CN112278365B - Push plate component of double-layer paper packaging machine - Google Patents

Abstract

The invention provides a push plate component of a double-layer paper packaging machine, which comprises a push plate, a second modeling head and a push plate driving component, wherein the push plate driving component drives the push plate to reciprocate, the push plate driving component drives the second modeling head to reciprocate on the push plate, the push plate driving component comprises a crank connecting rod mechanism, and the radius of a crank corresponding to the second modeling head is smaller than that of the crank corresponding to the push plate. From this, can realize that the push pedal is more preferred than the first fixed plate that is modelled of second, will fold into article downside with double-deck paper front and back both ends earlier, then the push pedal moves backward, and the first head that models of second moves forward again, through the first head that models and the first cooperation of modelling of second, will be located article both ends around the double-deck paper both sides inwards fold into.

Description

Push plate component of double-layer paper packaging machine

Technical Field

The invention relates to the field of packaging machines, in particular to a push plate component of a double-layer paper packaging machine.

Background

Many of the prior art are packaged by paper, for example, soap needs to be packaged by double-layer paper, but the prior double-layer paper packaging machine has many defects.

For example, patent No. 201610728224.3 discloses a double-layer paper packaging machine, which is to package inner layer paper first and then outer layer paper, and has low working efficiency, and once paper feeding is finished, when raw paper needs to be replaced, the operation needs to be stopped, and the efficiency is reduced.

Disclosure of Invention

The invention aims to provide a push plate component of a double-layer paper packaging machine, which can simultaneously perform double-layer paper packaging.

According to one aspect of the invention, the push plate component of the double-layer paper packaging machine comprises a push plate, a second modeling head and a push plate driving component, wherein the push plate driving component drives the push plate to reciprocate, the push plate driving component drives the second modeling head to reciprocate on the push plate, the push plate driving component comprises a crank-link mechanism, and the radius of a crank corresponding to the second modeling head is smaller than that of the crank corresponding to the push plate.

From this, can realize that the push pedal is more preferred than the first fixed plate that is modelled of second, will fold into article downside with double-deck paper front and back both ends earlier, then the push pedal moves backward, and the first head that models of second moves forward again, through the first head that models and the first cooperation of modelling of second, will be located article both ends around the double-deck paper both sides inwards fold into.

In some embodiments, the push plate drive member comprises a drive shaft, and the crank-link mechanism comprises a crank, a first link, and a second link; the crank sets up in the drive pivot, and drive pivot drive crank is rotatory around drive pivot axle center, first connecting rod one end and second connecting rod one end rotatable coupling respectively in crank, first connecting rod other end rotatable coupling push pedal, second connecting rod other end rotatable coupling second head of modelling.

In some embodiments, a fixed plate is further included, the push plate reciprocating relative to the fixed plate.

In some embodiments, the fixed plate is provided on both sides with first styling heads that mate with second styling heads.

In some embodiments, the device further comprises a pair of first slide rails, the first slide rails are located on two sides of the push plate, and first slide blocks matched with the first slide rails are arranged on two sides of the push plate.

In some embodiments, a second slide rail is disposed on the inner side of the first slide block, and a second slide block capable of reciprocating in the second slide rail is fixed on the outer side surface of the second modeling head.

Drawings

Fig. 1 is a schematic structural view of a push plate member of a double-layered paper packing machine according to the present invention, applied to the double-layered paper packing machine;

fig. 2 is a schematic view of another perspective structure of a push plate member of a double-layer paper packing machine applied to the double-layer paper packing machine according to the present invention;

fig. 3 is a partial enlarged structural view of a push plate member of a double-layered paper packing machine according to the present invention, applied to the double-layered paper packing machine;

fig. 4 is a schematic structural view of a rotary carriage of a push plate member of a double-layer paper packing machine applied to the double-layer paper packing machine according to the present invention;

fig. 5 is an exploded view of a push plate member of a double-layered paper packing machine according to the present invention applied to a rotary carriage of the double-layered paper packing machine;

fig. 6 is a schematic structural view of a vacuum plate of a push plate part of a double-layer paper packing machine applied to the double-layer paper packing machine according to the present invention;

fig. 7 is a schematic structural view of a push plate part of a double-layered paper packing machine according to the present invention;

fig. 8 is a schematic structural view of a forming block of a push plate component of a double-layer paper packaging machine applied to the double-layer paper packaging machine.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to specific examples.

