CN214772513U - High-efficient trimmer with combination tool bit - Google Patents

Abstract

The utility model provides a high-efficient trimmer with gang tool bit, including frame, quick-witted mesa, X axial motion, Y axial motion, Z axial motion and gang tool bit. The machine table surface is arranged right above the rack, and the Y-axis movement mechanism is arranged below the machine table surface. The X axial movement mechanism is arranged above the machine table surface, and two ends of the X axial movement mechanism are connected with the Y axial movement mechanism in a sliding mode. The Z axial movement mechanism is slidably mounted on the X axial movement mechanism, and the combined tool bit is arranged on the Z axial movement mechanism. The combined tool bit comprises a creasing device and a vibrating knife cutting device which are vertically arranged in parallel to the Y-axis direction. When the paperboard is cut and pressed to be longer and needs to be cut and indented on the same straight line along the Y axis, the cutter head of the utility model does not need to be adjusted in the X axis direction, so that the processing time loss is reduced; and two tool bits that are equipped with can independently cut out the pressure simultaneously in Y axle direction, have improved machining efficiency.

Description

High-efficient trimmer with combination tool bit

The technical field is as follows:

the utility model relates to a paper cutter equipment field especially relates to a high-efficient paper cutter with gang tool bit.

Background art:

most of paper cutters on the market are in a single-cutter-head form, cutting cutters and indentation rollers are arranged perpendicular to the Y-axis direction, and the paper cutters are mainly used for cutting and pressing complex small-pattern paper boards. However, when the paperboard is cut and pressed in a longer shape and needs to be continuously cut and pressed along the same straight line in the Y-axis direction, the position of the cutter head needs to be adjusted in the X-axis direction before secondary cutting or pressing can be performed, and if a plurality of cutting and pressing requirements are met in the same straight line in the Y-axis direction, the cutter head needs to be adjusted in the X-axis direction for multiple times, so that the loss of processing time is increased, and the processing efficiency is reduced.

The utility model has the following contents:

in order to solve the problem, the utility model provides a high-efficient trimmer with gang tool bit.

The technical scheme of the utility model is so realize: a high-efficiency paper cutter with combined cutter heads comprises a rack, a machine table board, an X axial movement mechanism, a Y axial movement mechanism, a Z axial movement mechanism and the combined cutter heads. The machine table is arranged right above the machine frame and fixedly connected with the machine frame. The Y axial movement mechanism is fixedly connected with the rack and arranged below the machine table board and used for driving the X axial movement mechanism to move along the Y axis direction. The X axial movement mechanism is arranged above the machine table board, and two ends of the X axial movement mechanism are connected with the Y axial movement mechanism in a sliding manner; the X axial movement mechanism is used for driving the Z axial movement mechanism to move along the X axis direction. The Z axial motion mechanism is slidably mounted on the X axial motion mechanism, the combined tool bit is arranged on the Z axial motion mechanism and comprises an indentation device and a vibrating knife cutting device, and the indentation device and the vibrating knife cutting device are vertically mounted in a direction parallel to the Y axis. And the Z-axis movement mechanism is used for driving the combined tool bit to move along the Z-axis direction.

Furthermore, the Y-axis movement mechanism comprises a Y-axis driving device, a transmission mechanism, a first Y-axis movement assembly and a second Y-axis movement assembly, the Y-axis driving device is arranged on the transmission mechanism, and two ends of the transmission mechanism are respectively in transmission connection with the first Y-axis movement assembly and the second Y-axis movement assembly.

Further, the first Y-axis motion assembly comprises a first Y-axis synchronous belt, a first Y-axis guide rail and a first Y-axis moving seat; the second Y-axis motion assembly comprises a second Y-axis synchronous belt, a second Y-axis guide rail and a second Y-axis moving seat. First Y axle removes the seat, second Y axle removes the seat respectively with first Y axle hold-in range, second Y axle hold-in range fixed connection, with first Y axle guide rail, second Y axle guide rail sliding connection. The Y-axis driving device drives the first Y-axis synchronous belt and the second Y-axis synchronous belt to move in the Y-axis direction through the transmission device, so that the first Y-axis moving seat and the second Y-axis moving seat are driven to move in the Y-axis direction on the first Y-axis guide rail and the second Y-axis guide rail.

