CN220764852U - Packing carton whole row line - Google Patents

Abstract

The utility model relates to a packing box arranging line which comprises an arranging support, wherein a lane area for conveying packing boxes conveyed in a single row to different positions, a lane conveying area for butting with lane units and receiving the packing boxes at different positions and a temporary storage area for providing quantitative packing boxes which are arranged in a rectangular array for subsequent processes are sequentially distributed on the arranging support along the conveying direction of the packing boxes, and baffle plates extending from the lane area to the temporary storage area are respectively arranged on two sides of the arranging support. The utility model has the advantages that: through the mutual cooperation among the lane area, the lane conveying area and the temporary storage area, the single-row conveying packing boxes are automatically divided into the packing boxes distributed in multiple rows, manual whole row is not needed, manual labor is reduced, and a good foundation is provided for grabbing the multiple rows of packing boxes for packing at the subsequent time.

Description

Packing carton whole row line

Technical Field

The utility model relates to the field of packaging, in particular to a packaging box whole line.

Background

Along with the improvement of the living standard of people, in order to meet the high-quality demands of people, a plurality of bottle-shaped and canned products are packaged by adopting a packaging box, and the packaging requirements of people on the packaging box are higher, particularly the packaging of rectangular box gifts, so that the market has huge demands on the packaging box.

In order to avoid damaging the packing box in the transportation process, the packing box is required to be packed in a paper box, when the packing box is packed, the packing box produced in the previous process is conveyed to the packing process by a conveying belt, the packing box is required to be arranged in a rectangular array mode in the packing process, and then the packing box with the rated quantity is grabbed by a robot and is packed in the same paper box, so that the packing is completed.

In the process, because the packaging boxes produced in the previous procedure are always conveyed on the conveying belt by a single packaging box, the packaging boxes are arranged in a single-row mode when conveyed to the boxing procedure, and the packaging boxes filled in the general packaging boxes are arranged in a plurality of rows, if the single-row grabbing mode is adopted for boxing, the robot is required to grab for a plurality of times, the boxing efficiency is lower, the conventional solution is that the single-row packaging boxes are manually ordered by a person at the boxing procedure, so that the packaging boxes are arranged in a rectangular array mode, and therefore, the subsequent robot only needs to grab the plurality of rows of packaging boxes for boxing once, one carton can be filled, and the working efficiency is greatly improved. But the manual work is arranged the packing carton, needs to consume a large amount of manpowers, and working strength is higher.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a packing box alignment line which can automatically arrange the transported packing boxes and provides a basis for automatic packing of subsequent packing boxes.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the utility model provides a packing carton whole row line which innovation point lies in: comprising

The automatic packaging machine comprises an arranging support, a lane dividing area for conveying a single-row conveyed packaging box to different positions, a lane dividing conveying area for butting with the lane dividing unit and receiving the packaging boxes at different positions, and a temporary storage area for providing quantitative packaging boxes which are arranged in a rectangular array for a subsequent process, wherein the two sides of the arranging support are respectively provided with a baffle plate extending from the lane dividing area to the temporary storage area.

Further, a lane conveying belt and a lane conveying assembly arranged above the lane conveying belt are arranged at the lane region;

the lane conveying assembly comprises a pair of lane conveying plates which are distributed above the lane conveying belt in parallel, a gap for allowing a single packing box to pass through is reserved between the two lane conveying plates, the two lane conveying plates are arranged on the lane support and are driven by a first driving assembly arranged on the lane support to approach or separate from each other, and the lane conveying plates are driven by a second driving assembly to swing so as to realize the change of the positions of the feeding side and the discharging side of the lane conveying plates;

the first driving assembly comprises a lane fixing plate and a lane movable plate, wherein one lane conveying plate is arranged on the lane fixing plate through a plurality of first connecting plates, the other lane conveying plate is arranged on the lane movable plate through a plurality of second connecting plates, and the lane movable plate is driven by the first screw rod and the first screw rod nut to be close to or far from the lane fixing plate, so that the gap between the lane fixing plate and the lane movable plate is adjusted, and the gap between the two lane conveying plates is adjusted;