As shown in fig. 1 to 8, in order to better explain the push plate component, the embodiment explains the push plate component in combination with a double-layer paper packaging machine, which comprises a feeding mechanism 1, a paper feeding mechanism 2, a paper receiving and packaging mechanism 3 and a heat sealing mechanism 4; the paper receiving and packaging machine can further comprise a frame, and the feeding mechanism 1, the paper feeding mechanism 2, the paper receiving and packaging mechanism 3 and the heat sealing mechanism 4 can be fixedly arranged on the frame.

The feeding mechanism 1 feeds the articles to be packaged into the paper receiving and packaging mechanism 3; the paper feeding mechanism 2 feeds the double-layer paper into the paper receiving and packaging mechanism 3; the paper receiving and packaging mechanism 3 packages double-layer paper outside the article and sends the packaged article to the heat sealing mechanism 4; the heat-seal mechanism 4 heat-seals the double-layered paper wrapped outside the article.

The paper receiving packaging mechanism 3 comprises a rotary conveying frame 31, a paper receiving part 32, a jacking part 33 and a push plate part 34, the rotary conveying frame 31 receives the articles on the feeding mechanism 1, the paper receiving part 32 is arranged on the rotary conveying frame 31, and double layers of paper are covered on the upper sides of the articles by the paper receiving part 32; the jacking component 33 jacks the article in the rotary conveying frame 31; a pusher member 34 is positioned above the rotating carriage 31 for folding the double sheet into the underside of the article.

The rotary conveying frame 31 comprises a rotary table 311 and an article frame 312 arranged on the side face of the rotary table 311 in the circumferential direction, the rotary table 311 can be connected to a rotating shaft in a key mode, the rotating shaft can be mounted on a rack through a bearing, the rotary table 311 is driven to rotate through the rotating shaft, the rotating shaft can be driven to rotate through a motor, the axis of the rotary table 311 is arranged along the horizontal direction, the article frame 312 is located on the front side of the rotary table 311, and the rotary conveying frame 31 is arranged above the feeding mechanism 1.

An opening is formed in one side of the article rack 312 facing the moving direction, that is, only one side of the periphery of the article rack 312 is provided with an opening, and the other three sides are fixed with baffle plates 313, so that articles on the feeding mechanism 1 can be taken out without falling out.

Still include leading truck 314 leading truck and be located carousel 311 one side, leading truck 314 cooperation article frame 312 upwards promotes article, and leading truck 314 fixed mounting is in the frame, and is located feeding mechanism 1 top, and leading truck 314 is the arc structure, and leading truck 314 mark is equipped with the gyro wheel between, reduces and the article between the friction.

A cam driving mechanism 36 is also included, and the cam driving mechanism 36 drives the article rack 312 to swing. The cam driving mechanism 36 includes a cam plate 361 and a first cam groove 362 provided in the cam plate 361, the cam plate 361 is provided coaxially with the turntable, the cam plate 361 is fixed to the frame, the cam plate 361 is provided on the rear side of the turntable 311, i.e., with the article rack 312, and the first cam groove 362 is an irregular annular structure.

The article rack rotating device further comprises a plurality of first swinging shafts 363 and first rotating wheels 364 which are arranged corresponding to the article rack 312, the first swinging shafts 363 penetrate through the rotating disc 311, the first swinging shafts 363 are rotatably installed on the rotating disc 311 through bearings, one end of each first swinging shaft 363 is connected with one side, provided with an opening, of the article rack 312, the other end of each first swinging shaft 363 is of an L-shaped structure, a first rotating wheel 364 is installed at the end of each first swinging shaft 363 through a bearing, and the first rotating wheels 364 move along the track of the first cam grooves 362.

