CN219619482U - Quick type large plate packaging machine - Google Patents

Abstract

The utility model discloses a rapid large-plate packaging machine which comprises a brick feeding mechanism, a paper sheet conveyor, a wrap angle mechanism, a paper folding mechanism, a brick conveying mechanism, a brick receiving and placing mechanism, a brick separating device and a paper sheet conveyor, wherein the brick feeding mechanism, the paper sheet conveyor, the wrap angle mechanism and the paper folding mechanism are sequentially arranged on a machine base; the quick type large plate packaging machine is provided with the brick receiving and releasing mechanism matched with the brick conveying mechanism to finish the action of releasing the brick bags to the leatheroid, so that even if the brick conveying mechanism clamps the bricks of more than two brick bags, the brick bags can be correspondingly stacked on the corresponding leatheroid conveyed by the leatheroid conveyor, the quantity of the brick bags conveyed by each action of the brick conveying mechanism is increased, the paper feeding speed of the paper feeding mechanism and the speed of conveying the leatheroid by the leatheroid conveyor are not influenced even if the brick conveying mechanism is reset, the speed of subsequent ceramic tile packaging is further increased, and the efficiency of ceramic tile production and packaging is improved.

Description

Quick type large plate packaging machine

Technical Field

The utility model relates to the technical field of ceramic tile packaging equipment, in particular to a rapid large-plate packaging machine.

Background

The automatic ceramic tile packaging equipment replaces manual operation, the automatic production mode can greatly improve the processing efficiency of ceramic tile packaging, and is applicable to ceramic tile packaging work of large specifications, the existing large plate packaging equipment moves the ceramic tile packages from a ceramic tile feeding mechanism to a conveying mechanism through a ceramic tile feeding mechanism, paper sheets are conveyed to the conveying mechanism through a paper feeding mechanism, and actions of lowering the ceramic tile packages to the paper sheets are completed through the ceramic tile feeding mechanism alone, so that if the ceramic tile feeding mechanism clamps more than two ceramic tile packages, the ceramic tile packages cannot be correspondingly stacked on the corresponding paper sheets conveyed by the conveying mechanism, the ceramic tile feeding mechanism can only convey ceramic tiles with the quantity of single ceramic tile packages each time, the ceramic tile feeding mechanism resets the ceramic tile after the paper sheets, the paper feeding speed of the paper feeding mechanism and the speed of the paper sheet conveying mechanism can be influenced by the ceramic tile with the next ceramic tile package clamped, and further the speed of the subsequent ceramic tile packaging is slowed down, and the production and processing efficiency of the ceramic tile is lowered.

Disclosure of Invention

In order to solve the technical problems, the utility model provides the rapid large-plate packaging machine, which is provided with the brick receiving and discharging mechanism matched with the brick conveying mechanism to finish the action of discharging the brick bags to the leathers, so that even if the brick conveying mechanism clamps more than two bricks, the bricks can be correspondingly stacked on the corresponding leathers conveyed by the leathers conveyer, the quantity of the bricks conveyed by the brick conveying mechanism each time is increased, the paper feeding speed of the paper feeding mechanism and the leathers conveying speed of the leathers conveyer are not influenced even if the brick conveying mechanism is reset, the speed of subsequent ceramic tile packaging is further increased, and the efficiency of ceramic tile production and processing is improved.

The utility model provides a quick big board packagine machine, includes install last brick mechanism, leatheroid conveyer, corner wrapping mechanism, safe edge mechanism and paper folding mechanism and the setting on the frame in proper order go up brick mechanism and leatheroid conveyer top fortune brick mechanism and connect and put brick mechanism, it is provided with and is used for separating two or more brick bordures and fold the branch brick ware in proper order along vertical direction to go up brick mechanism, one side of frame with the leatheroid conveyer is adjacent to be provided with upward paper mechanism, and the position of leatheroid conveyer is provided with paper feeder and leatheroid lifter, just paper feeder carries the leatheroid of going up paper mechanism to on the leatheroid conveyer and by the leatheroid lifter jack-up, fortune brick mechanism follows go up brick mechanism centre gripping two or more brick bordures and carries to the leatheroid conveyer, just connect brick mechanism cooperation fortune brick bordures respectively down to corresponding leatheroid upper, and by corner wrapping mechanism to the safe edge protector, and the conveyer is carried the safe edge to the safe edge, and the safe edge is carried to the safe edge lifter to the safe edge, the safe edge has the safe edge protector to the conveyer to the safe edge, the safe edge protector is carried to the safe edge lifter, and the safe edge protector.

