CN211030239U - Cutting mechanism in packaging box forming - Google Patents

Abstract

The utility model provides a cutting mechanism in packing carton shaping, a serial communication port, this mechanism is including frame, material loading portion, cutting portion, fixed part and transmission portion, material loading portion, cutting portion and fixed part are fixed the setting in proper order in the frame, transmission portion is fixed to be set up in the frame and pass material loading portion, cutting portion and fixed part in proper order, the transmission portion upside is provided with the station of adding, the position of material loading portion, cutting portion and fixed part all corresponds with the processing phase. The utility model discloses in, above-mentioned transmission portion is the subassembly that can automatic conveying panel, the part of above-mentioned cutting portion for being provided with the cutter of cutting panel, material loading portion places panel on the station that adds, transmission portion drives panel and removes, when cutting the position, the fixed portion fixes cutting portion with panel and cuts panel, can realize a small and need not the mechanism that cuts in the shaping of a packing carton of many manual operations, the cost of labor is low, need not to change the mould when using, efficiency is higher, and safe and reliable more.

Description

Cutting mechanism in packaging box forming

Technical Field

The utility model belongs to packing carton contour machining field, in particular to field that cuts among packing carton shaping.

Background

The traditional packaging box production process is characterized in that all processes are finished by manually discharging materials through multiple devices: firstly, manually cutting a large paperboard into small pieces slightly larger than the specified transverse size, putting the small pieces into die cutting equipment, and cutting the small pieces into required specifications, wherein the die cutting equipment can replace dies with different specifications to adapt to different products; secondly, manually putting the cut plate into next die cutting equipment, cutting the back side by about one third of the depth, then opening a V-shaped groove to remove leftover materials, and preparing for cutting off the joint in advance; and (3) subsequently, manually putting the cut plate into a V-shaped groove machine, namely: manually adjusting a guide plate and corresponding cutters, putting the plate material into a large roller through a production line, firmly binding the paperboard by a belt, and rotating the V-groove cutters (a cutter rest is fixed) to realize transverse V-groove forming; thirdly, the V groove machine is put into once more to the artifical V groove panel material and carries out the processing in vertical V groove, promptly: the board material with the transverse V-shaped groove flows into a large roller through a production line, so that after the belt firmly binds the board, the board material rotates through a cutter (a cutter rest is fixed), and the vertical V-shaped groove is formed; and finally, manually putting the processed material with the bidirectional V-shaped groove into an automatic corner pasting machine, and fixing and forming the four corners of the material with adhesive tapes.

There are some problems at the cross cutting machine wherein, current cross cutting machine is independent mechanism and still need replace different moulds as required at the during operation in the assembly line, and current whole bulky and area of cutting mechanism is big to still need several manual operation when last mould, need consume a large amount of costs of labor, not only need consume a large amount of time when going up the mould simultaneously, it is inefficient, still there is the potential safety hazard, is unfavorable for the development of enterprise.

Disclosure of Invention

In order to solve the problem, the utility model aims to provide a cutting mechanism in the small, efficient packing carton shaping of reduction manual operation of area.

Another object of the utility model is to provide a safe and reliable, simple structure is reasonable, extensive applicability and reduce the mechanism that cuts in the packing carton shaping of cost.

In order to achieve the above object, the technical solution of the present invention is as follows.

The utility model provides a cutting mechanism in packing carton shaping, a serial communication port, this mechanism is including frame, material loading portion, cutting portion, fixed part and transmission portion, material loading portion, cutting portion and fixed part are fixed the setting in proper order in the frame, transmission portion is fixed to be set up in the frame and pass material loading portion, cutting portion and fixed part in proper order, the transmission portion upside is provided with the station of adding, the position of material loading portion, cutting portion and fixed part all corresponds with the processing phase. Above-mentioned transmission portion is the subassembly that can automatic conveying panel, the part of the cutter of above-mentioned cutting portion for being provided with cutting panel, material loading portion places panel on the station of adding, transmission portion drives panel and removes, when cutting the position, fixed portion fixes cutting portion with panel and cuts panel, can realize a small and need not the mechanism that cuts in the shaping of packing carton of many manual operations, need not the manual work mould that changes again, can reduce the labour cost, further reduce the manufacturing cost of product, simultaneously efficiency is higher, and is also safer.