the second driving assembly comprises a feeding adjusting plate and a discharging adjusting plate, the feeding adjusting plate is connected with the feeding side of the lane fixing plate, the feeding adjusting plate is in sliding fit with the lane support, the feeding side of the lane conveying plate is driven to translate, the feeding adjusting plate is fixed between the lane support through the fit of bolts, the discharging adjusting plate is connected with the discharging side of the lane fixing plate, a second guide rail is further mounted on the lane support, the extending direction of the second guide rail is perpendicular to the extending direction of the whole row support, a second slider matched with the second guide rail is further mounted on the discharging adjusting plate, a second lead screw is further mounted on the lane support, the extending direction of the second lead screw is identical to the extending direction of the second guide rail, a second lead screw nut matched with the second lead screw is mounted on the second slider, the second lead screw is driven to rotate by a second motor, the lane fixing plate is driven to reciprocate along the second guide rail, and the discharging side of the lane conveying plate is driven to translate.

Further, the first material guiding plates in arc shapes are further arranged at the feed inlet of the lane conveying plate, the first material guiding plates on the two lane conveying plates are distributed in a splayed shape, and the second material guiding plates in a plurality of arc shapes are further arranged at the upper ends of the lane conveying plates.

Further, the discharging adjusting plate is movably connected with the discharging side of the lane fixing plate, and the movable connection is as follows: the upper end of the discharging side of the lane fixing plate is also provided with a first guide rail which extends along the long axis direction of the lane fixing plate, and the bottom end of the discharging adjusting plate is provided with a first slide block matched with the first guide rail.

Further, a split conveying belt and a plurality of split conveying plates which are arranged above the split conveying belt and are distributed in parallel are arranged at the split conveying area, the split conveying plates extend along the long axis direction of the whole split support, two adjacent split conveying plates are matched together to form a conveying channel, and two split conveying plates positioned at the outermost side are matched with two baffle plates to form a conveying channel respectively;

the column conveying plates are arranged on the whole column support through column supports, the column supports are sequentially arranged along the long axis direction of the whole column support, the column supports are portal frame structures formed by connecting a top plate and a pair of side plates together, and the column conveying plates are movably connected with the top plates of the column supports through the cooperation of the anchor clamps.

Further, the regional department of branch is carried still is provided with and takes the piece subassembly, take the piece subassembly including taking the piece support and installing the piece clamp plate that takes on taking the piece support, take the both sides of piece support and connect respectively on two adjacent branch's supports, take the piece clamp plate to have a plurality of, along branch's conveying plate distribution direction side by side, each take the piece clamp plate to install on taking the piece support through taking the piece linkage board, take the piece linkage board to go up and down by the piece lead screw drive who takes and install on taking the piece support, and then drive and take the piece clamp plate to be close to or keep away from branch's conveyer belt.

Further, the temporary storage area is provided with a temporary storage conveyer belt, a correction component is further arranged above the temporary storage conveyer belt, the correction component comprises a fixed correction plate and a movable correction plate which are respectively positioned on two sides of the temporary storage conveyer belt in the width direction, and the movable correction plate is driven by a correction cylinder to be close to or far away from the fixed correction plate.

Further, the upper part of the temporary storage conveyer belt is also provided with a limit baffle, and the limit baffle is driven by a third driving assembly to reciprocate along the conveying direction of the temporary storage conveyer belt.

Further, a transition conveying plate is further arranged between the split conveying area and the temporary storage area, a material pressing assembly is further arranged on the transition conveying plate, the material pressing assembly comprises a material pressing support and material pressing plates arranged on the material pressing support, two sides of the material pressing support are arranged on the whole row of supports, and the material pressing plates are driven to lift up and down by material pressing cylinders arranged on the material pressing support, so that the material pressing plates are close to or far away from the transition conveying plate.

The utility model has the advantages that: according to the packing box alignment line, through the mutual matching among the lane division area, the column division conveying area and the temporary storage area, the single-column conveyed packing boxes are automatically aligned into the multi-column distributed packing boxes, manual alignment is not needed, manual labor is reduced, and a good foundation is provided for grabbing the multi-column packing boxes for packing at one time.