Preferably, the brick feeding mechanism comprises a brick feeding conveyor and a brick package centering device, the brick feeding conveyor is mounted on the base, the brick package centering device comprises a front upper centering device, a front lower centering device and a rear centering device, the front upper centering device and the front lower centering device are arranged at the front end position of the brick feeding conveyor, the front upper centering device is located above the front lower centering device, and the rear centering device is arranged at the tail end position of the brick feeding conveyor.

Preferably, the brick distributor comprises a brick clamping device, a jacking plate and a plurality of upper brick jacking cylinders, wherein the brick clamping devices are oppositely arranged at the left side and the right side of the upper brick conveyor, a plurality of chucks are arranged on the brick clamping device, the upper brick jacking cylinders are sequentially connected in the vertical direction, and the output end of the uppermost upper brick jacking cylinder is connected with the jacking plate and can drive the jacking plate to jack up a brick package.

Preferably, the brick conveying mechanism comprises a brick conveying conveyer, a brick conveying lifter and a brick conveying clamp hand, wherein the brick conveying lifter is in sliding connection with the brick conveying conveyer, and the brick conveying clamp hand is connected with the brick conveying lifter.

Preferably, the brick transporting clamp hand comprises a horizontal frame, sliding seats and clamping jaws, wherein the horizontal frame is connected with the brick transporting lifter, the two sliding seats are in sliding connection with the horizontal frame, the two sliding seats can be driven by a screw rod adjusting mechanism to move oppositely or oppositely on the horizontal frame, the two clamping jaws are correspondingly arranged on the two sliding seats, and a plurality of clamping blocks are arranged on opposite sides of the two clamping jaws along the vertical direction.

Preferably, the plurality of brick receiving and releasing mechanisms are oppositely arranged at the left side and the right side of the brick conveying device, each brick receiving and releasing mechanism comprises a brick receiving and releasing lifter and a brick receiving and releasing clamping hand, and the brick receiving and releasing clamping hand is connected with the brick receiving and releasing lifter.

Preferably, the brick receiving and placing clamp comprises a brick receiving and placing clamp plate and a brick receiving and placing telescopic device, wherein the brick receiving and placing clamp plate is in sliding connection with the brick receiving and placing lifter, and the brick receiving and placing telescopic device is arranged on the brick receiving and placing lifter and is connected with the brick receiving and placing clamp plate.

Preferably, the paper feeding mechanism comprises a paper storage bin and a paper lifting device, the paper lifting device is arranged on the top surface of the paper storage bin and lifts paper sheets in the paper storage bin, one side of the paper storage bin, which faces the machine base, is provided with a paper sheet frame extending to the paper feeder, the paper feeder comprises a paper sheet feeding frame and a paper sheet clamping hand, the paper sheet feeding frame is arranged above the paper sheet feeder, the paper sheet clamping hand is in sliding connection with the paper sheet feeding frame and conveys the paper sheets in the paper storage bin onto the paper sheet feeder, the paper sheet lifting device comprises a paper sheet pushing plate and a paper pushing cylinder, and the paper pushing cylinder is connected with the paper sheet pushing plate and can drive the paper sheet pushing plate to extend upwards from the paper sheet feeder.

Preferably, the corner wrapping mechanism comprises a plurality of upper corner wrapping devices and upper corner wrapping lifters, the upper corner wrapping devices are oppositely arranged on the machine base, and the upper corner wrapping lifters are arranged at positions between the upper corner wrapping devices in the opposite direction and can jack paper sheets and brick bags so that the upper corner wrapping devices can place corners on the brick bags.

Preferably, the edge protection mechanism further comprises a gantry bracket, the gantry bracket is fixed above the upper wrap angle lifter, two edge protection bins are arranged on the top surface of the gantry bracket in a back-to-back mode, the top surface of the gantry bracket is provided with a limiting plate adjacent to the edge protection bins, the output end of the edge protection conveyor is provided with a conveying plate propping against the discharge hole of the edge protection bins, one side of the conveying plate, facing the discharge hole of the edge protection bins, is provided with a notch, and can be matched with the limiting plate to position the edge protection, the position of the edge protection lifter corresponding to the limiting plate is arranged on the top surface of the gantry bracket, the top surface of the gantry bracket is provided with an opening below the edge protection feeder, and the bottom surface of the edge protection feeder is provided with a material plate.

