CN220661128U - Full-automatic indentation machine steel knife board tool changing device - Google Patents

Abstract

The utility model relates to a full-automatic indentator steel knife board tool changing device, including two accepting the platform, two accept the platform and fix on the automatic indentator one side of changing the edge of a knife, accept bench rotation and be connected with a plurality of axle that accept, a plurality of axle that accept are along being parallel to the mounting panel shift out the direction of movement that the edge of a knife was changed in order to set up, accept the axis direction of axle and be the horizontal setting and perpendicular to mounting panel shift out the direction of movement that the edge of a knife was changed in the mounting panel, a plurality of axle that accept are used for accepting the mounting panel that shifts out the edge of a knife. When the mounting panel is taken out from trading the edge of a knife, the mounting panel butt is on a plurality of bearing shafts, makes things convenient for operating personnel to shift out the mounting panel and trades the edge of a knife, then operating personnel lifts up the mounting panel again and overturns, makes the steel knife upwards and place the mounting panel on a plurality of bearing shafts again, dismantles the change to the steel knife, then lifts up the mounting panel again and overturns and make the steel knife downwards, pushes back the mounting panel in trading the edge of a knife at last, makes things convenient for operating personnel to change the steel knife on the automatic indentator to a certain extent.

Description

Full-automatic indentation machine steel knife board tool changing device

Technical Field

The utility model relates to the field of auxiliary equipment of indentation machines, in particular to a full-automatic indentation machine steel knife plate tool changing device.

Background

Creasing machines are machines for cutting various sheet materials, such as cardboard, corrugated board, plastics and leather. The method is widely applied to the industries of printing, packaging, decoration and plastics.

When the automatic creasing machine of the related art changes the cutter, the mounting plate on which the steel knife plate is originally mounted needs to be firstly taken out from the cutter changing edge of the automatic creasing machine along the horizontal direction, then the steel knife plate on the bottom surface of the mounting plate is detached to replace different steel knife plates, and then the mounting plate is sent back into the automatic creasing machine from the cutter changing edge. The steel knife board is formed by fixing a plurality of indentation steel blades on one board, and an automatic indentation machine can drive the steel knife board to press on the hard board or the corrugated board so as to enable the hard board or the corrugated board to generate corresponding indentations.

The related technical scheme has the following defects: the mounting plate fixed with the steel knife plate is usually larger in volume and has a certain weight, two operators are required to move the mounting plate out of the knife changing edge, then the mounting plate is turned over, the steel knife plate is upwards placed on the ground or a placing platform, and then the steel knife plate is replaced, so that the whole process is more troublesome.

Disclosure of Invention

In order to facilitate the replacement of a steel knife plate on an automatic creasing machine by an operator, the application provides a full-automatic creasing machine steel knife plate replacing device.

The application provides a full-automatic indentator steel knife board tool changing device adopts following technical scheme:

the utility model provides a full-automatic indentator steel knife board tool changing device, includes two accepting platforms, and two accepting platforms are fixed on the side of automatic indentator towards the tool changing mouth, and two accepting platforms are located the both sides of automatic indentator tool changing mouth respectively, it is connected with a plurality of accepting axles to rotate on accepting platforms, and a plurality of accepting axles set gradually along the direction of movement that the mounting panel shifted out the tool changing mouth that is parallel to, the axis direction of accepting axles is the horizontal setting and perpendicular to mounting panel shifts out the direction of movement that the tool changing mouth, and a plurality of accepting axles are used for accepting the mounting panel that shifts out the tool changing mouth, and a plurality of accepting axles on two accepting platforms are located the both sides of steel knife board respectively.

Preferably, the automatic marking press comprises a mounting plate, and is characterized by further comprising a turnover assembly, wherein the turnover assembly is used for turnover of the mounting plate and comprises two locking pieces and two turntables, the two turntables are respectively connected to the two bearing tables in a rotating manner along the axial direction parallel to the bearing shafts, the two turntables are coaxially arranged, the turntables are positioned on one side, far away from the automatic marking press, of the plurality of bearing shafts, the two locking pieces respectively correspond to the two turntables, and the locking pieces are used for locking the mounting plate on the corresponding turntables.