The design of the first material guiding plate and the second material guiding plate is used for guiding the conveying of the packing box, so that the smooth conveying of the packing box between the two lane conveying plates is ensured.

The design of the sheet assembly utilizes the cooperation of a plurality of sheet pressing plates which are lifted up and down to play a role in compressing the sheet on the upper side of the packing box, so that the phenomenon that the sheet of the packing box is lifted up is avoided.

The design of fixed rectifying board, activity rectifying board to fixed rectifying board is the benchmark, corrects the position of the packing carton on the conveyer belt of keeping in through the removal of activity rectifying board, guarantees the fixed of packing carton position, and the convenience cooperates with the robot of follow-up process.

The design of the limit baffle on the temporary storage conveyor belt is used for limiting and positioning the tail end of the travel of the package box conveying, so that the fixing of the conveying position of the package box every time is ensured, and meanwhile, the package box is prevented from falling from being directly conveyed from the temporary storage conveyor belt.

The design of the material pressing assembly utilizes the lifting material pressing plate to be matched with the packing box, limits a plurality of rows of packing boxes conveyed from the row-by-row conveying area, controls the quantity of the packing boxes entering the temporary storage area, and is more beneficial to grabbing the plurality of rows of packing boxes subsequently.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

Fig. 1 is a schematic view of the whole column line of the packing box of the present utility model.

FIG. 2 is a schematic view of an entire rack according to the present utility model.

FIG. 3 is a schematic view of a lane departure assembly according to the present utility model.

Fig. 4 is a top view of a lane conveyor assembly in accordance with the present utility model.

FIG. 5 is a cross-sectional view A-A of FIG. 4

FIG. 6 is a schematic view of a tab assembly according to the present utility model.

FIG. 7 is a schematic diagram of a correction assembly according to the present utility model.

Fig. 8 is a schematic view of a press assembly according to the present utility model.

Description of the embodiments

The following examples will provide those skilled in the art with a more complete understanding of the present utility model and are not intended to limit the utility model to the embodiments described.

An entire array of packages as shown in figures 1-8, comprising

The whole row support 1, this whole row support 1 extends along the direction of delivery of packing carton 13, a plurality of spike 12 are installed to the bottom of whole row support 1, be used for carrying the packing carton 13 of single row to the lane region 2 of different positions along the direction of delivery of packing carton 13 on whole row support 1 in proper order, be used for carrying out the butt joint with the lane unit and receive the lane transport region 3 of different positions packing carton 13 and be used for providing quantitative, be the temporary storage region 4 of packing carton 13 that rectangular array was arranged for the later process, still be provided with respectively from the striker plate 14 that the lane region extends to the temporary storage region in whole row support 1's both sides, leave the clearance that holds many rows of packing carton and pass through between two striker plates 14.

The lane conveying belt 201 and the lane conveying assembly above the lane conveying belt 201 are arranged at the lane area 2, the lane conveying assembly comprises a pair of lane conveying plates 203 which are distributed above the lane conveying belt 201 in parallel, a gap for allowing a single packing box 13 to pass through is reserved between the two lane conveying plates 203, the two lane conveying plates 203 are arranged on a lane support 202, the lane support 202 is of a hollow cuboid frame structure formed by connecting sectional materials, side doors 204 are further arranged on two sides of the lane support 202, the side doors 204 are hinged with the lane support 202, and handles are further arranged on the side doors 204.

The feeding port of the lane conveying plate 203 is also provided with arc-shaped first material guiding plates 231, the first material guiding plates 231 on the two lane conveying plates 203 are distributed in a splayed shape, the upper end of the lane conveying plate 203 is also provided with a plurality of arc-shaped second material guiding plates 232, and the second material guiding plates 232 on the two lane conveying plates 203 are distributed in a staggered manner. The first guide plate 231 and the second guide plate 232 are designed to guide the conveyance of the package 13, so as to ensure smooth conveyance of the package 13 between the two lane conveying plates 203.

