CN219600547U - Full-automatic flank leather shell equipment of borduring - Google Patents

Abstract

The utility model relates to the technical field of printing and packaging equipment, in particular to full-automatic flank leather shell edge-covering equipment; the utility model comprises a first conveyor belt, a push plate part, a first mobile suction nozzle frame and a binding part, wherein the push plate part is positioned at one side of the middle part of the first conveyor belt, the first mobile suction nozzle frame is movably positioned above the push plate part and the first conveyor belt, the binding part is positioned at one end of the first conveyor belt, the first mobile suction nozzle frame comprises a mounting frame, and a plurality of first mobile suction nozzles are mounted on the mounting frame; according to the utility model, the leather shell is automatically conveyed to the side of the push plate part by the first conveyor belt, the ash plate is automatically conveyed to the side of the first conveyor belt by the push plate part, the ash plate is sucked by the first mobile suction nozzle of the first mobile suction nozzle frame and then is moved and placed on the leather shell on the first conveyor belt, and then the short side edge and the long front and rear edge of the leather shell are covered by the edge covering part, so that the automatic production is integrally realized, and the production efficiency is high.

Description

Full-automatic flank leather shell equipment of borduring

Technical Field

The utility model relates to the technical field of printing and packaging equipment, in particular to full-automatic side wing leather shell edge covering equipment.

Background

With the development of the age, the packaging box is widely applied to the life of people. The presence of a folded box, relative to a common box type in general, is due to the fact that it has: easy storage, low logistics and transportation cost, free folding, repeated use, environmental protection and the like. The finished folding carton is generally made up of a leather shell plus two side flaps. Therefore, the side flap skin packaging is particularly important.

The wing skin has been produced for a long time in the past from purely manual production to semi-automated man-machine bonding to recent machine production. The existing machine is generally used as a shell machine, and transfer debugging is carried out on the basis of the shell machine. According to the size debugging, the glue is coated on a cover table, paper is pushed, the long and short sides are wrapped in a cross-shaped wrapping mode after an aircraft head ash suction plate is arranged, and then the aircraft head ash suction plate is pulled out by a pulling gun, compacted by two sections of rollers, defoamed and molded.

Disadvantages of existing machines:

(1) When the existing leather shell machine is used for making the side wing leather shell, the plate transfer and the edge covering knife replacement are needed, so that the labor cost and the time cost are increased. Meanwhile, the procedures of the ash placing plate, the long edge wrapping, the short edge wrapping and the like are all carried out at the same station, so that the time cost is further increased, and the production speed and the production efficiency of the lateral wing leather shell are reduced.

(2) In the process of making the side wings, if the cover is slightly askew in the processes of cover pulling and glue passing, the precision of the finished product finally obtained is affected.

(3) And according to the size of the lateral wing leather shell, a corresponding machine head mould is needed to be manufactured before the leather shell is manufactured. In order to prevent the cover from moving in the process of wrapping the shell, a bottom table die with a suction nozzle is also needed, so that the cost is increased.

(4) The side flap shells are typically made up of 3 or 5 panels, with the middle gray panel being thicker and the side panels being thinner. The thickness difference between the middle gray plate and the two side plates can not be considered when the roller regulates the pressure when the common leather shell machine is used for making the side wings, so that the air in the cover is possibly not discharged, and the quality of a finished product is affected.

Accordingly, based on the above-described drawbacks of the existing hemming devices, improvements to the existing hemming devices are needed.

Disclosure of Invention

The utility model aims to provide full-automatic side wing leather shell edge covering equipment aiming at the defects of the prior art, and the full-automatic side wing leather shell edge covering equipment solves the problems of the prior edge covering equipment: low production efficiency and the like.

In order to achieve the above object, the present utility model is achieved by the following technical scheme.

The utility model provides a full-automatic flank leather shell equipment of borduring, includes first conveyer belt, push pedal part, first removal suction nozzle frame, bordures the part, and push pedal part is located one side at the middle part of first conveyer belt, and first removal suction nozzle frame activity is located the top of push pedal part, first conveyer belt, and the part of borduring is located the one end of first conveyer belt, and first removal suction nozzle frame includes the mounting bracket, installs a plurality of first removal suction nozzles on the mounting bracket.

Further, the push plate part comprises a middle plate track, a side plate longitudinal conveying belt and a side plate transverse conveying belt, wherein the side plate longitudinal conveying belts are respectively arranged on two sides of the middle plate track, and the side plate transverse conveying belt is arranged on the outer side of the front end of the side plate longitudinal conveying belt. It is possible to realize that a plurality of gray plates are simultaneously fed to a designated position waiting to be placed on the leather shell.