Preferably, the locking piece comprises a moving column and two positioning columns, the two positioning columns are rotationally connected to the rotary table along the axis direction parallel to the bearing shaft, the distances between the axes of the two positioning columns and the axis of the rotary table are equal, the moving columns are slidably connected to the corresponding rotary table along the axis direction parallel to the bearing shaft, slots for the corresponding moving columns to be inserted are respectively formed in the side walls of the two sides of the mounting plate, and when the moving columns are inserted into the corresponding slots, the mounting plate is abutted to the two positioning columns.

Preferably, the moving column is located on a middle vertical line of the axis connecting line of the two positioning columns, when the two positioning columns on the turntable are sequentially arranged along the moving direction parallel to the moving direction of the mounting plate out of the exchange knife edge and the moving column is located above the positioning columns, the top ends of the positioning columns and the top ends of the plurality of bearing shafts are located on the same plane, and when the two positioning columns on the turntable are sequentially arranged along the moving direction parallel to the moving direction of the mounting plate out of the exchange knife edge and the moving column is located below the positioning columns, the bottom ends of the positioning columns and the low ends of the plurality of bearing shafts are located on the same plane.

Preferably, the two slots divide the mounting plate into a first plate and a second plate along the length direction, when the steel knife plate on the mounting plate faces downwards, the first plate is positioned on one side of the second plate close to the automatic creasing machine, and the weight of the first plate is larger than that of the second plate.

Preferably, a sliding groove is formed in the side face of one side, opposite to each other, of the two turntables, the movable column is slidably connected in the corresponding sliding groove along the axis direction parallel to the bearing shaft, a first through groove penetrating through the turntables is formed in the inner wall of one side, facing away from the positioning column, of the sliding groove, and a force application rod is arranged on the movable column and is slidably connected in the first through groove along the sliding direction parallel to the positioning column.

Preferably, the movable column is rotationally connected in the chute, a second through groove for the movement of the force application rod is formed in the outer wall of the rotary table along the circumferential direction of the rotary table, and the second through groove is communicated with the end part, away from the mounting plate, of the first through groove.

Preferably, the side surfaces of the two bearing tables, which are far away from each other, are respectively provided with a placing box for placing tools.

The technical effects of the utility model are mainly as follows:

1. according to the automatic creasing machine, the bearing shafts are arranged, when the mounting plate is taken out from the trading edges, the mounting plate is abutted to the bearing shafts, an operator does not need to bear the mounting plate, the operator can conveniently move the mounting plate out of the trading edges, then the operator lifts the mounting plate again to overturn, so that the steel knife plate faces upwards, the mounting plate is replaced on the bearing shafts, the steel knife plate is detached and replaced, then the mounting plate is lifted again to overturn, so that the steel knife plate faces downwards, and finally the mounting plate is pushed back into the trading edges, so that the operator can conveniently replace the steel knife plate on the automatic creasing machine to a certain extent;

2. the utility model can automatically abut against the plurality of bearing shafts no matter before or after the mounting plate is overturned by setting the weight of the first plate to be larger than that of the second plate.

Drawings

Fig. 1 is a schematic view of the overall structure of the steel blade in the downward state according to the embodiment of the present application.

Fig. 2 is a schematic overall structure of the steel blade plate in the embodiment of the present application in an upturned state.

Fig. 3 is an enlarged view at a in fig. 1.

Reference numerals illustrate: 1. an automatic creasing machine; 11. a knife edge is replaced; 2. a receiving table; 21. a receiving shaft; 22. placing a box; 3. a flip assembly; 31. a turntable; 311. a chute; 312. a first through groove; 313. a second through slot; 32. a locking member; 321. a moving column; 322. positioning columns; 33. a force application rod; 4. a mounting plate; 41. a slot; 42. a first plate; 43. a second plate; 5. a steel knife plate.

Detailed Description

The following is a further detailed description of the present application with reference to fig. 1-3, so that the technical solutions of the present application may be more easily understood and mastered.

The embodiment of the application discloses a full-automatic indentation machine steel knife board tool changing device.