Furthermore, the X-axis movement mechanism comprises an X-axis beam, an X-axis driving device, an X-axis guide rail, an X-axis rack and an X-axis moving seat. X axle guide rail and X axle rack parallel arrangement are in on the X axle crossbeam, X axle remove the seat with X axle guide rail sliding connection, X axle drive arrangement fixed mounting is in on the X axle removes the seat, X axle drive arrangement's output passes X axle remove the seat with X axle rack meshing is connected. And two ends of the X-axis beam are respectively fixedly connected with the first Y-axis moving seat and the second Y-axis moving seat so as to drive the X-axis moving mechanism to move along the Y-axis direction.

Further, Z axial motion includes Z axle base, first Z axial motion and second Z axial motion are on a parallel with Y axle direction fixed mounting Z axle base, first Z axial motion with vibration sword cutting device sliding connection for drive thereby vibration sword cutting device carries out cutting process to the cardboard along the motion of Z axle direction. The second Z-axis movement mechanism is connected with the indentation device in a sliding mode and used for driving the indentation device to move along the Z-axis direction so as to indent the paperboard. The Z-axis base is fixedly connected with the X-axis moving seat to realize that the Z-axis moving mechanism moves along the X-axis direction.

Furthermore, the vibration knife cutting device comprises a rotary knife driving mechanism, a rotary knife transmission mechanism, a vertical driving mechanism, a vibration knife rod component and a vibration knife blade. The vertical driving mechanism is arranged at the upper end of the vibrating cutter bar assembly, the vibrating blade is fixedly installed at the lower end of the vibrating cutter bar assembly, and the vertical driving mechanism drives the vibrating cutter bar assembly to vibrate up and down to cut the paperboard. The rotary cutter driving mechanism is arranged on one side of the rotary cutter transmission mechanism, the rotary cutter transmission mechanism is in transmission connection with the vibrating cutter bar assembly, and the rotary cutter driving mechanism drives the vibrating cutter bar assembly to perform rotary motion through the rotary cutter transmission mechanism.

Further, the indentation device comprises a steering driving mechanism, a steering transmission mechanism and a crease pressing wheel assembly. The steering driving mechanism is arranged on one side of the steering transmission mechanism, and the steering transmission mechanism is in transmission connection with the crease pressing wheel assembly. The steering driving mechanism drives the crease pressing wheel assembly to rotate through the steering transmission mechanism.

Further, the combined tool bit is provided with two combined tool bits, and can be used for simultaneously carrying out indentation and cutting on a product in the Y-axis direction.

The utility model has the advantages that:

(1) the utility model provides a high-efficient trimmer with combination tool bit, including frame, machine mesa, X axial motion, Y axial motion, Z axial motion and combination tool bit, the combination tool bit includes vibration sword cutting device and indentation device, and each mechanism mutually supports and cuts and the indentation processing to the cardboard. And the vibrating knife cutting device and the indentation device are vertically arranged in parallel to the Y-axis direction, when the cutting and indentation shape is longer and the cutting and indentation are required to be carried out on the same straight line along the Y-axis direction, the cutter head can directly and continuously carry out the cutting and indentation without being adjusted in the X-axis direction, and therefore the loss of the processing time is reduced.

(2) The utility model discloses be equipped with two combination tool bits on X axle motion, can independently cut out simultaneously and press in Y axle direction, improved machining efficiency.

Description of the drawings:

fig. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of the X-axis movement mechanism and the combined tool bit;

in the figure: 1, a frame; 2, a machine table board; a 3Y axial movement mechanism; 31Y-axis driving device; 32 a transmission mechanism; 33 a first Y-axis motion assembly; 331 a first Y-axis timing belt; 332 a first Y-axis rail; 333 first Y-axis moving base; 34 a second Y-axis motion assembly; 341 second Y-axis timing belt; 342 second Y-axis rail; 343 second Y-axis motion stage; a 4X axial movement mechanism; 41X-axis beam; a 42X-axis guide rail; a 43X-axis rack; 44X-axis drive means; a 45X-axis movable base; 5Z axial movement mechanism; a 51Z-axis base; 52 a second Z-axis motion mechanism; 53 first Z-axis motion; 6, combining the cutter head; 61 vibrating knife cutting means; 611 rotating knife driving mechanism; 612 rotary cutter transmission mechanism; 613 a vertical drive mechanism; 614 vibrating the blade bar assembly; 615 vibrating the blade; 62 an indentation device; 621 a steering drive mechanism; 622 steering gear; crease pinch roller subassembly.