The lane conveying plate 203 is driven by a first driving assembly installed on the lane support 202 to approach or separate from each other, the first driving assembly comprises a lane fixing plate 205 and a lane movable plate 206, the lane fixing plate 205 and the lane movable plate 206 are distributed above the two lane conveying plates 203 in parallel, one lane conveying plate 203 is installed on the lane fixing plate 205 through a plurality of first connecting plates 207, the other lane conveying plate 203 is installed on the lane movable plate 206 through a plurality of second connecting plates 207, and the lane conveying plate 203 moves back and forth along with the lane movable plate 206, so that the adjustment of the distance between the two lane conveying plates 203 is realized.

The lane movable plate 206 is driven by the first lead screw 209 and the first lead screw nut 210 to approach or depart from the lane fixed plate 205, the first lead screw 209 is totally two, and is respectively positioned at two sides of the lane movable plate 206, one side of the lane fixed plate 205, which is far away from the lane movable plate 206, is also provided with a driving connecting plate 211, two sides of the first lead screw 209 are respectively connected with the lane movable plate 206 and the driving connecting plate 211 through the cooperation of a bearing and a bearing seat, the lane fixed plate 205 is also provided with a through hole for the first lead screw 209 to pass through, the first lead screw nut 210 is arranged at the through hole of the lane fixed plate 205, and the first lead screw nut 210 is driven by a motor arranged on the lane fixed plate 205 to rotate and drive the first lead screw 209 to horizontally move, so that the lane movable plate 206 approaches or departs from the lane fixed plate 205, and the adjustment of the gap between the lane movable plate 206 is realized, and the adjustment of the gap between the two lane conveying plates 203 is further realized.

A pair of first guide rods 212 are further arranged between the lane moving plate 206 and the driving connecting plate 211, through holes for allowing the first guide rods 212 to pass through are formed in the lane fixing plate 205, guide sliding seats matched with the first guide rods 212 are further arranged at the through holes of the lane fixing plate 205, and the lane moving plate 206 plays a role in guiding when the lane moving plate 206 moves horizontally by utilizing the matching of the two first guide rods 212, so that the phenomenon of deviation of the lane moving plate 206 is avoided.

The lane conveying plate 203 is driven to swing by a second driving assembly, so that the positions of the feeding side and the discharging side of the lane conveying plate 203 are changed, and the second driving assembly comprises a feeding adjusting plate 221 and a discharging adjusting plate 222.

The feeding adjusting plate 221 is connected with the feeding side of the lane fixing plate 205, the feeding adjusting plate 221 is in sliding fit with the lane support 202, and further the feeding side of the lane conveying plate 203 is driven to translate, and the feeding adjusting plate 221 is locked and fixed with the lane support 202 through the cooperation of bolts. When the device is adjusted, firstly, bolts for fixing the feeding adjusting plate 221 and the lane support 202 are loosened, then the feeding adjusting plate 221 slides along the lane support 202, so that the lane fixing plate 205 is driven to slide, the two lane conveying plates 203 are driven to translate together by the sliding of the lane fixing plate 205, after the two lane conveying plates slide in place, the feeding adjusting plate 221 is fixed by the bolts, and the adjustment of the feeding side of the lane conveying plates 203 is completed, so that the lane conveying plates 203 are matched with the previous procedure conveniently, and the device is used for butt joint conveying of packaging boxes.

The discharging adjusting plate 222 is connected with the discharging side of the lane fixing plate 205, a second guide rail 223 is further installed on the lane support 202, the extending direction of the second guide rail 223 is perpendicular to the extending direction of the whole row of supports 1, a second sliding block matched with the second guide rail 223 is further installed on the discharging adjusting plate 222, a second lead screw 224 is further installed on the lane support 202, two sides of the second lead screw 224 are installed on the lane support 202 through the matching of bearings and bearing seats, the extending direction of the second lead screw 224 is identical to the extending direction of the second guide rail 223, the second lead screw 224 is located above the second guide rail 223, a second lead screw nut matched with the second lead screw 224 is installed on the second sliding block, the second lead screw is driven to rotate by a second motor installed on the lane support 202, the lane fixing plate 205 is driven to reciprocate along the second guide rail 223, the discharging side of the lane conveying plate 203 is driven to translate, and the position of the discharging side of the lane conveying plate 203 is changed, so that the cooperation with a subsequent process is facilitated.