Referring to fig. 1-3, when the automatic creasing machine 1 changes a tool, the mounting plate 4 on which the steel knife plate 5 is originally mounted needs to be firstly taken out from the tool changing edge 11 of the automatic creasing machine 1 along the horizontal direction, the steel knife plate 5 in this state is detachably fixed on the bottom surface of the mounting plate 4, an operator needs to detach the steel knife plate 5 on the bottom surface of the mounting plate 4 to change a different steel knife plate 5, and then the mounting plate 4 is sent back into the automatic creasing machine 1 from the tool changing edge 11. The steel knife board 5 is formed by fixing a plurality of indentation steel blades on a board, and the automatic indentation machine 1 can drive the steel knife board 5 to press on the hard board or the corrugated board so as to enable the hard board or the corrugated board to generate corresponding indentation.

Referring to fig. 1-3, the length direction of the exchanging edge 11 is horizontally arranged, and when the mounting plate 4 is moved out of the exchanging edge 11, the length direction of the mounting plate 4 is horizontally arranged and perpendicular to the length direction of the exchanging edge 11, and the moving direction of the mounting plate 4 is also parallel to the length direction of the mounting plate 4 at this time.

Referring to fig. 1-3, the full-automatic creasing machine steel knife plate tool changing device of the embodiment comprises two bearing tables 2, wherein the two bearing tables 2 are fixed on one side face of an automatic creasing machine 1 facing a tool changing edge 11, and the two bearing tables 2 are respectively positioned on two sides of the automatic creasing machine 1 in the length direction of the tool changing edge 11. The two bearing platforms 2 are rotatably connected to one side surface close to each other, a plurality of bearing shafts 21 are sequentially arranged along the horizontal moving direction parallel to the moving direction of the mounting plate 4 out of the changing blade 11, the axial direction of the bearing shafts 21 is horizontally arranged and perpendicular to the moving direction of the mounting plate 4 out of the changing blade 11, two rows of bearing shafts 21 on the two bearing platforms 2 are respectively used for bearing two sides of the width direction of the mounting plate 4 for moving the changing blade 11, and when the bearing shafts 21 are abutted to the bearing shafts 21, the two rows of bearing shafts 21 are respectively located on two sides of the steel blade 5.

Referring to fig. 1-3, the full-automatic creasing machine steel blade changing device of the embodiment further comprises a turning assembly 3, wherein the turning assembly 3 is used for turning the mounting plate 4, so that the steel blade 5 faces upwards, and an operator can conveniently change the steel blade 5. The turnover assembly 3 comprises two locking pieces 32 and two turntables 31, the two turntables 31 respectively correspond to the two bearing tables 2, the two turntables 31 are respectively connected to the side faces of the two bearing tables 2, which are opposite to each other, and the rotating axis direction of the turntables 31 is parallel to the axis direction of the bearing shaft 21. The two turntables 31 are coaxially arranged, the turntables 31 are positioned on one side of the plurality of bearing shafts 21 away from the automatic creasing machine 1, and the turntables 31 are positioned on the end of the bearing table 2 away from the automatic creasing machine 1. The two locking members 32 correspond to the two turntables 31, respectively, and the locking members 32 are used for locking the mounting plate 4 to the corresponding turntables 31.

Referring to fig. 1 to 3, the locking member 32 includes a moving post 321 and two positioning posts 322, and the moving post 321 and the two positioning posts 322 are both disposed in a cylindrical shape. The two positioning posts 322 are rotatably connected to the corresponding turntable 31 along a direction parallel to the axis of the receiving shaft 21, and the distances between the axes of the two positioning posts 322 and the axis of the turntable 31 are equal.

Referring to fig. 1-3, a sliding groove 311 is respectively provided on a side surface of the opposite side of the two turntables 31, a moving post 321 is slidably connected in the corresponding sliding groove 311 along an axis direction parallel to the bearing shaft, and simultaneously the moving post 321 is rotatably connected in the sliding groove 311, and the moving post 321 is located on a central vertical line of the axis connecting line of the two positioning posts 322. In order to facilitate the movement of the moving post 321 driven by an operator, the inner wall of one side of the sliding groove 311 away from the two positioning posts 322 is provided with a first through groove 312 penetrating through the turntable 31 along the length direction parallel to the sliding groove 311, the side wall of the moving post 321 is fixed with a force application rod 33, and the force application rod 33 is slidably connected in the first through groove 312 along the sliding direction parallel to the positioning posts 322. The outer wall of the turntable 31 is provided with a second through groove 313 for the movement of the force application rod 33 along the circumferential direction of the turntable 31, the central position of the second through groove 313 in the length direction is communicated with the end part of the first through groove 312, which is far away from the mounting plate 4, and the end part of the force application rod 33, which is far away from the moving post 321, always extends out of the first through groove 312 and the second through groove 313.