The paper receiving part 32 comprises a vacuum disc 321 and a plurality of vacuum nozzles 322, the vacuum disc 321 is arranged on the upper side of the turntable 311, one side of the vacuum disc 321 facing the turntable 311 is provided with a section of arc-shaped vacuum cavity 323, the arc-shaped vacuum cavity 323 is matched with the edge of the turntable 311, and the arc-shaped vacuum cavity 323 is vacuumized by a vacuum machine. The vacuum suction nozzle 322 is fixedly installed on the turntable 311 and is disposed corresponding to the article rack 312, the vacuum suction nozzle 322 is a long tube-shaped structure, a side surface of the vacuum suction nozzle is provided with an elongated opening along an axial direction, the elongated opening can suck a side edge of the double-layer paper, and the vacuum suction nozzle 322 is located at the front side of the article rack 312, and the front side is a direction toward the article rack 312 in a rotating and advancing manner. A vacuum pipe 324 communicated with a vacuum suction nozzle 322 is arranged on one side of the turntable 311 facing the vacuum disc 321, the vacuum cavity 323 is positioned on a rotating path of the vacuum pipe 324, and when the vacuum suction nozzle 322 rotates to the arc-shaped vacuum cavity 323, the vacuum suction nozzle 322 can suck the front side of the double-layer paper and pull the double-layer paper to the upper side of the article.

The jacking component 33 comprises a plurality of jacking rods 332, the jacking rods 332 are arranged on the turntable 311 and are arranged corresponding to the article racks 312, the cam driving mechanism 36 drives the jacking rods 332 to penetrate out of the article racks 312, and the jacking rods 332 are positioned on the front side of the turntable 311, namely on the same side as the article racks 312. The swing mechanism further comprises a second swing shaft 365 and a second rotating wheel 366, the second swing shaft 365 is arranged corresponding to the push rod 332, the rotary table 311 is penetrated by the second swing shaft 365, the second swing shaft 365 is rotatably arranged on the rotary table 311 through a bearing, one end of the second swing shaft 365 is connected to one end of the push rod 332, the second rotating wheel 366 is arranged at the other end of the second swing shaft 365 through a bearing, the cam driving mechanism 36 is provided with a second cam groove 367, and the second rotating wheel 366 moves along the track of the second cam groove 367. The top rod 332 can be vertically arranged perpendicular to the second swing shaft 365, and a top plate is arranged at the free end of the top rod 332, so that the object can be better supported. Through the tracks of the first cam groove 362 and the second cam groove 367, when the article rack 312 approaches the article on the feeding mechanism 2, the article rack 312 swings from the initial position to the direction away from the axis of the rotary table 311 gradually around the first swing shaft 363 to take out the article on the feeding mechanism 2, when the article rack rotates to the upper side of the rotary table 311, the article rack 312 swings to the axis of the rotary table 311 gradually around the first swing shaft 363 to return to the initial position, meanwhile, the push rod 332 moves away from the axis of the rotary table 311 around the second swing shaft 365 to eject the article in the article rack 312, and when the rotary table 311 continues to rotate forwards, the push rod 322 swings gradually beyond the direction close to the axis of the rotary table 311 to leave the article rack 312.

The device further comprises a rotating frame 331, the rotating frame 331 can be mounted on the rack through a rotating shaft, the rotating frame 331 is located above the rotary conveying frame 31 and rotates synchronously with the rotary conveying frame 31, and a plurality of top blocks 333 corresponding to the top rods 332 are arranged on the side edge of the rotating frame 331. When the top bar 332 ejects the article from the article rack 312, the top block 333 on the rotating rack 331 engages with the top bar 332 to clamp the article and convey the article forward.

The push plate member 34 includes a fixed plate 341 and a push plate 342, the fixed plate 341 is connected to an inlet of the heat-sealing mechanism 4, and the push plate 342 reciprocates relative to the fixed plate 341. In addition, the device comprises a pair of first sliding rails 355, the first sliding rails 355 are located at two sides of the push plate 342, first sliding blocks 356 are arranged at two sides of the push plate 342, and the first sliding blocks 356 can reciprocate in the first sliding rails 355. Two sides of the fixed plate 341 are fixedly provided with a first modeling head 343, an end of the first modeling head 343 is in an arc structure, two sides of the push plate 342 are provided with a second modeling head 344 corresponding to the first modeling head 343, a front end of the second modeling head 344 is in an arc structure, the second modeling head 344 can also move relative to the push plate 342, namely, a second slide rail 357 is arranged on an inner side of the first slide block 356, and a second slide block capable of reciprocating in the second slide rail 357 is fixed on an outer side surface of the second modeling head 344.