The discharging adjusting plate 222 is movably connected with the discharging side of the lane fixing plate 205, and the movable connection is as follows: a first guide rail 226 is further installed at the upper end of the discharging side of the lane fixing plate 205, the first guide rail 226 extends along the long axis direction of the lane fixing plate 205, and a first slider 227 matched with the first guide rail 226 is installed at the bottom end of the discharging adjusting plate 222. For the swing joint design between the ejection of compact regulating plate 222 and the ejection of compact side of lane fixed plate 205, adopt first guide rail 226 to realize with first slider 227 matched with mode to make lane fixed plate 205 can slide for ejection of compact regulating plate 222, and the feed side of lane fixed plate 205 then is fixed with feeding regulating plate 221, adopts this kind of one side fixed, one side gliding mode to make lane fixed plate 205 installation precision reduce, makes things convenient for the assembly of lane fixed plate 205.

A split conveyor 301 and a plurality of split conveyor plates 302 arranged in parallel above the split conveyor are provided in the split conveyor area 3, and the split conveyor 301 and the split conveyor 201 are an integral conveyor and are driven to operate together by a motor mounted on the whole rack 1.

The split conveying plates 302 extend along the direction of the whole row of the brackets 1, two adjacent split conveying plates 302 are matched together to form a conveying channel, and two split conveying plates 302 positioned at the outermost side are matched with two baffle plates 14 to form the conveying channel.

The split conveying plates 302 are installed on the whole row of brackets 1 through the split brackets 303, the split brackets 303 are sequentially arranged along the long axis direction of the whole row of brackets 1, the split brackets 303 are portal frame structures formed by jointly connecting a top plate and a pair of side plates, two side plates of the split brackets 303 are respectively fixed with two sides of the whole row of brackets 1 through the cooperation of bolts, the split conveying plates 302 are movably connected with the top plates of the split brackets 302 through the cooperation of the hoops 305, the hoops 305 are sleeved on the outer walls of the top plates of the split brackets 302 and can horizontally slide along the top plates of the split brackets 302, and the hoops 305 are locked with the top plates of the split brackets 302 through the cooperation of bolts and nuts. Through the sliding of the anchor ear 305 on the top plate of the split bracket 302, the split conveying plates 302 can be driven to translate, so that the interval between two adjacent split conveying plates 302 can be adjusted, and the split conveying of the packaging boxes 13 with different sizes can be conveniently realized.

The baffle plates 14 are arranged on each split bracket through the matching of the plurality of connecting rods 15, and the connecting rods 15 are movably connected with the split brackets 302 through the matching of the hoops, so that the distance between the two baffle plates 14 is adjusted through the relative movement between the connecting rods 15 and the split brackets 302 to match the split conveying of the packing boxes 13 with different sizes.

The lapping component is further arranged at the position of the split conveying area 3 and comprises a lapping support 310 and a lapping pressing plate 311 arranged on the lapping support 310, the lapping support 310 is an I-shaped support formed by jointly connecting a central plate and a pair of side plates, two sides of the lapping support 310 are respectively connected to two adjacent split supports 303, the lapping pressing plates 311 are distributed in parallel along the distribution direction of the split conveying plates 302, the lapping pressing plates 311 are arranged on the lapping support 310 through a lapping linkage plate, the lapping linkage plate is driven by a lapping lead screw 313 arranged on the lapping support 310 to lift up and down, the lapping pressing plate 311 is driven by a lapping lead screw 313 arranged on the lapping support 310 to be close to or far away from the split conveying belt 301, the bottom end of the lapping lead screw 313 is connected with a lapping linkage plate through the cooperation of a bearing, nuts matched with the lapping lead screw 313 are further arranged at the through holes of the lapping support 310, the lapping lead screw 31 is driven by a rotary hand wheel 315 to rotate, the lapping lead screw 31 is driven by a lifting guide plate to move up and down, the second guide plate 314 is further driven by a lifting guide plate 314 to move up and down, and the second guide plate 314 is further matched with the lifting guide plate 314 to the second guide plate is arranged on the second guide plate, and the second guide plate is matched with the lifting guide plate 314. The design of the sheet assembly utilizes the cooperation of a plurality of sheet pressing plates 311 which are lifted up and down to play a role in compressing the sheet on the upper side of the packing box 13, so that the phenomenon that the sheet of the packing box 13 is lifted up is avoided.