Referring to fig. 1-3, when the force applying rod 33 moves toward the side away from the mounting plate 4 to the communication position between the first through slot 312 and the second through slot 313, the operator rotates the force applying rod 33 to move the force applying rod 33 to the end of the second through slot 313, and the positioning post 322 is completely located in the chute 311.

Referring to fig. 1-3, slots 41 into which corresponding moving posts 321 are inserted are respectively formed in two side walls of the mounting plate 4 in the width direction, and in order to facilitate an operator to observe the positions of the slots 41, the slots 41 are arranged in a semicircular groove matched with the moving posts 321, and one end of the slots 41 away from the steel knife plate 5 penetrates through the mounting plate 4.

Referring to fig. 1-3, when two positioning columns 322 on the turntable 31 are sequentially arranged along a moving direction parallel to the moving direction of the mounting plate 4 out of the exchanging edge 11 and the moving columns 321 are located above the positioning columns 322, the top ends of the positioning columns 322 and the top ends of the plurality of receiving shafts 21 are located on the same horizontal plane at this time, and when the mounting plate 4 moves to the position where the slot 41 faces the positioning columns 322, the positioning columns 322 can be inserted into the slot 41 to lock the mounting plate 4. When two reference columns 322 on the turntable 31 are sequentially arranged along the moving direction parallel to the movement direction of the mounting plate 4 out of the cutter-changing edge 11 and the moving columns 321 are positioned below the reference columns 322, the bottom ends of the reference columns 322 and the lower ends of the plurality of bearing shafts 21 are positioned on the same plane, after an operator turns over the mounting plate 4, the mounting plate 4 can be abutted to the plurality of bearing shafts 21 to be horizontally arranged, and the steel cutter plate 5 can be conveniently replaced by the operator.

Referring to fig. 1-3, two slots 41 divide the mounting plate 4 in a longitudinal direction into a first plate 42 and a second plate 43, the first plate 42 being located on a side of the second plate 43 adjacent to the automatic indenter 1 when the steel blade 5 on the mounting plate 4 is facing downward, the weight of the first plate 42 being greater than the weight of the second plate 43. This allows the mounting plate 4 to automatically abut on the plurality of receiving shafts 21 before or after the turning, and the mounting plate 4 can be kept in a horizontal state. The portion of the steel blade 5 located in the first plate 42 is calculated into the weight of the first plate 42, and the portion of the steel blade 5 located in the second plate 43 is calculated into the weight of the second plate 43, the weight of the first plate 42 being always greater than the weight of the second plate 43. In this embodiment, the length of the first plate 42 is greater than that of the second plate 43 to realize that the weight of the first plate 42 is greater than that of the second plate 43, so that when the steel knife plate 5 is turned upwards, most of the mounting plate 4 can be located on the outer side of the bearing table 2, and the operator can detach and install the steel knife plate 5 conveniently.

Referring to fig. 1 to 3, the side surfaces of the two receiving stands 2 which are away from each other are respectively provided with a placement box 22 for placing tools. The placement box 22 is open upward and is used for placing tools for dismounting the steel blade 5. The placing box 22 is arranged close to the automatic creasing machine 1, so that the influence of the placing box 22 on the dismounting and mounting of the steel knife board 5 can be reduced.

Of course, the foregoing is merely exemplary of the application, and other embodiments of the application are possible, and all modifications and equivalents of the application are intended to fall within the scope of the application.