Further, the mounting frame is arranged on the sliding rail in a sliding way, and the sliding rail is arranged above the first conveying belt and perpendicular to the moving direction of the first conveying belt. The mounting frame moves along the sliding rail, and the ash plate can be sucked and placed on the leather shell on the first conveyor belt through the first mobile suction nozzle.

Further, the sliding rail is provided with a sliding block in an upper sliding way, the installation frame is provided with an installation seat, the installation seat is pivoted with the sliding block, the sliding block is connected with a belt, and the motor drives the belt. When the position of the leather shell deviates, the motor can be controlled to pull the sliding block to enable the sliding block to rotate with the mounting seat, so that the angle rotation of the first mobile suction nozzle on the mounting frame is realized, the accurate pasting of the sucked ash plate and the leather shell is realized, and the deviation correcting effect is achieved.

Further, a movable lifting pressing plate is arranged above the first conveyor belt, and the pressing plate is positioned above the first mobile suction nozzle frame between the first mobile suction nozzle frame and the edge covering part. The ash plate and the leather shell can be tightly pressed when the pressing plate is pressed down, so that the stability of subsequent processing is ensured.

Further, the edge covering part comprises a side brush, a front brush and a rear brush. The short edge of the leather shell can be quickly stuck to the ash plate through the side brushes, and the long edge of the leather shell can be quickly stuck to the ash plate through the front brush and the rear brush.

Further, the part of borduring, still including receiving material conveyer belt, first bordure suction nozzle, second bordure suction nozzle, first bordure station, second bordure station, connect material conveyer belt and first conveyer belt butt joint, first bordure suction nozzle activity is located the top of receiving material conveyer belt, first bordure station, second bordure suction nozzle activity is located the top of first bordure station, second bordure station, the top both sides activity of first bordure station is provided with the side brush, the top of second bordure station is preceding, the back activity is provided with preceding brush, back brush respectively. And performing side wrapping at a first wrapping station, and performing front and rear wrapping at a second wrapping station.

Further, the middle part of second bordure station be provided with bordure output conveyer belt. Can be used for rapidly outputting the leather shell with the wrapped edges.

Furthermore, the output end of the edge-wrapping output conveyor belt is provided with a guide plate, and a second conveyor belt is arranged below the guide plate. The shells are rapidly output by the second conveyor belt.

Further, the guide plate is located between the first edge wrapping station and the second edge wrapping station, and the second conveyor belt is located below the edge wrapping portion. The second conveyor belt can be arranged below the edge covering part, so that the effect of saving space is achieved.

The utility model has the beneficial effects that: the leather shell is automatically conveyed to the side of the push plate part by the first conveyor belt, the ash plate is automatically conveyed to the side of the first conveyor belt by the push plate part, the ash plate is sucked by the first mobile suction nozzle of the first mobile suction nozzle frame and then is moved and placed on the leather shell on the first conveyor belt, and then the short wrapping edges, the front long wrapping edges and the rear long wrapping edges of the side face of the leather shell are covered by the wrapping part, so that automatic production is integrally realized, and the production efficiency is high.

Drawings

Fig. 1 is a schematic view of the apparatus of the present utility model as a whole.

Fig. 2 is a schematic structural view of a push plate portion of the present utility model.

Fig. 3 is a schematic view of a first mobile nozzle rack according to the present utility model.

Fig. 4 is a schematic view of a first conveyor belt and a platen according to the present utility model.

Fig. 5 is a schematic structural view of the wrapping portion of the present utility model.

Fig. 6 is a schematic partial view of the wrapping portion of the present utility model.

Fig. 7 is a partial schematic view of the wrapping portion of the present utility model.

Fig. 8 is a schematic partial view of the wrapping portion of the present utility model.

FIG. 9 is a schematic diagram of the production process of the present utility model.

Reference numerals and description:

a first conveyor belt 1, a vent 10, a clamping block 11, and a pressure plate 12;

a cover gluing machine 2;

the pushing plate part 3, the middle plate track 30, the side plate longitudinal conveying belt 31 and the side plate transverse conveying belt 32;

the first mobile suction nozzle frame 4, the mounting frame 40, the first mobile suction nozzle 41, the sliding rail 42, the sliding block 43, the mounting seat 44, the motor 45, the belt 46, the fixing groove 47, the fixing rod 48 and the mounting plate 49;

the edge covering part 5, the first edge covering suction nozzle 50, the second edge covering suction nozzle 51, the first edge covering station 52, the side brush 53, the second edge covering station 54, the front brush 55, the rear brush 56, the edge covering output conveyor belt 57, the press roller assembly 58 and the guide plate 59;

a second conveyor belt 6,

A third conveyor belt 7,

A discharging table 8,

And a receiving conveyor belt 9.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

Referring to fig. 1-9, the full-automatic flank leather shell edging device of the utility model comprises: the device comprises a first conveyor belt 1, a cover laminator 2, a push plate part 3, a first mobile suction nozzle frame 4, a binding part 5, a second conveyor belt 6, a third conveyor belt 7 and a discharging table 8.