The temporary storage area 4 is provided with a temporary storage conveyer belt 401, the temporary storage conveyer belt 401 is driven by a motor arranged on the whole row of brackets 1 to work, a correction component is further arranged above the temporary storage conveyer belt 401, and the correction component comprises a fixed correction plate 403 and a movable correction plate 402 which are respectively arranged on two sides of the width direction of the temporary storage conveyer belt 401.

The fixed deviation correcting plate 403 is installed on the whole row of brackets 1 through the cooperation of the fixed brackets, the fixed brackets comprise a first bracket 404 which is vertically arranged and a second bracket 405 which is horizontally arranged, the first bracket 404 is fixed with the fixed deviation correcting plate 403, the second bracket 405 is fixed with the whole row of brackets 1, a calibration lead screw 406 is further arranged on the second bracket 405, meanwhile, a calibration lead screw nut which is matched with the calibration lead screw 406 is installed on the second bracket 405, the calibration lead screw 406 passes through the calibration lead screw nut and then is connected with the first bracket 404, the calibration lead screw 406 is movably connected with the first bracket 404 through the cooperation of bearings, the two sides of the calibration lead screw 406 are further provided with third guide rods 408, the third guide rods 408 are connected with the calibration lead screw 406 through a calibration connecting plate 407, the third guide rods 408 are fixedly connected with the calibration connecting plate 407, the calibration lead screw 406 is movably connected with the calibration connecting plate 407 through the cooperation of the bearings, and the calibration lead screw 406 is manually rotated to drive the fixed deviation correcting plate 403 to reciprocate, so that the calibration position of the fixed deviation correcting plate 403 can be adjusted according to different packaging box requirements.

The movable deviation correcting plate 402 is driven to approach or depart from the fixed deviation correcting plate 403 by a deviation correcting cylinder installed on the whole row of brackets 1. The design of fixed rectifying plate 403, activity rectifying plate 402 to fixed rectifying plate 403 is the benchmark, corrects the position of the packing carton on the conveyer belt 401 of keeping in through the removal of activity rectifying plate 402, guarantees the fixed of packing carton 13 position, and the convenience cooperates with the robot of follow-up process, realizes that the fixed point snatchs packing carton 13.

The limit baffle 410 is further disposed above the temporary storage conveyor 401, the limit baffle 410 is driven by a third driving assembly to reciprocate along the conveying direction of the temporary storage conveyor 401, and the third driving assembly is as follows: the bottom of the limit baffle 410 is mounted on a baffle seat 411, the baffle seat 411 is of a portal frame structure formed by jointly connecting a top plate and two side plates, the two side plates of the baffle seat 411 are respectively located at two sides of the width direction of the whole row of brackets 1, a limit guide 412 is further mounted on two sides of the width direction of the whole row of brackets 1 respectively, the limit guide 412 extends along the conveying direction of the packing box 2, limit sliders matched with the limit guide 412 are mounted on the side plates of the baffle seat 411, the baffle seat 411 is driven by a motor 414 mounted on the whole row of brackets 1 and a synchronous belt 413 to horizontally move along the limit guide 412, and then the limit baffle 410 is driven to horizontally move so as to limit the ends of different packing boxes 13. The design of the limit baffle 410 on the temporary storage conveyor 401 is used for limiting and positioning the travel end of the conveying process of the packing box 13, so that the fixing of the conveying position of the packing box 13 each time is ensured, and meanwhile, the packing box 13 is prevented from falling from being directly conveyed from the temporary storage conveyor 401.

A transition conveying plate 5 is further arranged between the split conveying area 3 and the temporary storage area 4, and the transition conveying plate 5 is a ball conveying plate and is used for realizing transition conveying of the packing boxes 13 between the split conveying belt 301 and the temporary storage conveying belt 401.