And a push plate driving part which can respectively push 342 and the second modeling head to respectively reciprocate. The push plate driving part comprises a driving rotating shaft 351, a crank 352, a first connecting rod 353 and a second connecting rod 354, the crank 352 is arranged on the driving rotating shaft 351, the driving rotating shaft 351 is perpendicular to the crank 352, the driving rotating shaft 351 is in key connection with the end part of the crank 352, the driving rotating shaft 351 drives the crank 352 to rotate around the axis of the driving rotating shaft, one end of the first connecting rod 353 and one end of the second connecting rod 354 are respectively rotatably connected to the crank 352 through bearings, the vertical distance from the connecting part of the first connecting rod 353 and the crank 352 to the axis of the driving rotating shaft 351 is larger than the vertical distance from the connecting part of the second connecting rod 354 and the crank 352 to the axis of the driving rotating shaft 351, in the embodiment, the crank 352 is in an acute-angle V-shaped structure, the other end of the first connecting rod 353 is rotatably connected to the push plate 342 through a bearing, and the other end of the second connecting rod 354 is rotatably connected to the second modeling head 344 through a bearing. Therefore, the push plate 342 is closer to the fixed plate 341 than the second modeling head 356, the front end and the rear end of the double-layer paper are folded into the lower side of the article, then the push plate 342 moves backwards, the second modeling head 356 moves forwards again, and the front side and the rear side of the double-layer paper positioned at the two ends of the article are folded inwards through the matching of the first modeling head 343 and the second modeling head 356.

The article pushing device further comprises a pair of forming blocks 345 which are arranged oppositely, the forming blocks 345 are arranged on one side, back to the pushing plate 342, of the fixing plate 341, the forming blocks 345 are fixedly arranged on the rack, an upper inclined surface 346 and a lower inclined surface 347 are sequentially arranged on the inner side surface of each forming block 345 along the moving direction of the article, the upper inclined surface 346 is an inclined surface gradually transited from the lower side of each forming block 345 to the middle, and the lower inclined surface 347 is an inclined surface gradually transited from the upper side of each forming block 345 to the middle. Therefore, the lower sides of the double-layer paper at the two ends of the article are folded inwards through the upper inclined plane, and then the upper sides of the double-layer paper at the two ends of the article are folded inwards through the lower inclined plane, so that double-layer paper packaging of the article is completed.

The feeding mechanism 1 comprises a feeding conveyer belt 11, a plurality of article-bearing supports 12 are uniformly distributed on the feeding conveyer belt 11, and the supports 12 are used for bearing articles and conveying the articles.

The paper feeding mechanism 2 includes an outer layer paper frame 21, an inner layer paper frame 22 and a double layer paper conveying rail 23, the outer layer paper frame 21 is provided with outer layer paper, the inner layer paper frame 22 is provided with inner layer paper, and the outer layer paper and the inner layer paper are conveyed through the double layer paper conveying rail 23.

The double-layer paper cutting machine further comprises a movable cutter 24, wherein the movable cutter 24 is fixedly arranged on the machine frame, and the movable cutter 24 is arranged at the outlet of the double-layer paper conveying track 23 and used for cutting double-layer paper.

The heat sealing mechanism 4 includes a discharging conveyer belt 41, two sides of the discharging conveyer belt 41 are respectively provided with a heat sealing conveyer belt 42 and a heating plate 43 arranged at the inner side of each heat sealing conveyer belt 42, when packaged articles pass between the heat sealing conveyer belts 42, the double-layer paper folded at two ends of the articles is heat sealed through the heating plate 43.

In addition, the driving of the packing machine may be driven by a motor, and only one motor may be provided, and then the outer-layer paper frame 21, the inner-layer support 22, the double-layer paper conveying rail 23, the discharging conveying belt 41, the heat-sealing conveying belt 42, the feeding conveying belt 11, the turntable 311, the driving rotating shaft 351, the rotating frame 331, and the like are respectively driven by a plurality of belts and pulleys.

