transverse heat sealing cylinder 62 is a cylinder with magnetic induction.

The longitudinal sealing mechanism comprises a heat-sealing support 7 positioned between the package outlet channel 41 and the conveying assembly, a pair of upper longitudinal heat-sealing knife 71 and lower longitudinal heat-sealing knife 72 which are vertically distributed are installed on the heat-sealing support 7, the upper longitudinal heat-sealing knife 71 and the lower longitudinal heat-sealing knife 72 in the embodiment are heat-sealing knives commonly used in the existing market, the specific structures and the working principles of the heat-sealing knives are the prior art, detailed description is omitted, the upper longitudinal heat-sealing knife 71 and the lower longitudinal heat-sealing knife 72 are driven by an upper longitudinal sealing cylinder 73 and a lower longitudinal sealing cylinder 74 to lift up and down respectively, therefore, the upper longitudinal heat-sealing knife 71 and the lower longitudinal heat-sealing knife 72 are close to or far away from each other, and a cursor induction sensor 75 is further installed on the heat-sealing support 7 and positioned on the upper.

When the packaging bag is sealed, because the packaging bag is formed by winding a film material, in turn, except that openings are left when the packaging blocks at two sides need to enter, the ports of the film material are not sealed, firstly, the packaging bag is firstly sleeved on the outer surface of the packaging block, when the packaging block moves to the lower part of the transverse heat-sealing knife 6, the transverse heat-sealing knife 6 is driven by the transverse heat-sealing cylinder 62 to move downwards, the ports of the packaging bag and the upper plane of the packaging bag are sealed by the transverse heat-sealing knife 6, it needs to be noted that when the first packaging block is sealed, the transverse heat-sealing cylinder 62 needs to be manually pressed down to realize the sealing, the subsequent packaging block can be directly driven by the transverse heat-sealing cylinder 62, after the ports of the packaging bag are sealed, the packaging block continues to move to the longitudinal sealing mechanism, the upper longitudinal heat-sealing knife 71 is driven by the upper longitudinal sealing cylinder 73 and the lower longitudinal sealing cylinder 74 to move downwards, and the lower longitudinal heat-sealing knife, therefore, the matching of the upper longitudinal heat sealing knife 71 and the lower longitudinal heat sealing knife 72 is utilized to seal the rear opening of the previous bag and the front opening of the next bag, the two bags are cut off at the same time, the sealing of the bags is completed, it is noted that the sealing of the two sides of the first packaging bag can be completed only by performing two actions on the upper longitudinal heat sealing knife 71 and the lower longitudinal heat sealing knife 72, and the sealing of the subsequent packaging bag can be completed only by one time.

The conveying assembly comprises a pair of upper conveying belts 81 and lower conveying belts 82 which are distributed up and down, the upper conveying belts 81 are installed on an upper conveying support, the upper conveying belts 81 are driven by upper conveying motors installed on the upper conveying supports to work, the upper conveying supports are driven by upper conveying cylinders 83 installed on the bagging machine frame 5 to move up and down, the upper conveying belts 81 are driven to be close to or far away from the lower conveying belts 82, the upper conveying cylinders 83 are cylinders with magnetic induction, conveying induction switches are further arranged on the lower conveying belts 82, the number of the conveying induction switches 84 is two, the conveying induction switches are distributed in parallel along the conveying direction of the lower conveying belts 82, and the distance between the two conveying induction switches 84 corresponds to the length of a packaged block.

The working principle is as follows: firstly, the following components are mixed

According to the automatic compression bag-making packaging machine, the packaging unit, the feeding unit, the bag discharging unit and the bag sleeving unit are matched, so that automatic bag sleeving can be performed on the packaged blocks after the materials are compressed and packaged into blocks, manual labor is reduced, and working efficiency is improved.