The beneficial effects of the utility model are as follows: this quick big board packagine machine passes through last brick mechanism, leatheroid conveyer, fortune brick mechanism and connects and put the brick mechanism mutually support for connect and put the brick mechanism and can cooperate fortune brick mechanism centre gripping brick package, fortune brick mechanism alright centre gripping more than two brick package's ceramic tile like this, improved fortune brick mechanism at every turn action and carried brick package quantity, and at fortune brick mechanism clearance that resets, accomplish the action of putting down the brick package to the corresponding leatheroid that the leatheroid conveyer carried by connecion putting the brick mechanism, avoid influencing the speed of going up paper of going up the paper mechanism and the speed that the leatheroid conveyer carried the leatheroid, and then accelerate the speed of follow-up ceramic tile packing, and improve the efficiency of ceramic tile production and processing.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an enlarged view of part of A in FIG. 1;

FIG. 3 is a schematic diagram of the upper brick mechanism structure in the utility model;

FIG. 4 is a schematic diagram of a brick conveying mechanism in the utility model;

FIG. 5 is an enlarged view of part B of FIG. 1;

FIG. 6 is an enlarged view of part of C in FIG. 1;

FIG. 7 is an enlarged view of part of D of FIG. 1;

FIG. 8 is a schematic diagram of a guard mechanism according to the present utility model;

FIG. 9 is a top view of the edge guard mechanism of the present utility model;

FIG. 10 is an enlarged view of part F of FIG. 9;

fig. 11 is a partial enlarged view of E in fig. 1.

In the figure: 1 brick feeding mechanism, 2 paper sheet conveyor, 3 wrap angle mechanism, 4 edge protection mechanism, 5 paper folding mechanism, 6 brick conveying mechanism, 7 brick receiving and releasing mechanism, 8 paper feeding mechanism, 9 paper feeder, 10 paper sheet lifter, 11 edge protection bin, 12 edge protection conveyor, 13 edge protection lifter, 131 edge protection feeder, 14 upper brick conveyor, 15 brick package centering device, 16 front upper centering device, 17 front lower centering device, 18 rear centering device, 19 brick clamping device, 20 jacking plate, 21 upper brick jacking cylinder, 22 brick conveying conveyor, 23 brick conveying lifter, 24 brick conveying clamping hand, and 25 horizontal frames, 26 sliding seats, 27 clamping jaws, 28 clamping blocks, 29 receiving brick lifters, 30 receiving brick clamping hands, 31 receiving brick clamping plates, 32 receiving brick retractors, 33 paper storage bins, 34 paper lifting devices, 35 paper feeding frames, 36 paper jacking plates, 37 paper jacking cylinders, 38 corner wrapping devices, 39 corner wrapping jacking devices, 40 corner wrapping bins, 41 corner wrapping material taking cylinders, 42 corner wrapping material feeding cylinders, 43 linkage seats, 44 gantry brackets, 45 limiting plates, 46 conveying plates, 47 notches, 48 openings, 49 material plates, 50 first paper edge turnover devices and 51 second paper edge turnover devices.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical ideas claimed in the present utility model.

As shown in fig. 1 to 11, a quick large plate packaging machine comprises an upper brick mechanism 1, a paper sheet conveyer 2, a wrap angle mechanism 3, a paper sheet conveyer 4 and a paper sheet lifter 5 which are sequentially installed on a machine base, and a brick conveying mechanism 6 and a brick receiving and placing mechanism 7 which are arranged above the upper brick mechanism 1 and the paper sheet conveyer 2, wherein the upper brick mechanism 1 is provided with a brick separating device for separating more than two brick wraps and sequentially stacking the two brick wraps along the vertical direction, one side of the machine base is provided with the upper paper sheet conveyer 8 adjacent to the paper sheet conveyer 2, the paper sheet conveyer 9 and the paper sheet lifter 10 are arranged at the position of the paper sheet conveyer 2, the paper sheet conveyer 9 conveys paper sheets of the upper paper sheet mechanism 8 to the paper sheet conveyer 2 and is jacked by the paper sheet lifter 10, the brick conveying mechanism 6 clamps two or more brick wrappers and conveys the paper sheet conveyer 2 from the upper brick conveying mechanism 1, the brick receiving and placing mechanism 7 is matched with the brick receiving and placing mechanism 6 to the paper sheet conveyer 131, the paper sheet conveyer 131 can be arranged at the position of the paper sheet conveyer 13 and the paper sheet conveyer 131, and the paper sheet conveyer 13 can be lifted and the paper sheet conveyer 13.