Further, material loading portion is including inhaling material subassembly, two suction nozzle pallet, suction nozzle cylinder and material loading main part, two suction nozzle pallet are fixed in the frame and the symmetry lies in transmission portion both sides, two suction nozzle pallet upsides are the fixed suction nozzle slide rail that is provided with all, material loading main part is controlled both ends and is passed through suction nozzle slide rail difference swing joint on two suction nozzle pallet, the suction nozzle cylinder is fixed to be set up on the suction nozzle pallet, the fixed setting in material loading main part side in suction nozzle cylinder piston rod top, the piston rod reciprocating motion of suction nozzle cylinder drives material loading main part seesaw on the suction nozzle slide rail of two suction nozzle pallet, inhale the fixed setting in material loading main part downside of material subassembly, inhale material subassembly position and processing phase and correspond. The material sucking component is the prior art, and can be preferably a material sucking structure formed by combining a suction nozzle and a moving air cylinder. The suction nozzle cylinder is the prior art.

Further, material loading portion is still including material loading protection part, material loading protection part is located the rear side of two suction nozzle stands, material loading protection part is including material loading compression roller and material loading compression roller cylinder, the material loading compression roller is fixed to be set up in the frame, material loading compression roller cylinder is fixed to be set up on the material loading compression roller, the position correspondence of material loading compression roller adds the station. The feeding press roller is in the prior art. After the material sucking assembly places the plate in the processing position, the compression roller cylinder drives the feeding compression roller to press down the plate as the lifting power of the feeding compression roller, and the plate is helped to enter the next procedure smoothly through the driving of the transmission part.

Furthermore, the cutting part comprises a cutting fixed gantry, a cutting transverse module and a cutter assembly, the cutting fixed gantry is fixedly arranged on the rack, the cutting transverse module is fixedly arranged on the cutting fixed gantry, the cutter assembly is movably connected to the cutting transverse module, and the position of the cutter assembly corresponds to the position of the machining position. The cutting transverse moving module is a component which can realize left and right movement of the cutter component on a processing position, such as a motor, a sliding rail, a conveying belt and the like.

Furthermore, the cutter assembly comprises a cutter lifting cylinder, a cutter spindle motor and a cutter, the cutter lifting cylinder is movably arranged on the cutting transverse moving module, the cutter spindle motor is fixedly arranged at the top end of a piston rod of the cutter lifting cylinder, the cutter is fixedly arranged at the front end of a rotating shaft of the cutter spindle motor, and the position of the cutter corresponds to the machining position. The spindle motor described above is prior art.

Further, the fixed part is including preceding pressure plate portion and back pressure plate portion, preceding pressure plate portion and back pressure plate portion are all fixed to be set up in the frame, preceding pressure plate portion and back pressure plate portion position all correspond with the processing phase, preceding pressure plate portion and back pressure plate portion position are located the front and back both sides of cutter respectively. Preceding pressure board portion and back pressure board portion realize compressing tightly the effect of panel through activity from top to bottom, and it is prior art, and the preferred is driven through the cylinder and is realized going up and down.