Still be provided with the swager assembly on transition delivery plate 5, the swager assembly includes swager support 501 and installs the pressure flitch 502 on swager support 501, swager support 501 is the portal frame structure that forms by a roof and a pair of side plates are connected jointly, two curb plates of swager support 501 are installed on whole support 1, the pressure flitch 502 is driven by the swager cylinder of installing on swager support 501 and goes up and down, thereby be close to or keep away from transition delivery plate 5, the swager cylinder is driven by the swager lead screw 503 of installing on swager support 501 and goes up and down, the cooperation between swager cylinder and the swager lead screw 503 is the same with the lift cooperation between the piece linking plate and the piece lead screw 313, just no longer adjust the upper and lower height of swager cylinder through the cooperation of swager cylinder and swager lead screw 503 in this embodiment, in order to conveniently utilize the swager 503 to compress tightly the packing carton of different co-altitude. The design of the material pressing assembly utilizes the lifting material pressing plate 503 to cooperate with the packing boxes, limits the multi-row packing boxes 13 conveyed from the row conveying area 3, controls the quantity of the packing boxes 13 entering the temporary storage area 4, and is more beneficial to grabbing the multi-row packing boxes subsequently.

Working principle: when the packing box 13 is conveyed, the single-row arranged packing boxes 13 conveyed by the first previous process enter the lane dividing area 2, the lane dividing conveyor 201 and the two lane dividing conveyor plates 203 are matched to convey the packing boxes 13, the packing boxes 13 are conveyed to different conveying channels formed by the lane dividing conveyor plates 302 at the lane dividing conveyor area 3 in a one-to-one correspondence mode through the change of the discharge side positions of the lane dividing conveyor plates 203, the packing boxes 13 in one row are divided into a plurality of rows of packing boxes 13 to be conveyed, after the rows are divided, the packing boxes 13 in each row are conveyed to the temporary storage area 4 at the same time, and after the number of the packing boxes 13 on the lane dividing conveyor belt 401 reaches the requirement, the pressing plates 502 are downwards used for pressing the packing boxes 13, the packing boxes 3 on the lane dividing conveyor belt 301 are prevented from being continuously conveyed to the temporary storage conveyor belt 401, the packing boxes 3 on the temporary storage conveyor belt 401 are rectified and positioned through the matching of the fixed rectifying plates 403 and the blocking matching of the limiting baffle plates 410, the packing boxes 3 on the temporary storage conveyor belt 401 are formed into a quantitative and rectangular array of packing boxes 13, the manual packing boxes 13 can be manually arranged at the fixed positions at the time, the manual handling requirement of the whole machine is reduced, and the manual packing box arrangement of the packing boxes 13 can be greatly reduced.

It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (9)

1. An entire line of packing carton, its characterized in that: comprising

The automatic packaging machine comprises an arranging support, a lane dividing area for conveying a single-row conveyed packaging box to different positions, a lane dividing conveying area for butting with the lane dividing unit and receiving the packaging boxes at different positions, and a temporary storage area for providing quantitative packaging boxes which are arranged in a rectangular array for a subsequent process, wherein the two sides of the arranging support are respectively provided with a baffle plate extending from the lane dividing area to the temporary storage area.

2. The package alignment of claim 1, wherein: a lane conveying belt and a lane conveying assembly arranged above the lane conveying belt are arranged at the lane region;

the lane conveying assembly comprises a pair of lane conveying plates which are distributed above the lane conveying belt in parallel, a gap for allowing a single packing box to pass through is reserved between the two lane conveying plates, the two lane conveying plates are arranged on the lane support and are driven by a first driving assembly arranged on the lane support to approach or separate from each other, and the lane conveying plates are driven by a second driving assembly to swing so as to realize the change of the positions of the feeding side and the discharging side of the lane conveying plates;

the first driving assembly comprises a lane fixing plate and a lane movable plate, wherein one lane conveying plate is arranged on the lane fixing plate through a plurality of first connecting plates, the other lane conveying plate is arranged on the lane movable plate through a plurality of second connecting plates, and the lane movable plate is driven by the first screw rod and the first screw rod nut to be close to or far from the lane fixing plate, so that the gap between the lane fixing plate and the lane movable plate is adjusted, and the gap between the two lane conveying plates is adjusted;