The cover laminator 2 is positioned at one end of the first conveyor belt 1, and the cover laminator 2 is used for laminating leather shells, so that the leather shells are provided with glue for adhering ash plates.

The push plate part 3 of the present utility model is located at one side of the middle of the first conveyor 1 for feeding the gray plate to a designated position. The first mobile suction nozzle holder 4 is movably located above the push plate part 3 and the first conveyor belt 1 for sucking and placing the gray plate from a designated position onto the leather sheath located on the first conveyor belt 1.

The wrapping portion 5 of the present utility model is located at the other end of the first conveyor 1 for wrapping the transferred leather sheath. To save space, the second conveyor belt 6 is located below the edge covering section 5 for transporting the leather sheath, the third conveyor belt 7 is located at the output end of the second conveyor belt 6, and the discharge table 8 is located at the output end of the third conveyor belt 7.

The first conveyor belt 1 is provided with a movable clamping block 11, the moving direction of the clamping block 11 is perpendicular to the moving direction of the first conveyor belt 1, and the clamping block 11 is used for pulling the leather shell from the cover laminator 2 to the first conveyor belt 1.

The first conveyor belt 1 of the utility model is provided with a plurality of ventilation holes 10, and the air suction state is kept under the first conveyor belt 1 all the time in the conveying process, so that the leather shell can be adsorbed all the time, and the running position is prevented.

Referring to fig. 2, the push plate part 3 of the present utility model includes a middle plate rail 30, a side plate longitudinal conveyor 31, a side plate lateral conveyor 32, the side plate longitudinal conveyor belt 31 has two sets of two sides respectively located on the middle plate rail 30, and the side plate lateral conveyor belt 32 is located outside the front end of the side plate longitudinal conveyor belt 31. The ash plate comprises a triangular side plate positioned at the rear, a triangular side plate positioned at the front and a square plate positioned in the middle, the middle square plate is pushed by an air cylinder to do linear motion along a middle plate track 30, and the triangular plates at two sides are respectively conveyed to a designated position by two groups of belts of a side plate longitudinal conveying belt 31 and a side plate transverse conveying belt 32.

Referring to fig. 3, the first mobile suction nozzle frame 4 of the present utility model includes a mounting frame 40, a first mobile suction nozzle 41, a slide rail 42, a slider 43, a mounting base 44, a motor 45, and a belt 46. A plurality of first mobile suction nozzles 41 are mounted on the mounting frame 40 for sucking up the gray plate. The mounting frame 40 is slidably disposed on the sliding rail 42, the mounting frame 40 moves along the sliding rail 42, and the sliding rail 42 is located above the first conveyor belt 1 and perpendicular to the moving direction of the first conveyor belt 1. The slide rail 42 is provided with a slide block 43 in a sliding manner, the mounting frame 40 is provided with a mounting seat 44, and the mounting seat 44 is pivoted with the slide block 43. The slider 43 is connected to the belt 46, and the motor 45 drives the belt 46. Each slide rail 42 is fitted with a motor 45, a belt 46 so that both slides 43 can be pulled and rotated with the mounting 40.

The motor 45 drives the belt 46 to drive the mounting frame 40 to move, so that the first mobile suction nozzle 41 sucks the ash plate and places the ash plate on the leather shell on the first conveyor belt 1. The camera can be arranged above the first conveyor belt 1 to photograph the position of the leather shell, if the position of the leather shell deviates, the motor 45 can be controlled to rotate the mounting frame 40 and the sliding block 43 according to error data given by the camera, so that the deviation rectifying effect is realized, the unexpected error brought by the machine in the working process is solved, and the side wing leather shell with higher quality is produced more rapidly.