Further, the mechanism also comprises a baffle part, the baffle part is positioned at the rear side of the fixed part, the baffle part comprises a baffle frame, a baffle slide rail, a baffle positioning module, a baffle support frame, a baffle slide block, two baffle lifting cylinders and a baffle, the baffle frame is fixedly arranged on the frame, the baffle slide rail is fixedly arranged on the baffle frame, the baffle slide block is slidably connected on the baffle slide rail, the baffle positioning module is fixedly arranged on the baffle frame, the baffle positioning module is fixedly connected with the baffle slide block, the baffle slide block slides on the baffle slide rail under the control of the baffle positioning module, the baffle support frame is fixedly arranged at the top end of the baffle slide block, the two baffle lifting cylinders are respectively and fixedly arranged at the left side and the right side of the baffle support frame, the two ends of the baffle are respectively and fixedly arranged at the top ends of piston rods of the two baffle lifting cylinders, the position of the baffle corresponds to the processing position and is positioned at the upper side of the processing position. The baffle lifting cylinder is in the prior art. Above-mentioned baffle location module can drive the subassembly of baffle slider motion on the baffle slide rail, for prior art, if can adopt the combination of motor, pulley and belt to realize. The baffle positioning module in the baffle part controls the position of the baffle on the transmission part by adjusting the movement of the baffle sliding block on the baffle sliding rail, so that the purpose of controlling the size of the cut plate is achieved, and the baffle lifting cylinder can achieve the effect of stopping the plate on the transmission part by controlling the height of the baffle on the transmission part.

Further, this mechanism is still including ejection of compact portion, the fixed setting of ejection of compact portion is in the frame, the ejection of compact position is located between baffle portion and the fixed part and is located the transmission portion side, ejection of compact portion is including ejection of compact compression roller fixed plate, ejection of compact compression roller frame, compression roller lift cylinder, ejection of compact conveyer belt and ejection of compact compression roller, ejection of compact compression roller frame and ejection of compact conveyer belt are all fixed to be set up in the frame, ejection of compact conveyer belt passes ejection of compact compression roller frame, ejection of compact conveyer belt is located the transmission portion side, ejection of compact compression roller fixed plate swing joint is on ejection of compact compression roller frame, ejection of compact compression roller swing joint is on ejection of compact compression roller fixed plate, compression roller lift cylinder fixes on ejection of compact compression roller frame and compression roller lift cylinder's piston rod top is fixed on ejection of compact compression roller. The compression roller lifting cylinder is in the prior art.

Further, transmission portion is the subassembly through transmission band transmission panel, transmission portion is including the preceding transmission portion and the back transmission portion of body coupling, back transmission portion is provided with ejection of compact cavity, ejection of compact conveyer belt sets up in ejection of compact cavity department. The above-mentioned transmission section is prior art.

The working process is as follows: a movable cylinder in a material sucking assembly of the feeding part controls a suction nozzle to press down to fix a plate, then a suction nozzle cylinder controls a feeding main body to move on a suction nozzle stand towards the processing position, and when the feeding main body moves to reach the feeding protection part, a feeding compression roller cylinder of the feeding protection part controls a feeding compression roller to press the plate, so that the plate is helped to enter the next process smoothly through the driving of a transmission part; the plate is conveyed along the conveying part, when one end of the plate abuts against the baffle part so that the baffle plate is positioned on the baffle plate, the plate is pressed by the front pressing plate part and the rear pressing plate part, the cutter lifting cylinder controls the cutter to descend, the cutter spindle motor controls the cutter to rotate, the cutter assembly starts to cut the plate, and the cutting transverse moving module controls the cutter assembly to move left and right to cut the plate; and pressing the head of the cut plate after the plate is cut by a press roller of the discharging press roller frame, mutually clamping the plate with a discharging conveyer belt, sending the plate out by the discharging conveyer belt, and continuously cutting the rest plates.

The beneficial effects of the utility model reside in that, compared with the prior art, the utility model discloses in, above-mentioned transmission portion is the subassembly that can automatic conveying panel, the part of above-mentioned cutting portion for being provided with the cutter of cutting panel, material loading portion places panel on the station of processing, transmission portion drives panel and removes, when cutting the position, the fixed portion fixes panel cutting portion and cuts panel, can realize a small and need not the mechanism that cuts in the shaping of a packing carton of many manual operations, need not again that the manual work more trades the mould, can reduce the labour cost, further reduce the manufacturing cost of product, efficiency is higher simultaneously, it is also safer.

Drawings

Fig. 1 is a schematic structural diagram of a first viewing angle of a cutting mechanism in the forming of a packaging box of the present invention.

Fig. 2 is a schematic structural diagram of a second viewing angle of a cutting mechanism in the forming of the packaging box of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to achieve the above object, the technical solution of the present invention is as follows.