the second driving assembly comprises a feeding adjusting plate and a discharging adjusting plate, the feeding adjusting plate is connected with the feeding side of the lane fixing plate, the feeding adjusting plate is in sliding fit with the lane support, the feeding side of the lane conveying plate is driven to translate, the feeding adjusting plate is fixed between the lane support through the fit of bolts, the discharging adjusting plate is connected with the discharging side of the lane fixing plate, a second guide rail is further mounted on the lane support, the extending direction of the second guide rail is perpendicular to the extending direction of the whole row support, a second slider matched with the second guide rail is further mounted on the discharging adjusting plate, a second lead screw is further mounted on the lane support, the extending direction of the second lead screw is identical to the extending direction of the second guide rail, a second lead screw nut matched with the second lead screw is mounted on the second slider, the second lead screw is driven to rotate by a second motor, the lane fixing plate is driven to reciprocate along the second guide rail, and the discharging side of the lane conveying plate is driven to translate.

3. The package alignment of claim 2, wherein: the feeding hole of the lane conveying plate is also provided with arc-shaped first material guide plates, the first material guide plates on the two lane conveying plates are distributed in a splayed shape, and the upper ends of the lane conveying plates are also provided with a plurality of arc-shaped second material guide plates.

4. The package alignment of claim 2, wherein: the discharging adjusting plate is movably connected with the discharging side of the lane fixing plate, and the movable connection is as follows: the upper end of the discharging side of the lane fixing plate is also provided with a first guide rail which extends along the long axis direction of the lane fixing plate, and the bottom end of the discharging adjusting plate is provided with a first slide block matched with the first guide rail.

5. The package alignment of claim 1, wherein: a split conveying belt and a plurality of split conveying plates which are arranged above the split conveying belt and are distributed in parallel are arranged at the split conveying area, the split conveying plates extend along the long axis direction of the whole bracket, two adjacent split conveying plates are matched together to form a conveying channel, and two split conveying plates positioned at the outermost side are matched with two baffle plates respectively to form the conveying channel;

the column conveying plates are arranged on the whole column support through column supports, the column supports are sequentially arranged along the long axis direction of the whole column support, the column supports are portal frame structures formed by connecting a top plate and a pair of side plates together, and the column conveying plates are movably connected with the top plates of the column supports through the cooperation of the anchor clamps.

6. The package alignment of claim 5, wherein: the sheet conveying device is characterized in that a sheet-lapping component is further arranged at the position of the separate conveying area and comprises a sheet-lapping support and sheet-lapping pressing plates arranged on the sheet-lapping support, two sides of the sheet-lapping support are respectively connected to two adjacent separate supports, the plurality of sheet-lapping pressing plates are distributed in parallel along the distribution direction of the separate conveying plates, each sheet-lapping pressing plate is arranged on the sheet-lapping support through a sheet-lapping linkage plate, and the sheet-lapping linkage plate is driven by a sheet-lapping screw rod arranged on the sheet-lapping support to lift up and down so as to drive the sheet-lapping pressing plates to be close to or far away from the separate conveying belt.

7. The package alignment of claim 1, wherein: the temporary storage area is provided with a temporary storage conveyer belt, a correction assembly is further arranged above the temporary storage conveyer belt, the correction assembly comprises a fixed correction plate and a movable correction plate which are respectively positioned on two sides of the temporary storage conveyer belt in the width direction, and the movable correction plate is driven by a correction cylinder to be close to or far away from the fixed correction plate.

8. The package alignment of claim 7, wherein: and a limit baffle is further arranged above the temporary storage conveyor belt, and the limit baffle is driven by a third driving assembly to reciprocate along the conveying direction of the temporary storage conveyor belt.

9. The package alignment of claim 1, wherein: still be provided with the transition delivery board between branch line delivery area and the temporary storage area, still be provided with the swager subassembly on the transition delivery board, the swager subassembly includes the swager support and installs the swager on the swager support, and the both sides of swager support are installed on whole line support, the swager is driven by the swager cylinder of installing on the swager support and is gone up and down to be close to or keep away from the transition delivery board.