It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. An automatic compression bag-making packaging machine is characterized in that: comprises that

A baling frame;

the packaging unit is arranged on the packaging rack and comprises a compression chamber arranged on the packaging rack, a compression cavity is arranged in the compression chamber, a main pressure plate is arranged in the compression cavity, and the main pressure plate is driven by a main oil cylinder to reciprocate along the extension direction of the compression cavity;

the feeding unit is arranged on the compression chamber and comprises a storage hopper arranged on the upper end surface of the compression chamber, the bottom end of the storage hopper is communicated with a compression cavity of the compression chamber, and the top end of the storage hopper is connected with a feeding hopper;

the bag discharging unit is arranged on the packaging rack and comprises a bag pushing pressure plate arranged on one side, opposite to the main pressure plate, of the compression cavity, the bag pushing pressure plate and the main pressure plate are distributed in the vertical direction, a bag discharging channel is further arranged on one side, close to the bag pushing pressure plate, of the compression chamber, the bag discharging channel and the compression chamber are vertically arranged, a bag discharging port communicated with the bag discharging channel is formed in the side end of the compression chamber, a gate is further arranged at the bag discharging port and driven by a gate oil cylinder to lift up and down, a bag discharging hole larger than the bag discharging port in size is formed in the gate, and the bag pushing pressure plate is driven by the bag pushing oil cylinder to enter the bag discharging channel;

the bag sleeving machine comprises a bag sleeving machine frame arranged beside the packaging machine frame, and a bag sleeving unit arranged on the bag sleeving machine frame, wherein the bag sleeving unit comprises a bag making assembly, a sealing assembly and a conveying assembly arranged at a discharge port of a bag discharging channel.

2. The automatic compression bag-making and packaging machine as claimed in claim 1, wherein: the storage hopper is also provided with two inductive switches which are respectively a full-material inductive switch positioned on the upper side of the storage hopper and a pressing inductive switch positioned on the lower side of the storage hopper.

3. The automatic compression bag-making and packaging machine as claimed in claim 1, wherein: the bag making assembly comprises a packaging bag forming frame sleeved outside the bag outlet channel and a film supply mechanism arranged below the bag outlet channel;

the packaging bag forming frame is sleeved on one side of the bag outlet channel, which is close to the bag outlet;

the film supply mechanism comprises a film supply support, a pair of supporting rollers are mounted on the film supply support, a film material guide roller and a film storage roller are further distributed between the supporting rollers and the packaging bag forming frame on the film supply support, and a discharge induction photoelectric switch is further arranged beside the film storage roller.

4. The automatic compression bag-making and packaging machine as claimed in claim 1, wherein: the sealing component comprises a transverse sealing mechanism arranged above the bag outlet channel and a longitudinal sealing mechanism arranged at the discharge hole of the bag outlet channel,

the transverse sealing mechanism comprises a transverse heat-sealing knife extending along the extension direction of the bag outlet channel, the upper end of the transverse heat-sealing knife is arranged on a transverse heat-sealing plate, the transverse heat-sealing knife is connected with the transverse heat-sealing plate through a plurality of threaded connecting rods, the threaded connecting rods are distributed in parallel along the long axis direction of the transverse heat-sealing knife, and the transverse heat-sealing plate is driven by a transverse heat-sealing cylinder to lift up and down;

the longitudinal sealing mechanism comprises a heat-sealing support positioned between the package outlet channel and the conveying assembly, a pair of upper longitudinal heat-sealing knife and lower longitudinal heat-sealing knife which are vertically distributed are arranged on the heat-sealing support, the upper longitudinal heat-sealing knife and the lower longitudinal heat-sealing knife are driven by an upper longitudinal sealing cylinder and a lower longitudinal sealing cylinder respectively to lift up and down so as to be close to or far away from each other, and a cursor induction sensor is further arranged on the upper side of the package outlet channel on the heat-sealing support.

5. The automatic compression bag-making and packaging machine as claimed in claim 1, wherein: the conveying assembly comprises a pair of upper conveying belt and lower conveying belt which are distributed up and down, the upper conveying belt is driven by an upper conveying cylinder to move up and down, so that the upper conveying belt is close to or far away from the lower conveying belt, conveying induction switches are further arranged on the lower conveying belt, the two conveying induction switches are distributed in parallel along the conveying direction of the lower conveying belt, and the distance between the two conveying induction switches corresponds to the length of a wrapping block.

6. The automatic compression bag-making and packaging machine as claimed in claim 1, wherein: and the periphery of the bale pushing pressure plate is also provided with felts.

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