The working principle of the rapid large plate packaging machine is realized by mutually matching an upper brick mechanism 1, a paper sheet conveyer 2, a brick conveying mechanism 6 and a brick receiving and placing mechanism 7, as shown in figures 1 to 8, brick bags are sequentially input into a brick separator of the upper brick mechanism 1, are separated by the brick separator and are sequentially stacked along the vertical direction, the brick separator is exemplified by sequentially stacking two brick bags, paper sheets are stacked on the upper paper mechanism 8, a paper sheet is clamped by a paper feeder 9 and conveyed onto the paper sheet conveyer 2, the paper sheets are jacked by the paper sheet lifter 10, the two stacked brick bags are clamped by the brick conveying mechanism 6 from the upper brick mechanism 1 and conveyed to the upper part of the paper sheet lifter 10, at the moment, the brick bags positioned below are placed on the paper sheets jacked by the paper sheet lifter 10, the brick receiving and placing mechanism 7 clamps the brick bags positioned above, then the two brick conveying mechanisms 6 are loosened and reset, the paper sheet lifter 10 resets to make the paper sheet stacked with the brick bags fall on the paper sheet conveyor 2, the paper sheet conveyor 2 conveys the brick bags and the paper sheet to the wrap angle mechanism 3, the paper feeder 9 continuously clamps the next paper sheet to the paper sheet conveyor 2, the paper sheet lifter 10 jacks up the paper sheet again, the brick receiving and placing mechanism 7 lowers the clamped brick bags onto the paper sheet jacked by the paper sheet lifter 10, then the brick receiving and placing mechanism 7 loosens the brick bags and resets, the paper sheet lifter 10 resets again to make the paper sheet stacked with the brick bags fall on the paper sheet conveyor 2, the two brick bags are correspondingly placed on the two paper sheets of the paper sheet conveyor 2 by the circulation, in addition, the brick receiving and placing mechanism 7 is positioned above the paper sheet conveyor 2, not only can reduce the occupied space on a machine base, but also can avoid influencing the paper sheet conveyor 9 to convey the paper sheet of the upper paper mechanism 8 to the paper sheet conveyor 2, further shorten leatheroid and brick package conveying distance and complete machine length to accelerate the conveying speed of leatheroid and brick package, and make complete machine structure compacter, angle bead mechanism 3 is to the last angle bead of ceramic tile of stacking on the leatheroid, wait that the brick package on the leatheroid is carried to safe edge mechanism 4, safe edge conveyer 12 removes the safe edge of safe edge storehouse 11 output to safe edge feeder 131's position, safe edge riser 13 drives safe edge feeder 131 and safe edge and moves down to the position of brick package level, safe edge feeder 131 pushes away the safe edge to the brick package, and then place the safe edge to the brick package on the leatheroid, finally turn over the leatheroid and wrap up the ceramic tile through paper folding mechanism 5, accomplish ceramic tile packing work, compare with traditional packagine machine, this quick type large plate packagine machine has improved fortune brick mechanism 6 at every action and carried the brick package quantity, and at fortune brick mechanism 6 clearance that resets, accomplish the action of the corresponding leatheroid of putting down brick package to leatheroid conveyer 2 by receiving brick mechanism 7, avoid influencing the upper paper speed of paper mechanism 8 and the upper leatheroid conveyer 2, and the subsequent production efficiency of ceramic tile is improved, and the subsequent processing speed of ceramic tile is further improved.