The specific implementation mode is as follows:

the following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the protection scope of the present invention can be clearly and clearly defined.

Referring to fig. 1 and 2, the high-efficiency paper cutter with the combined cutter head comprises a frame 1, a machine table top 2, an X axial movement mechanism 4, a Y axial movement mechanism 3, a Z axial movement mechanism 5 and the combined cutter head 6. The machine table board 2 is arranged right above the machine frame 1 and is fixedly connected with the machine frame 1. The Y axial movement mechanism 3 is fixedly connected with the rack 1 and arranged below the machine table board 2 and used for driving the X axial movement mechanism 4 to move along the Y axis direction. The X axial movement mechanism 4 is arranged above the machine table board 2, and two ends of the X axial movement mechanism 4 are connected with the Y axial movement mechanism 3 in a sliding manner; the X-axis movement mechanism 4 is used for driving the Z-axis movement mechanism 5 to move along the X-axis direction. The Z-axis movement mechanism 5 is slidably mounted on the X-axis movement mechanism 4, the combined tool bit 6 is arranged on the Z-axis movement mechanism 5, and two combined tool bits 6 are arranged. Further, the combined cutter 6 includes a creasing device 62 and a vibrating blade cutting device 61, and the creasing device 62 and the vibrating blade cutting device 61 are vertically installed in parallel to the Y-axis direction. The Z-axis movement mechanism 5 is used for driving the combined tool bit 6 to move along the Z-axis direction

The Y-axis movement mechanism 3 comprises a Y-axis driving device 31, a transmission mechanism 32, a first Y-axis movement assembly 33 and a second Y-axis movement assembly 34, the Y-axis driving device 31 is arranged on the transmission mechanism 32, and two ends of the transmission mechanism 32 are in transmission connection with the first Y-axis movement assembly 33 and the second Y-axis movement assembly 34 respectively.

The first Y-axis moving assembly 33 includes a first Y-axis synchronous belt 331, a first Y-axis guide rail 332, and a first Y-axis moving base 333; the second Y-axis moving assembly 34 includes a second Y-axis timing belt 341, a second Y-axis guide rail 342, and a second Y-axis moving base 343. The first Y-axis moving base 333 and the second Y-axis moving base 343 are respectively fixedly connected to the first Y-axis synchronous belt 331 and the second Y-axis synchronous belt 341, and slidably connected to the first Y-axis guide rail 332 and the second Y-axis guide rail 342. The Y-axis driving device 31 drives the first Y-axis synchronous belt 331 and the second Y-axis synchronous belt 341 to move in the Y-axis direction through the transmission device 32, so as to drive the first Y-axis moving seat 333 and the second Y-axis moving seat 343 to move in the Y-axis direction on the first Y-axis guide rail 332 and the second Y-axis guide rail 342.

As shown in fig. 3, the X-axis movement mechanism 4 includes an X-axis beam 41, an X-axis driving device 44, an X-axis guide rail 42, an X-axis rack 43, and an X-axis moving base 45. The X-axis guide rail 42 and the X-axis rack 43 are arranged on the X-axis beam 41 in parallel, and the X-axis moving seat 45 is connected with the X-axis guide rail 42 in a sliding manner. The X-axis driving device 44 is fixedly mounted on the X-axis moving seat 45, and an output end of the X-axis driving device 44 penetrates through the X-axis moving seat 45 to be meshed with the X-axis rack 43. Two ends of the X-axis cross beam 41 are respectively and fixedly connected with the first Y-axis moving seat 333 and the second Y-axis moving seat 343, so as to drive the X-axis moving mechanism 4 to move along the Y-axis direction.