The front end of the mounting frame 40 is provided with a fixing groove 47, the fixing groove 47 is movably provided with a fixing rod 48, the lower end of the fixing rod 48 is provided with a mounting plate 49, the mounting plate 49 is provided with a mounting groove, and the first mobile suction nozzle 41 is arranged in the mounting groove. The position of the fixing lever 48 on the fixing groove 47 can be adjusted, and the position of the first mobile suction nozzle 41 on the mounting plate can also be adjusted, so that the device can be conveniently applied to shells of various sizes.

Referring to fig. 4, a pressing plate 12 driven by an air cylinder to lift is arranged above the first conveyor belt 1, and the pressing plate 12 can press the ash plate and the leather shell by pressing down. The platen 12 is located above the first mobile nozzle holder 4 between the first mobile nozzle holder 4 and the hemming portion 5.

Referring to fig. 5, 6, 7 and 8, the hemming section 5 of the present utility model includes a material receiving conveyor 9, a first hemming nozzle 50, a second hemming nozzle 51, a first hemming station 52, a side brush 53, a second hemming station 54, a front brush 55, a rear brush 56, a hemming output conveyor 57, a press roller assembly 58 and a guide plate 59.

The receiving conveyor 9 according to the utility model interfaces with the first conveyor 1, onto which the shells are transferred from the first conveyor 1.

The first edge-covering suction nozzle 50 is movably arranged above the material receiving conveyor belt 9 and the first edge-covering station 52, and the second edge-covering suction nozzle 51 is movably arranged above the first edge-covering station 52 and the second edge-covering station 54.

The material receiving conveyor belt 9, the first edge wrapping station 52 and the second edge wrapping station 54 are arranged in parallel. The first taping station 52 and the second taping station 54 are provided with suction nozzles for sucking the leather shells. The first edging station 52 and the second edging station 54 can be provided with a plurality of vent holes for connecting the suction nozzle, and the position of the suction nozzle is adjusted according to the actual size of the leather shell so as to realize quick adjustment.

The side brushes 53 are movably arranged on the two sides above the first edge covering station 52, and when the side brushes 53 move from outside to inside, the short edges on the side surfaces of the leather shells can be turned up and stuck to the ash plates.

A front brush 55 and a rear brush 56 are movably arranged above the second binding station 54, and the front brush 55 and the rear brush 56 can move back and forth, so that corresponding long binding can be turned up and stuck on an ash plate during movement.

As shown in fig. 8, the second edging station 54 (only half of which is shown) of the present utility model is provided with an edging output conveyor 57 in the middle, and after the edges on the front, rear and both sides of the leather sheath are adhered, the second edging station 54 does not suck the leather sheath any more, and the edging output conveyor 57 rotates and drives the leather sheath to output.

The press roller assembly 58 is arranged above the edge wrapping output conveyor belt 57, so that the leather shell and the ash plate can be further pressed and finally molded.

The output end of the wrapping output conveyor belt 57 is provided with a guide plate 59, and the guide plate 59 is obliquely arranged, so that the leather shells are led out from top to bottom.

The second conveyor belt 6 is arranged below the edge wrapping part 5, and the second conveyor belt 6 is positioned below the guide plate 59, so that space can be saved. The wrapping output conveyor 57 outputs the leather shells from front to back, and the guide plate 59 is positioned between the first wrapping station 52 and the second wrapping station 54, so that space can be further saved.

The output end of the second conveyor belt 6 of the utility model is provided with a third conveyor belt 7, the conveying direction of the third conveyor belt 7 and the second conveyor belt 6 is perpendicular to the conveying direction of the first conveyor belt 1, and the third conveyor belt 7 is parallel to the conveying direction of the first conveyor belt 1. The output end of the third conveyor belt 7 is provided with a discharge table 8.

Referring to fig. 9, the utility model firstly conveys the leather shell, the surface of the leather shell is glued by the cover gluing machine 2, then the leather shell is pulled onto the first conveyor belt 1 by the clamping block 11, and the first conveyor belt 1 drives the leather shell to the next station.

The triangular side plates positioned at the rear are longitudinally conveyed to a designated position by the side plate longitudinal conveying belt 31, the triangular side plates positioned at the front are transversely conveyed to the designated position by the side plate transverse conveying belt 32, the two side plates form a square, and the square plate positioned in the middle is directly conveyed to the designated position by the middle plate rail 30.

The suction nozzle of the first mobile suction nozzle holder 4 sucks up the dust plate delivered to the specified position and places it on the leather shell.

The first conveyor belt 1 drives the leather shell to move, and a pressing plate 12 positioned above the first conveyor belt 1 presses downwards to adhere the ash plate and the leather shell together.