In a specific structure of the upper brick mechanism 1, the upper brick mechanism 1 comprises an upper brick conveyer 14 and a brick package centering device 15, the upper brick conveyer 14 is mounted on the base, the brick package centering device 15 comprises a front upper centering device 16, a front lower centering device 17 and a rear centering device 18, the front upper centering device 16 and the front lower centering device 17 are arranged at the front end position of the upper brick conveyer 14, the front upper centering device 16 is positioned above the front lower centering device 17, the rear centering device 18 is arranged at the tail end position of the upper brick conveyer 14, as shown in fig. 2, the front upper centering device 16 and the rear centering device 18 can adopt a structure that a centering telescopic cylinder drives a centering plate to extend to position a brick package, the front lower centering device 17 can adopt a structure that a centering telescopic cylinder drives a centering frame to swing to position the brick package, so that the front upper centering device 16 and the rear centering device 18 cooperate to position a first brick package vertically stacked from top to bottom, and the front lower centering device 17 and the rear centering device 18 cooperate to position a second brick package vertically stacked from top to bottom.

In the concrete structure of the brick separating device, the brick separating device comprises a brick clamping device 19, a jacking plate 20 and a plurality of upper brick jacking air cylinders 21, wherein a plurality of brick clamping devices 19 are oppositely arranged on the left side and the right side of the upper brick jacking air cylinders 14, a plurality of clamping heads are arranged on the brick clamping device 19, the plurality of upper brick jacking air cylinders 21 are sequentially connected in the vertical direction, the output end of the upper brick jacking air cylinder 21 positioned at the uppermost part is connected with the jacking plate 20 and can drive the jacking plate 20 to jack up brick bags, as shown in fig. 2 and 3, the upper brick conveyor 14 adopts a conveying structure with a belt pulley and a belt, a first brick bag moves above the upper brick jacking air cylinders 21 along the upper brick conveyor 14, the upper brick jacking air cylinders 21 are exemplified by two, the clamping heads of the brick clamping device 19 are exemplified by two, the clamping heads can adopt a structure for clamping the telescopic air cylinders to drive the clamping heads to stretch out and clamp the brick bags, the upper brick jacking cylinder 21 positioned below drives the brick feeding jacking cylinder positioned above and the jacking plate 20 to move to the clamping head position positioned at the upper part of the brick clamping device 19, the clamping head positioned at the upper part of the brick clamping device 19 clamps the brick bags, the front upper centralizer 16 and the rear centralizer 18 are matched for carrying out centering treatment and resetting on the brick bags, then the upper brick jacking cylinder 21 positioned below is reset, the second brick bags are moved to the upper part of the upper brick jacking cylinder 21 along the upper brick conveyor 14, the upper brick jacking cylinder 21 positioned above drives the jacking plate 20 to move to the clamping head position positioned at the lower part of the brick clamping device 19, the clamping head positioned at the lower part of the brick clamping device 19 clamps the brick bags, the front lower centralizer 17 and the rear centralizer 18 are matched for carrying out centering treatment and resetting on the brick bags, the two brick bags are arranged separately along the vertical direction, the centering treatment is carried out independently, the upper brick jacking cylinder 21 is enabled to jack up the brick bags and reset faster, thereby improving the brick feeding speed and the working efficiency.

On the concrete structure of fortune brick mechanism 6, fortune brick mechanism 6 includes fortune brick conveyer 22, fortune brick riser 23 and fortune brick tong 24, fortune brick riser 23 with fortune brick conveyer 22 sliding connection, just fortune brick tong 24 with fortune brick riser 23 is connected, on fortune brick tong 24's concrete structure, fortune brick tong 24 includes horizontal frame 25, slide 26 and clamping jaw 27, horizontal frame 25 with fortune brick riser 23 connects, two slide 26 with horizontal frame 25 sliding connection, and two slide 26 accessible screw adjustment mechanism drive is in make opposite directions or is separated from on horizontal frame 25, two clamping jaw 27 corresponds to be set up two on slide 26, and two one side that the 27 is in opposite directions is provided with a plurality of clamp blocks 28, as shown in fig. 4, fortune brick conveyer 22 adopts belt pulley and belt matched with conveying structure, fortune brick riser 23 adopts lift driving motor to pass through gear lifting motor and cooperation rack carrier 22 to be connected, two clamp blocks that the clamp jaw 23 is in order to change the same between the two clamp blocks that the clamping jaw 23 is moved to the cylinder specification, can be used for the clamp block 23 to the clamp the two and the clamp block is moved to two clamp blocks 27 along the same, and the clamp block is moved to two clamp blocks 23 along the two and is moved to the clamp jaw 23 of the cylinder between the two clamp blocks 23.