The working principle is as follows: taking soap as an example, firstly, soap is placed in a bracket 12 on a feeding and conveying belt 11 for conveying, when the soap is close to the lower part of a rotary conveying frame 31, an article frame 312 takes the soap out of the bracket 12, the soap is conveyed upwards through the matching of a guide frame 314, a vacuum suction nozzle 322 sucks the front end of double-layer paper, the double-layer paper is pulled to cover the upper side surface of the soap, meanwhile, a movable cutter 24 cuts off the double-layer paper, when the soap reaches the uppermost part of the rotary conveying frame 31, an ejector rod 322 pushes the soap away from the article frame, the soap is clamped through the matching of an ejector block 333 on the rotary frame 331 and moves forwards, meanwhile, a push plate driving part firstly drives a push plate 342 to move forwards, two ends of the double-layer paper are folded into the lower side surface of the soap through the matching of a fixed plate 341, and then through the matching of a first modeling head 343 and a second modeling head 356, the front side and the back side of the double-layer paper positioned at two ends of the article are folded inwards, then the lower sides of the double-layer paper at the two ends of the article are folded inwards through the upper inclined plane, then the upper sides of the double-layer paper at the two ends of the article are folded inwards through the lower inclined plane, the double-layer paper packaging of the article is completed, and finally when the packaged article passes through the space between the heat-sealing conveying belts 42, the double-layer paper with the two folded ends of the article is subjected to heat sealing through the heating plate 43.

It should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art will be able to make the description as a whole, and the embodiments may be appropriately combined to form other embodiments as will be appreciated by those skilled in the art.

The above-listed detailed description is only a specific description of a possible embodiment of the present invention, and it is not intended to limit the scope of the present invention, and equivalent embodiments or modifications thereof without departing from the scope of the present invention are included in the present invention.

Claims (4)

1. The push plate component of the double-layer paper packaging machine is characterized by comprising a push plate (342), a second modeling head (344) and a push plate driving component, wherein the push plate driving component drives the push plate (342) to reciprocate, the push plate driving component drives the second modeling head (344) to reciprocate on the push plate (342), the push plate driving component comprises a crank-link mechanism, and the radius of a crank corresponding to the second modeling head (344) is smaller than that of the crank corresponding to the push plate (342); the push plate mechanism further comprises a fixed plate (341), and the push plate (342) reciprocates relative to the fixed plate (341); a first modeling head (343) matched with the second modeling head (344) is arranged on two sides of the fixing plate (341); the push plate (342) is preferentially close to the fixing plate (341) than the second modeling head (344), the front end and the rear end of the double-layer paper are firstly folded into the lower side of the article, then the push plate (342) moves backwards, the second modeling head (344) moves forwards again, and the front side and the rear side of the double-layer paper positioned at the two ends of the article are folded inwards through the matching of the first modeling head (343) and the second modeling head (344).

2. The pusher member of a double-ply paper packing machine according to claim 1, wherein the pusher driving member includes a driving rotation shaft (351), and the crank link mechanism includes a crank (352), a first link (353), and a second link (354); the crank (352) is arranged on the driving rotating shaft (351), the driving rotating shaft (351) drives the crank (352) to rotate around the axis of the driving rotating shaft, one end of the first connecting rod (353) and one end of the second connecting rod (354) are respectively and rotatably connected to the crank (352), the other end of the first connecting rod (353) is rotatably connected to the push plate (342), and the other end of the second connecting rod (354) is rotatably connected to the second modeling head (344).

3. The pusher section of a double-deck paper wrapping machine according to claim 1, further comprising a pair of first sliding rails (355), wherein said first sliding rails (355) are located on both sides of said pusher (342), and both sides of said pusher (342) are provided with first sliding blocks (356) engaged with said first sliding rails (355).

4. The push plate component of the double-layer paper packaging machine according to claim 3, wherein a second slide rail (357) is disposed inside the first slide block (356), and a second slide block capable of reciprocating in the second slide rail (357) is fixed to an outer side surface of the second shaping head (344).

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