Claims (8)

1. A full-automatic indentation machine steel knife board tool changing device which characterized in that: the automatic creasing machine comprises two bearing tables (2), wherein the two bearing tables (2) are fixed on one side face of an automatic creasing machine (1) facing a knife changing edge (11), the two bearing tables (2) are respectively located at two sides of the knife changing edge (11) of the automatic creasing machine (1), a plurality of bearing shafts (21) are rotatably connected to the bearing tables (2), the bearing shafts (21) are sequentially arranged along a moving direction parallel to a mounting plate (4) and moving out of the knife changing edge (11), the axis direction of the bearing shafts (21) is horizontally arranged and perpendicular to the moving direction of the mounting plate (4) and moving out of the knife changing edge (11), the bearing shafts (21) are used for bearing the mounting plate (4) moving out of the knife changing edge (11), and the bearing shafts (21) on the two bearing tables (2) are respectively located at two sides of a steel knife plate (5).

2. The full-automatic creasing-machine steel blade changing device according to claim 1, wherein: still include upset subassembly (3), upset subassembly (3) are used for overturning mounting panel (4), upset subassembly (3) include two locking piece (32) and two carousel (31), and two carousel (31) rotate along the axis direction that is on a parallel with and accept axle (21) respectively and connect on two accepting bench (2), and two carousel (31) coaxial setting, carousel (31) are located a plurality of one sides that accept axle (21) and keep away from automatic indenter (1), and two locking piece (32) correspond two carousel (31) respectively, locking piece (32) are used for locking mounting panel (4) on corresponding carousel (31).

3. The full-automatic creasing-machine steel blade changing device according to claim 2, wherein: the locking piece (32) comprises a moving post (321) and two positioning posts (322), the two positioning posts (322) are rotationally connected to the rotary table (31) along the axial direction parallel to the bearing shaft (21), the distance between the axes of the two positioning posts (322) and the axis of the rotary table (31) is equal, the moving post (321) is slidingly connected to the corresponding rotary table (31) along the axial direction parallel to the bearing shaft (21), slots (41) for the corresponding moving post (321) to be inserted are respectively formed in the side walls of two sides of the mounting plate (4), and when the moving post (321) is inserted into the corresponding slots (41), the mounting plate (4) is abutted to the two positioning posts (322).

4. The full-automatic creasing-machine steel blade changing device according to claim 3, wherein: the movable column (321) is located on a middle vertical line of an axis connecting line of the two positioning columns (322), when the two positioning columns (322) on the turntable (31) are sequentially arranged along a moving direction parallel to the mounting plate (4) and move out of the knife-exchanging edge (11), and the movable column (321) is located above the positioning columns (322), the top ends of the positioning columns (322) and the top ends of the plurality of bearing shafts (21) are located on the same plane, and when the two positioning columns (322) on the turntable (31) are sequentially arranged along a moving direction parallel to the mounting plate (4) and move out of the knife-exchanging edge (11), and the movable column (321) is located below the positioning columns (322), the bottom ends of the positioning columns (322) and the low ends of the plurality of bearing shafts (21) are located on the same plane.

5. The full-automatic creasing-machine steel blade changing device according to claim 3, wherein: the mounting plate (4) is divided into a first plate (42) and a second plate (43) along the length direction by the two slots (41), when the steel knife plate (5) on the mounting plate (4) faces downwards, the first plate (42) is positioned on one side, close to the automatic marking press (1), of the second plate (43), and the weight of the first plate (42) is larger than that of the second plate (43).

6. The full-automatic creasing-machine steel blade changing device according to claim 3, wherein: the side faces of one sides, opposite to each other, of the two turntables (31) are provided with sliding grooves (311), the moving columns (321) are connected in the corresponding sliding grooves (311) in a sliding mode along the axis direction parallel to the bearing shafts, the inner wall of one side, far away from the positioning columns (322), of each sliding groove (311) is provided with a first through groove (312) penetrating through the turntables (31), the moving columns (321) are provided with force application rods (33), and the force application rods (33) are connected in the first through grooves (312) in a sliding mode along the sliding direction parallel to the positioning columns (322).

7. The full-automatic creasing-machine steel blade changing device according to claim 6, wherein: the movable column (321) is rotatably connected in the sliding groove (311), a second through groove (313) for the force application rod (33) to move is formed in the outer wall of the rotary disc (31) along the circumferential direction of the rotary disc (31), and the second through groove (313) is communicated with the end part, far away from the mounting plate (4), of the first through groove (312).

8. The full-automatic creasing-machine steel blade changing device according to claim 1, wherein: the side surfaces of the two bearing tables (2) which are far away from each other are respectively provided with a placing box (22) for placing tools.