On the concrete structure of the brick receiving and placing mechanism 7, a plurality of brick receiving and placing mechanisms 7 are oppositely arranged at the left side and the right side of the brick conveying device 22, the brick receiving and placing mechanism 7 comprises a brick receiving and placing lifter 29 and brick receiving and placing clamping hands 30, the brick receiving and placing clamping hands 30 are connected with the brick receiving and placing lifter 29, the brick receiving and placing clamping hands 30 comprise brick receiving and placing clamping plates 31 and brick receiving and placing telescopic devices 32, the brick receiving and placing clamping plates 31 are in sliding connection with the brick receiving and placing lifter 29, the brick receiving and placing telescopic devices 32 are arranged on the brick receiving and placing lifting plates 29 and are connected with the brick receiving and placing clamping plates 31, as shown in fig. 5, the distance between the brick receiving and placing clamping hands 30 can be changed by adopting a structure that an adjusting hand wheel is connected with the brick receiving and placing clamping hands 29, the brick receiving and placing clamping device is suitable for clamping bricks with different specifications, the brick receiving and placing clamping hands 29 adopt a brick receiving and placing lifting cylinder, and driving the brick receiving and placing clamping hands 30 to move along the vertical direction, and the brick receiving and placing clamping telescopic devices 30 are driven by adopting a brick receiving and placing clamping cylinder 30 to be stacked by the brick receiving and placing clamping hands 30.

On the concrete structure of the paper feeding mechanism 8, the paper feeding mechanism 8 comprises a paper storage bin 33 and a paper lifting device 34, the paper lifting device 34 is arranged on the concrete structure of the paper feeding mechanism 9, the paper storage bin 33 is arranged on the top surface of the paper storage bin 33 and lifts the paper sheet in the paper storage bin 33, a paper sheet frame extending to the paper feeding device 9 is arranged on one side of the paper storage bin 33 facing the machine base, as shown in fig. 5, the paper lifting device 34 lifts the paper sheet in the paper storage bin 33 to the height parallel to the paper feeding device 9, the paper feeding device 9 moves to the paper sheet position on the paper lifting device 34 and clamps the paper sheet to the paper sheet conveyor 2, the paper sheet lifting device 9 comprises a paper feeding frame 35 and a paper sheet clamp (not shown in the drawing), the paper sheet clamp 35 is arranged above the paper sheet conveyor 2, the paper sheet clamp 35 is connected with the paper sheet clamp 35 in a sliding manner and conveys the paper sheet of the paper storage bin 9 to the paper sheet conveyor 2, as shown in fig. 5, the paper sheet lifting device 35 can be lifted to the paper sheet lifting device 9 by a belt pulley 35 and a paper sheet lifting cylinder 37, the paper sheet clamp 37 is driven by a paper sheet clamp 37, the paper clamp is driven by a paper sheet cylinder 37, the paper sheet clamp 37 is driven by a paper sheet clamp 37, and the paper sheet clamp is driven by a paper sheet cylinder 37, and the paper clamp 37 is driven to be stacked on the paper sheet lifting device, and the paper sheet is driven to the paper sheet carrier 2, and is stacked on the paper sheet carrier 2, and is driven to the paper sheet carrier 37.

In the concrete structure of the corner wrapping mechanism 3, the corner wrapping mechanism 3 comprises a plurality of upper corner wrapping devices 38 and upper corner wrapping lifters 39, the upper corner wrapping devices 38 are oppositely arranged on the base 1, the upper corner wrapping lifters 39 are arranged at positions between the opposite upper corner wrapping devices 38 and can lift paper sheets and brick wraps so that the upper corner wrapping devices 38 place corner wrapping on the brick wraps, as shown in fig. 6 and 7, four upper corner wrapping devices 38 are oppositely arranged on the base 1, the upper corner wrapping lifters 39 lift the paper sheets and the brick wraps by adopting lifting cylinders, the upper corner packer 38 is of a common ceramic tile upper corner packer structure, the upper corner packer 38 comprises a corner packer 40, a corner packer taking cylinder 41 and a corner packer feeding cylinder 42, a linkage seat 43 is hinged to the machine base, the output end of the corner packer taking cylinder 41 is hinged to the linkage seat 43, the corner packer feeding cylinder 42 is mounted on the linkage seat 43, and the corner packer taking cylinder 41 swings the corner packer feeding cylinder 42 through the linkage seat 43, so that the output end of the corner packer feeding cylinder 42 takes out a corner from the corner packer 40 and conveys the corner to a brick packing position on a paper wrapper, and then places the corner to the top corner position of the brick packing.