The first conveyor belt 1 drives the leather shell to move into the edge covering part 5, the first edge covering suction nozzle 50 sucks the ash plate and moves the ash plate to the first edge covering station 52, the first edge covering station 52 can suck the leather shell, the side hairbrush 53 moves from the outer side to the middle, and the short edge covering outside the leather shell is turned up and stuck on the surface of the ash plate to finish side edge covering.

The second hemming nozzle 51 sucks up the gray plate and moves to the second hemming station 54, the second hemming station 54 can suck the leather case, the front brush 55 moves from front to back, and the long hemming at the front is turned up and stuck on the gray plate to finish the front hemming. The rear brush 56 moves from back to front, turns up the long wrapping edge at the rear and sticks to the surface of the gray plate to finish the wrapping edge.

The wrapping output conveyor belt 57 drives the shell after the wrapping to move backwards, the press roller assembly 58 compresses the shell again, the shell is guided downwards by the guide plate 59 to fall onto the second conveyor belt 6, the second conveyor belt 6 drives the shell to move onto the third conveyor belt 7, and the third conveyor belt 7 outputs the shell onto the discharging table 8.

The utility model has the advantages that:

1. the production speed is faster, a plurality of stations which are not interfered with each other are connected by the conveying part, and the multi-station work simultaneously increases the speed;

2. the precision is higher, the leather shell can also keep high precision in the continuous transmission process due to the deviation correcting system, and the error is obviously improved.

It is understood that the above-described embodiments are merely preferred examples of the present utility model and are not intended to limit the scope of the present utility model, so that all equivalent changes or modifications of the structure, features and principles described in the claims are intended to be included in the scope of the present utility model.

Claims (10)

1. Full-automatic flank leather shell equipment of borduring, its characterized in that: including first conveyer belt, push pedal part, first removal suction nozzle frame, the part of borduring, push pedal part is located one side at the middle part of first conveyer belt, and first removal suction nozzle frame activity is located the top of push pedal part, first conveyer belt, and the part of borduring is located the one end of first conveyer belt, and first removal suction nozzle frame includes the mounting bracket, installs a plurality of first removal suction nozzles on the mounting bracket.

2. A fully automatic side flap skin shell hemming device according to claim 1 wherein: the push plate part comprises a middle plate track, a side plate longitudinal conveying belt and a side plate transverse conveying belt, wherein the side plate longitudinal conveying belts are respectively arranged on two sides of the middle plate track, and the side plate transverse conveying belt is arranged on the outer side of the front end of the side plate longitudinal conveying belt.

3. A fully automatic side flap skin shell hemming device according to claim 1 wherein: the mounting frame is arranged on the sliding rail in a sliding way, and the sliding rail is positioned above the first conveyor belt and perpendicular to the moving direction of the first conveyor belt.

4. A fully automatic side flap skin shell hemming apparatus according to claim 3 wherein: the sliding rail is provided with a sliding block in an upper sliding way, the installation frame is provided with an installation seat, the installation seat is pivoted with the sliding block, the sliding block is connected with a belt, and the motor drives the belt.

5. A fully automatic side flap skin shell hemming device according to claim 1 wherein: the movable lifting pressing plate is arranged above the first conveyor belt and is positioned above the first mobile suction nozzle frame between the first mobile suction nozzle frame and the edge covering part.

6. A fully automatic side flap skin shell hemming device according to claim 1 wherein: the edge covering part comprises a side brush, a front brush and a rear brush.

7. The fully automatic side flap skin shell hemming device of claim 6 wherein: the edge covering part also comprises a material receiving conveyor belt, a first edge covering suction nozzle, a second edge covering suction nozzle, a first edge covering station and a second edge covering station, wherein the material receiving conveyor belt is in butt joint with the first conveyor belt, the first edge covering suction nozzle is movably arranged above the material receiving conveyor belt and the first edge covering station, the second edge covering suction nozzle is movably arranged above the first edge covering station and the second edge covering station, side brushes are movably arranged on two sides of the upper part of the first edge covering station, and front brushes and rear brushes are respectively and movably arranged on the upper part of the second edge covering station.

8. The fully automatic side flap skin shell hemming device of claim 7 wherein: the middle part of second bordure station be provided with and bordure output conveyer belt.

9. The fully automatic side flap skin shell hemming device of claim 8 wherein: the output end of the edge-wrapping output conveyor belt is provided with a guide plate, and a second conveyor belt is arranged below the guide plate.

10. A fully automatic side flap skin shell hemming apparatus according to claim 9 wherein: the guide plate is positioned between the first edge wrapping station and the second edge wrapping station, and the second conveyor belt is positioned below the edge wrapping part.