In addition, the Z-axis moving mechanism 5 includes a Z-axis base 51, a first Z-axis moving mechanism 53 and a second Z-axis moving mechanism 52, the first Z-axis moving mechanism 53 and the second Z-axis moving mechanism 52 are fixedly mounted on the Z-axis base 51 in parallel to the Y-axis direction, and the first Z-axis moving mechanism 53 is connected with the vibrating knife cutting device 61 in a sliding manner, so as to drive the vibrating knife cutting device 61 to move along the Z-axis direction, thereby cutting the paperboard. The second Z-axis moving mechanism 52 is slidably connected to the creasing device 62, and is configured to drive the creasing device 62 to move along the Z-axis direction, so as to crease the cardboard. The Z-axis base 51 is fixedly connected with the X-axis moving base 45 to realize the movement of the Z-axis moving mechanism 5 along the X-axis direction.

The vibration knife cutting device 61 includes a rotary knife driving mechanism 611, a rotary knife transmission mechanism 612, a vertical driving mechanism 613, a vibration knife bar assembly 614, and a vibration knife 615. The vertical driving mechanism 613 is arranged at the upper end of the vibration blade assembly 614, the vibration blade 615 is fixedly installed at the lower end of the vibration blade assembly 614, and the vertical driving mechanism 613 drives the vibration blade 615 to vibrate up and down through the vibration blade assembly 614 so as to cut the paperboard. The rotary cutter driving mechanism 611 is arranged on one side of the rotary cutter transmission mechanism 612, the rotary cutter transmission mechanism 612 is in transmission connection with the vibration cutter bar assembly 614, and the rotary cutter driving mechanism 611 drives the vibration cutter bar assembly 614 to rotate through the rotary cutter transmission mechanism 612, so that the vibration cutter blade 615 is driven to rotate to a proper angle to perform vibration cutting on the paperboard.

The creasing device 62 comprises a steering driving mechanism 621, a steering transmission mechanism 622 and a creasing press wheel assembly 623. The steering driving mechanism 621 is disposed on one side of the steering transmission mechanism 622, and the steering transmission mechanism 622 is in transmission connection with the crease pressing wheel assembly 623. The steering driving mechanism 621 drives the crease pressing wheel assembly 623 to rotate through the steering transmission mechanism 622, so as to drive the crease pressing wheel assembly 623 to rotate to a proper angle to mark the paperboard.

When the paper cutter cuts and impresses the paper board, the first Z-axis movement mechanism 53 on the two combined tool bits 6 drives the vibrating knife cutting device 61 to descend to a height to be processed, and then the Y-axis driving device 31 and the X-axis driving device 44 are started, so that the two vibrating knife cutting devices 61 are synchronously and symmetrically cut and process the paper board along the Y-axis direction. After the cutting process is completed, the first Z-axis movement mechanism 53 drives the vibrating knife cutting device 61 to reset, the second Z-axis movement mechanism 52 drives the creasing device 62 to descend to the height to be processed, and the two creasing devices 62 are driven by the Y-axis movement mechanism 3 and the X-axis movement mechanism 4 to realize synchronous and symmetrical creasing of the paperboard along the Y-axis direction.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (8)

1. The utility model provides a high-efficient trimmer with gang tool bit which characterized in that: the combined type cutter head comprises a rack (1), a machine table surface (2), an X axial movement mechanism (4), a Y axial movement mechanism (3), a Z axial movement mechanism (5) and a combined cutter head (6), wherein the machine table surface (2) is arranged right above the rack (1) and fixedly connected with the rack (1), and the Y axial movement mechanism (3) is fixedly connected with the rack (1) and arranged below the machine table surface (2) and used for driving the X axial movement mechanism (4) to move along the Y axis direction; the X axial movement mechanism (4) is arranged above the machine table board (2), two ends of the X axial movement mechanism (4) are connected with the Y axial movement mechanism (3) in a sliding mode, and the X axial movement mechanism (4) is used for driving the Z axial movement mechanism (5) to move along the X axis direction; z axial motion (5) slidable mounting is in on the X axial motion (4), establish combination tool bit (6) on the Z axial motion (5), combination tool bit (6) are including indentation device (62) and vibration sword cutting device (61), indentation device (62) and vibration sword cutting device (61) are on a parallel with the vertical installation of Y axle direction.