On the concrete structure of safe edge mechanism 4, safe edge mechanism 4 still includes longmen support 44, longmen support 44 is fixed go up the top of borduring jacking ware 39, two safe edge storehouse 11 sets up in opposite directions the top surface of longmen support 44, and the top surface of longmen support 44 is provided with the limiting plate 45 adjacent with safe edge storehouse 11, the output of safe edge conveyer 12 is provided with the butt and is in the delivery plate 46 of the discharge gate of safe edge storehouse 11, and one side of delivery plate 46 towards the discharge gate of safe edge storehouse 11 is provided with notch 47 to accessible notch 47 and limiting plate 45 cooperation location safe edge, safe edge riser 13 corresponds limiting plate 45's position sets up the top surface of longmen support 44 the top surface of safe edge feeder 131 is provided with opening 48, and the bottom surface of safe edge feeder 131 is provided with flitch 49, and safe edge mechanism 4 is arranged in the position between two upper shroud connectors 38 of frame 1 side, and is shown as figure 8 to 10 for the L structure, and the top surface protector 46 that takes place at the position of safe edge protector 12 and the delivery plate 46, and the vertical flange carrier position that adopts notch 47 to take place to drive the carrier position of safe edge protector 12 to take place at the notch 46, and the position of safe edge carrier 13, and the lift edge protector 13 to take place the position of safe edge protector, and the position carrier edge protector 46 to take place to the position the notch 47, and the position of safe edge protector 13.

In a specific structure of the paper folding mechanism, the paper folding mechanism comprises a first paper edge turner 50 and a second paper edge turner 51, the two first paper edge turners 50 are arranged at the left side and the right side of the machine base, the two second paper edge turners 51 are arranged on the machine base and between the two first paper edge turners 50, as shown in fig. 11, the first paper edge turner 50 turns up the paper edges at the left side and the right side of the paper sheet, the second paper edge turner 51 turns up the paper edges at the front side and the rear side of the paper sheet, and the packing work of brick wrapping is completed, and the first paper edge turner 50 and the second paper edge turner 51 are common paper folding devices, so that no specific description is made.

The foregoing description is only specific embodiments of the present utility model, and not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present utility model or directly or indirectly applied to other related technical fields are included in the scope of the present utility model.

Claims (10)

1. A quick big board packagine machine which characterized in that: including installing last brick mechanism, leatheroid conveyer, cornerite mechanism, safe edge mechanism and the paper folding mechanism and the setting of going up brick mechanism and leatheroid conveyer top in proper order the fortune brick mechanism and receiving and putting brick mechanism, it separates and stacks the branch brick ware on in proper order along vertical direction to go up brick mechanism to be provided with being used for two more bricks bordures, one side of frame with the leatheroid conveyer is adjacent to be provided with upward paper mechanism, and be in the position of leatheroid conveyer is provided with paper feeder and leatheroid lifter, just paper feeder carry upward the leatheroid of paper feeding mechanism to on the leatheroid conveyer and by the leatheroid lifter jack-up, fortune brick mechanism follows go up brick mechanism centre gripping two more bricks bordures and carry to the leatheroid conveyer, just receiving and putting brick mechanism cooperation brick bordures respectively down to corresponding leatheroid, and by the safe edge mechanism places the bordure on to the leatheroid, and is in the safe edge, and be provided with the safe edge conveyer to the safe edge, the safe edge conveyer is including feeder, the safe edge conveyer with the safe edge, the safe edge has the safe edge protector to be carried to the delivery position to the conveyer, and be provided with the safe edge lifter, and the safe edge lifter is in the safe edge lifter.

2. A rapid bulk packaging machine according to claim 1, wherein: the brick loading mechanism comprises a brick loading conveyor and a brick package centering device, the brick loading conveyor is arranged on the machine base, the brick package centering device comprises a front upper centering device, a front lower centering device and a rear centering device, the front upper centering device and the front lower centering device are arranged at the front end position of the brick loading conveyor, the front upper centering device is arranged above the front lower centering device, and the rear centering device is arranged at the tail end position of the brick loading conveyor.