The utility model provides a cutting mechanism in packing carton shaping, a serial communication port, this mechanism is including frame 1, material loading portion 2, cutting portion 3, fixed part 4 and transmission portion 5, material loading portion 2, cutting portion 3 and fixed part 4 are fixed the setting in proper order in frame 1, transmission portion 5 is fixed to be set up in frame 1 and pass material loading portion 2, cutting portion 3 and fixed part 4 in proper order, 5 upsides in transmission portion are provided with processing position 51, the position of material loading portion 2, cutting portion 3 and fixed part 4 all is corresponding with processing position 51.

Further, material loading portion 2 is including inhaling material subassembly 21, two suction nozzle stands 22, suction nozzle cylinder 23 and material loading main part 24, two suction nozzle stands 22 are fixed on frame 1 and the symmetry lies in transmission portion 5 both sides, two suction nozzle stands 22 upsides are all fixed and are provided with suction nozzle slide rail 25, material loading main part 24 is controlled both ends and is passed through suction nozzle slide rail 25 swing joint respectively on two suction nozzle stands 22, suction nozzle cylinder 23 is fixed to be set up on suction nozzle stand 22, the fixed setting in material loading main part 24 side in suction nozzle cylinder 23 piston rod top, the piston rod reciprocating motion of suction nozzle cylinder 23 drives material loading main part 24 fore-and-aft motion on the suction nozzle slide rail 25 of two suction nozzle stands 22, inhale material subassembly 21 and fix and set up at material loading main part 24 downside, it is corresponding to inhale material subassembly 21 position and processing position 51.

Further, the feeding part 2 further comprises a feeding protection part 26, the feeding protection part 26 is located at the rear side of the two suction nozzle support platforms 22, the feeding protection part 26 comprises a feeding compression roller 261 and a feeding compression roller cylinder 262, the feeding compression roller 261 is fixedly arranged on the machine frame 1, the feeding compression roller cylinder 262 is fixedly arranged on the feeding compression roller 261, and the position of the feeding compression roller 261 corresponds to the processing position 51.

Further, the cutting part 3 comprises a cutting fixed gantry 31, a cutting traversing module 32 and a cutter assembly 33, the cutting fixed gantry 31 is fixedly arranged on the frame 1, the cutting traversing module 32 is fixedly arranged on the cutting fixed gantry 31, the cutter assembly 33 is movably connected to the cutting traversing module 32, and the position of the cutter assembly 33 corresponds to the processing position 51.

Further, the cutter assembly 33 includes a cutter lifting cylinder 331, a cutter spindle motor 332 and a cutter 333, the cutter lifting cylinder 331 is movably disposed on the cutting traverse module 32, the cutter spindle motor 332 is fixedly disposed at the top end of a piston rod of the cutter lifting cylinder 331, the cutter 333 is fixedly disposed at the front end of a rotating shaft of the cutter spindle motor 332, and the position of the cutter 333 corresponds to the processing position 51.

Further, the fixing portion 4 includes a front pressing plate portion 41 and a rear pressing plate portion 42, the front pressing plate portion 41 and the rear pressing plate portion 42 are both fixedly disposed on the frame 1, the positions of the front pressing plate portion 41 and the rear pressing plate portion 42 both correspond to the processing position 51, and the positions of the front pressing plate portion 41 and the rear pressing plate portion 42 are respectively located on the front side and the rear side of the cutter 333.