2. The high-efficiency paper cutter with combined cutter heads according to claim 1, characterized in that: y axial motion (3) include Y axle drive arrangement (31), drive mechanism (32), first Y axle motion subassembly (33) and second Y axle motion subassembly (34), Y axle drive arrangement (31) are located on drive mechanism (32), the both ends of drive mechanism (32) respectively with first Y axle motion subassembly (33) and second Y axle motion subassembly (34) transmission are connected.

3. The high-efficiency paper cutter with combined cutter heads according to claim 2, characterized in that: the first Y-axis motion assembly (33) comprises a first Y-axis synchronous belt (331), a first Y-axis guide rail (332) and a first Y-axis moving seat (333), and the second Y-axis motion assembly (34) comprises a second Y-axis synchronous belt (341), a second Y-axis guide rail (342) and a second Y-axis moving seat (343); the first Y-axis moving seat (333) and the second Y-axis moving seat (343) are respectively fixedly connected with the first Y-axis synchronous belt (331) and the second Y-axis synchronous belt (341) and are slidably connected with the first Y-axis guide rail (332) and the second Y-axis guide rail (342).

4. The high-efficiency paper cutter with combined cutter heads according to claim 3, characterized in that: x axial motion (4) include X axle crossbeam (41), X axle drive arrangement (44), X axle guide rail (42), X axle rack (43) and X axle and remove seat (45), X axle guide rail (42) and X axle rack (43) parallel arrangement are in on X axle crossbeam (41), X axle remove seat (45) with X axle guide rail (42) sliding connection, X axle drive arrangement (44) fixed mounting be in on X axle removes seat (45), just the output of X axle drive arrangement (44) passes X axle removes seat (45) with X axle rack (43) meshing connection, X axle crossbeam (41) both ends respectively with first Y axle removes seat (333), second Y axle and removes seat (343) fixed connection.

5. The high-efficiency paper cutter with combined cutter heads according to claim 4, characterized in that: z axial motion (5) include Z axle base (51), first Z axial motion (53) and second Z axial motion (52) are on a parallel with Y axle direction fixed mounting Z axle base (51), first Z axial motion (53) with vibration sword cutting device (61) sliding connection, second Z axial motion (52) with indentation device (62) sliding connection, Z axle base (51) with X axle removes seat (45) fixed connection.

6. The high-efficiency paper cutter with combined cutter heads according to claim 1, characterized in that: the vibrating knife cutting device (61) comprises a rotating knife driving mechanism (611), a rotating knife transmission mechanism (612), a vertical driving mechanism (613), a vibrating knife rod assembly (614) and a vibrating blade (615), wherein the vertical driving mechanism (613) is arranged at the upper end of the vibrating knife rod assembly (614), the vibrating blade (615) is fixedly installed at the lower end of the vibrating knife rod assembly (614), and the vertical driving mechanism (613) drives the vibrating knife blade (615) to vibrate up and down through the vibrating knife rod assembly (614) so as to cut a paperboard; the rotary cutter driving mechanism (611) is arranged on one side of the rotary cutter transmission mechanism (612), the rotary cutter transmission mechanism (612) is in transmission connection with the vibrating cutter bar assembly (614), and the rotary cutter driving mechanism (611) drives the vibrating cutter bar assembly (614) to rotate through the rotary cutter transmission mechanism (612).

7. The high-efficiency paper cutter with combined cutter heads according to claim 1, characterized in that: the creasing device (62) comprises a steering driving mechanism (621), a steering transmission mechanism (622) and a crease pressing wheel assembly (623), wherein the steering driving mechanism (621) is arranged on one side of the steering transmission mechanism (622), and the steering transmission mechanism (622) is in transmission connection with the crease pressing wheel assembly (623); the steering driving mechanism (621) drives the crease pressing wheel assembly (623) to rotate through the steering transmission mechanism (622).

8. The high-efficiency paper cutter with combined cutter heads according to claim 1, characterized in that: the combined tool bit (6) is provided with two.

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