3. A rapid bulk packaging machine as claimed in claim 2, wherein: the brick distributor comprises a brick clamping device, a jacking plate and a plurality of upper brick jacking cylinders, wherein the brick clamping devices are oppositely arranged on the left side and the right side of the upper brick conveyor, a plurality of clamping heads are arranged on the brick clamping device, the upper brick jacking cylinders are sequentially connected in the vertical direction, and the output end of the uppermost upper brick jacking cylinder is connected with the jacking plate and can drive the jacking plate to jack up a brick package.

4. A rapid bulk packaging machine according to claim 1, wherein: the brick conveying mechanism comprises a brick conveying conveyer, a brick conveying lifter and a brick conveying clamp hand, wherein the brick conveying lifter is in sliding connection with the brick conveying conveyer, and the brick conveying clamp hand is connected with the brick conveying lifter.

5. The rapid bulk packaging machine of claim 4, wherein: the brick conveying clamp hand comprises a horizontal frame, sliding seats and clamping jaws, wherein the horizontal frame is connected with a brick conveying lifter, the sliding seats are connected with the horizontal frame in a sliding mode, the sliding seats can be driven by a screw rod adjusting mechanism to move in opposite directions or in opposite directions on the horizontal frame, the clamping jaws are correspondingly arranged on the sliding seats, and a plurality of clamping blocks are arranged on opposite sides of the clamping jaws in the vertical direction.

6. The rapid bulk packaging machine of claim 4, wherein: the brick receiving and placing mechanisms are oppositely arranged at the left side and the right side of the brick conveying conveyor, and comprise a brick receiving and placing lifter and a brick receiving and placing clamping hand, and the brick receiving and placing clamping hand is connected with the brick receiving and placing lifter.

7. The rapid bulk packaging machine of claim 6, wherein: the receiving brick clamp comprises a receiving brick clamp plate and a receiving brick telescopic device, wherein the receiving brick clamp plate is in sliding connection with the receiving brick lifter, and the receiving brick telescopic device is arranged on the receiving brick lifter and connected with the receiving brick clamp plate.

8. A rapid bulk packaging machine according to claim 1, wherein: the paper feeding mechanism comprises a paper storage bin and a paper lifting device, the paper lifting device is arranged on the top surface of the paper storage bin and lifts paper sheets in the paper storage bin, one side of the paper storage bin, which faces the machine base, is provided with a paper sheet frame extending to the paper feeding device, the paper feeding device comprises a paper feeding frame and a paper sheet clamping hand, the paper feeding frame is arranged above the paper sheet feeding device, the paper sheet clamping hand is in sliding connection with the paper feeding frame and conveys paper sheets in the paper storage bin onto the paper sheet feeding device, the paper sheet lifting device comprises a paper sheet pushing plate and a paper pushing cylinder, and the paper pushing cylinder is connected with the paper sheet pushing plate and can drive the paper sheet pushing plate to extend upwards from the paper sheet feeding device.

9. A rapid bulk packaging machine according to claim 1, wherein: the wrap angle mechanism comprises a plurality of upper wrap angle devices and upper wrap angle lifters, the upper wrap angle devices are oppositely arranged on the machine base, and the upper wrap angle lifters are arranged at positions between the upper wrap angle devices in the opposite direction and can lift paper sheets and brick bags so that the upper wrap angle devices can place wrap angles to the brick bags.

10. A rapid bulk packaging machine as claimed in claim 9, wherein: the safe edge mechanism further comprises a gantry bracket, the gantry bracket is fixed above the upper wrap angle lifter, the two safe edge bins are arranged on the top surface of the gantry bracket in a back-to-back mode, the top surface of the gantry bracket is provided with a limiting plate adjacent to the safe edge bins, the output end of the safe edge conveyor is provided with a conveying plate propping against the discharge hole of the safe edge bins, one side of the conveying plate, facing the discharge hole of the safe edge bins, is provided with a notch, and the safe edge lifter can be matched with the limiting plate to position the safe edge through the notch, the position of the limiting plate is arranged on the top surface of the gantry bracket, the top surface of the gantry bracket is provided with an opening below the safe edge feeder, and the bottom surface of the safe edge feeder is provided with a material plate.