Further, the mechanism further comprises a baffle part 6, the baffle part 6 is positioned at the rear side of the fixing part 4, the baffle part 6 comprises a baffle frame 61, a baffle slide rail 62, a baffle positioning module 63, a baffle support frame 64, a baffle slide block 65, two baffle lifting cylinders 66 and a baffle 67, the baffle frame 61 is fixedly arranged on the frame 1, the baffle slide rail 62 is fixedly arranged on the baffle frame 61, the baffle slide block 65 is slidably connected on the baffle slide rail 62, the baffle positioning module 63 is fixedly arranged on the baffle frame 61, the baffle positioning module 63 is fixedly connected with the baffle slide block 65, the baffle slide block 65 slides on the baffle slide rail 62 under the control of the baffle positioning module 63, the baffle support frame 64 is fixedly arranged at the top end of the baffle slide block 65, and the two baffle lifting cylinders 66 are respectively and fixedly arranged at the left side and the right side of the baffle support frame 64, two ends of the baffle 67 are respectively and fixedly arranged at the top ends of the piston rods of the two baffle lifting cylinders 66, and the position of the baffle 67 corresponds to the processing position 51 and is positioned at the upper side of the processing position 51.

Furthermore, the mechanism also comprises a discharging part 7, the discharging part 7 is fixedly arranged on the frame 1, the discharging part 7 is positioned between the baffle part 6 and the fixing part 4 and positioned at the side edge of the transmission part 5, the discharging part 7 comprises a discharging press roller fixing plate 71, a discharging press roller frame 72, a press roller lifting cylinder 73, a discharging conveying belt 74 and a discharging press roller 75, the discharging roller frame 72 and the discharging conveyer belt 74 are both fixedly arranged on the frame 1, the discharging conveyer belt 74 passes through the discharging roller frame 72, the discharging conveyer belt 74 is positioned at the side edge of the transmission part 5, the discharging press roller fixing plate 71 is movably connected on the discharging press roller frame 72, the discharging press roller 75 is movably connected to the discharging press roller fixing plate 71, the discharging press roller 75 corresponds to the discharging conveyer belt 74, the compression roller lifting cylinder 73 is fixed on the discharging compression roller frame 72, and the top end of a piston rod of the compression roller lifting cylinder 73 is fixed on the discharging compression roller fixing plate 71.

Further, the transmission part 5 is an assembly for transmitting plates by a transmission belt, the transmission part 5 comprises a front transmission part 52 and a rear transmission part 53 which are integrally connected, the rear transmission part 53 is provided with a discharge cavity 531, and the discharge conveyor belt 74 is arranged at the discharge cavity 531.

The beneficial effects of the utility model reside in that, compared with the prior art, the utility model discloses in, above-mentioned transmission portion is the subassembly that can automatic conveying panel, the part of above-mentioned cutting portion for being provided with the cutter of cutting panel, material loading portion places panel on the station of processing, transmission portion drives panel and removes, when cutting the position, the fixed portion fixes panel cutting portion and cuts panel, can realize a small and need not the mechanism that cuts in the shaping of a packing carton of many manual operations, need not again that the manual work more trades the mould, can reduce the labour cost, further reduce the manufacturing cost of product, efficiency is higher simultaneously, it is also safer.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides a cut mechanism in packing carton shaping, its characterized in that, this mechanism is including frame, material loading portion, cutting portion, fixed part and transmission portion, material loading portion, cutting portion and fixed part are fixed the setting in proper order in the frame, transmission portion is fixed to be set up in the frame and pass material loading portion, cutting portion and fixed part in proper order, the transmission portion upside is provided with the station of adding, the position of material loading portion, cutting portion and fixed part all corresponds with the processing phase.

2. The cutting mechanism in the forming of the packing box according to claim 1, wherein the feeding portion comprises a suction component, two suction nozzle stands, a suction nozzle cylinder and a feeding main body, the two suction nozzle stands are fixed on the frame and symmetrically positioned on two sides of the transmission portion, suction nozzle slide rails are fixedly arranged on the upper sides of the two suction nozzle stands, the left and right ends of the feeding main body are respectively and movably connected to the two suction nozzle stands through the suction nozzle slide rails, the suction nozzle cylinder is fixedly arranged on the suction nozzle stands, the top end of a piston rod of the suction nozzle cylinder is fixedly arranged on the side end of the feeding main body, the reciprocating motion of a piston rod of the suction nozzle cylinder drives the feeding main body to move back and forth on the suction nozzle slide rails of the two suction nozzle stands, the suction component is fixedly arranged on the lower side of the feeding main body, and the position of.

3. The cutting mechanism for forming the packaging box according to claim 2, wherein the feeding portion further comprises a feeding protection portion, the feeding protection portion is located at the rear side of the two suction nozzle stands, the feeding protection portion comprises a feeding compression roller and a feeding compression roller cylinder, the feeding compression roller is fixedly arranged on the frame, the feeding compression roller cylinder is fixedly arranged on the feeding compression roller, and the position of the feeding compression roller corresponds to the processing position.

4. The cutting mechanism for forming a packing box according to claim 1, wherein the cutting part comprises a cutting fixed gantry, a cutting traverse module, and a cutter assembly, the cutting fixed gantry is fixedly disposed on the frame, the cutting traverse module is fixedly disposed on the cutting fixed gantry, the cutter assembly is movably coupled to the cutting traverse module, and the cutter assembly is positioned corresponding to the processing station.

5. The cutting mechanism in forming a packing box according to claim 4, wherein the cutter assembly comprises a cutter lifting cylinder movably disposed on the cutting traverse module, a cutter spindle motor fixedly disposed on a top end of a piston rod of the cutter lifting cylinder, and a cutter fixedly disposed on a front end of a rotating shaft of the cutter spindle motor, the position of the cutter corresponding to a processing station.

6. A cutting mechanism for the formation of packing box according to claim 5, characterized in that said fixing part comprises a front pressing plate part and a rear pressing plate part, said front pressing plate part and said rear pressing plate part are both fixed on the frame, said front pressing plate part and said rear pressing plate part are both corresponding to the processing position, said front pressing plate part and said rear pressing plate part are respectively located at the front and rear sides of the cutter.

7. The cutting mechanism in the forming of the packing box according to claim 1, characterized in that the mechanism further comprises a baffle plate part, the baffle plate part is positioned at the rear side of the fixing part, the baffle plate part comprises a baffle plate frame, a baffle plate slide rail, a baffle plate positioning module, a baffle plate support frame, a baffle plate slide block, two baffle plate lifting cylinders and a baffle plate, the baffle plate frame is fixedly arranged on the frame, the baffle plate slide rail is fixedly arranged on the baffle plate frame, the baffle plate slide block is slidably connected on the baffle plate slide rail, the baffle plate positioning module is fixedly arranged on the baffle plate frame, the baffle plate positioning module is fixedly connected with the baffle plate slide block, the baffle plate slide block slides on the baffle plate slide rail under the control of the baffle plate positioning module, the baffle plate support frame is fixedly arranged at the top end of the baffle plate slide block, the two baffle plate lifting cylinders, the two ends of the baffle are respectively and fixedly arranged at the top ends of the piston rods of the two baffle lifting cylinders, and the position of the baffle corresponds to the processing position and is positioned at the upper side of the processing position.

8. The cutting mechanism in forming a packing box according to claim 1, the mechanism also comprises a discharging part which is fixedly arranged on the frame, the discharging part is positioned between the baffle part and the fixing part and positioned at the side edge of the transmission part, the discharging part comprises a discharging compression roller fixing plate, a discharging compression roller frame, a compression roller lifting cylinder, a discharging conveyer belt and a discharging compression roller, the discharging roller frame and the discharging conveyer belt are both fixedly arranged on the frame, the discharging conveyer belt passes through the discharging roller frame, the discharging conveyer belt is positioned at the side edge of the transmission part, the discharging press roller fixing plate is movably connected on the discharging press roller frame, the discharging press roller is movably connected on the discharging press roller fixing plate, the discharging press roller corresponds to the discharging conveyer belt in position, the compression roller lifting cylinder is fixed on the discharging compression roller frame, and the top end of a piston rod of the compression roller lifting cylinder is fixed on the discharging compression roller fixing plate.

9. The cutting mechanism for forming packing cases according to claim 8, wherein said conveying portion is a component for conveying the sheet material by a conveyor belt, said conveying portion comprises a front conveying portion and a rear conveying portion integrally connected, said rear conveying portion is provided with a discharge cavity, and said discharge belt is disposed at the discharge cavity.

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