CN116512355B

CN116512355B - Quick positioning die-cutting device for conductive foam

Info

Publication number: CN116512355B
Application number: CN202310738420.9A
Authority: CN
Inventors: 韩高斌
Original assignee: Suzhou Wangshunyuan Photoelectric Technology Co ltd
Current assignee: Suzhou Wangshunyuan Photoelectric Technology Co ltd
Priority date: 2023-06-21
Filing date: 2023-06-21
Publication date: 2023-10-20
Anticipated expiration: 2043-06-21
Also published as: CN116512355A

Abstract

The application provides a quick positioning die cutting device for conductive foam, which relates to the field of conductive foam die cutting, and comprises the following components: a die cutting tool body; the lower end of the punching push rod of the die-cutting tool main body is provided with a conductive foam cutting die; the control panel is fixedly connected to the right surface of the die cutting tool main body through a screw; the rotary servo motor is fixedly connected to the die cutting tool main body; the discharging pushing top frame is fixedly connected to the right surface of the die cutting tool main body through bolts; the workpiece fixing mechanism of the conductive foam die-cutting device has the functions of unloading and clamping according to the stroke position, and can automatically release the fixation of the rim charge when the die-cutting table rotates to the set position, so that an operator can conveniently detach the rim charge and install new conductive foam, and the problems that excessive time is occupied by the operation of a positioning tool and the separation of the rim charge, the operation process is complicated, the die-cutting processing efficiency of the conductive foam is small, and the conductive foam is not suitable for efficient production are solved.

Description

Quick positioning die-cutting device for conductive foam

Technical Field

The application relates to the technical field of conductive foam die cutting, in particular to a conductive foam quick positioning die cutting device.

Background

When the conductive foam is produced, the conductive foam can be die-cut into different shapes and sizes according to application modes, in the conductive foam die-cutting process, the whole conductive foam is fixed through a positioning component of a die-cutting mechanism, and then the die-cutting mechanism drives a die-cutting tool to move downwards, so that the conductive foam is die-cut into a set shape through the die-cutting tool.

In the existing conductive foam die cutting device, the conductive foam needs to be fixed by manually operating a positioning tool, the positioning tool is controlled to release the fixation of the conductive foam after die cutting is completed, the conductive foam is taken down from a die cutting workbench, a die-cut conductive foam finished product is separated from rim charge, excessive time is occupied for the operation of the positioning tool and the separation of rim charge, the operation process is complicated, the die cutting processing efficiency of the conductive foam is improved by a small space, and the conductive foam die cutting device is not suitable for high-efficiency production.

Disclosure of Invention

The application provides a quick positioning die-cutting device for conductive foam, which comprises a die-cutting tool main body; the lower end of the punching push rod of the die-cutting tool main body is provided with a conductive foam cutting die; the control panel is fixedly connected to the right surface of the die cutting tool main body through a screw; the rotary servo motor is fixedly connected to the die cutting tool main body; the unloading pushing frame is fixedly connected to the right surface of the die cutting tool main body through bolts and is positioned right of the rotary shaft of the rotary servo motor; the unloading driving support plate is connected to the left side of the die cutting tool main body platform through welding; the rotary die cutting table is fixedly connected to the upper end of the rotating shaft of the rotary servo motor through bolts and is perpendicular to the rotating shaft of the rotary servo motor, and the rotary die cutting table is parallel to the platform surface of the die cutting tool main body; the rotary support plates are arranged everywhere and are hinged on the rotary die cutting table; the automatic pushing frames are arranged everywhere and are connected to the rotary die cutting table in a sliding manner; the rotary drum is provided with four parts, and the four parts of the rotary drum are all rotationally connected to the lower surface of the rotary die cutting table.

Further, the discharging pushing top frame is rotatably connected with a discharging supporting wheel through a bearing, and the axis of the discharging supporting wheel is perpendicular to the right surface of the die cutting tool main body.

Further, the upper surface fixedly connected with of the drive extension board of unloading unloads the arc rack, and the arc rack of unloading is convex structure, and the centre of a circle of the arc rack of unloading is gyration servo motor pivot, and the flank of tooth of the arc rack of unloading up.

Further, cut the bench discharge opening of cutting the bench of square structure everywhere of running through on the rotary die, cut the spacing inward flange of bench of the surface upper edge processing of bench discharge opening, the outside and the inboard of cutting the bench discharge opening everywhere are fixedly connected with a work piece spacing respectively, cut the both sides of bench discharge opening and vertically run through respectively and have offered a direction longitudinal groove.

Further, eight internal reset pushing plates are fixedly connected to the lower surface of the rotary die cutting table, are respectively located on two sides of the discharge opening of the rotary die cutting table, a stripper plate reset pushing spring is fixedly connected to the upper surface of each internal reset pushing plate, and the upper ends of the stripper plate reset pushing springs are fixedly connected to the lower surface of the rotary support plate.

Further, the lower surface of rotary die cuts the platform and rotates and be connected with the driven round of unloading everywhere through the bearing, the driven round of unloading distance from rotary servo motor axis is equal to the radius of arc rack of unloading, and the lower surface of rotary die cuts the platform is connected with everywhere through the bearing rotation and unloads the switching-over axle, and the driven round of unloading everywhere is rotated and is connected with everywhere and unload the switching-over axle through gear drive, and the outer end fixedly connected with switching-over driving gear of switching-over axle, the lower surface of rotary die cuts the platform has seted up everywhere pinion rack and accomodates the mouth.

Further, rotatory extension board is the rectangular plate body, and the inside edge of rotatory extension board articulates in cutting the platform discharge opening, and the outward flange processing of rotatory extension board has the extension board end reason of inclined plane structure, and extension board end reason is laminated with cutting the spacing inward flange of platform, and the lower fixed surface of rotatory extension board is connected with driven arc pinion rack, and driven arc pinion rack is outwards, and driven arc pinion rack accomodates mouth sliding connection with the pinion rack, and driven arc pinion rack's centre of a circle is the inside edge of rotatory extension board.

Further, the automatic frame that pushes away is the support body of "U" shape structure, and automatic side sliding connection who pushes away the frame is at the direction longitudinal groove, and automatic side upper end of pushing away the frame inwards bends the processing and have interior clamp edge, and automatic both sides face lower limb fixedly connected with pushes away the frame arm-tie that pushes away the frame arm-tie, the upper surface fixedly connected with bubble cotton fixed push spring that pushes away the frame arm-tie, the upper end fixed connection of bubble cotton fixed push spring is rotatory die cutting lower surface of platform.

Further, the inner edge of the lower surface of the automatic pushing frame is fixedly connected with a discharging wedge block, the discharging wedge block is an isosceles triangle block, and the axial distance between the discharging wedge block and the rotating shaft of the rotary servo motor is equal to the axial distance between the discharging supporting wheel and the rotating shaft of the rotary servo motor.

Further, the rotary roller is meshed with the driven arc toothed plate, a rolling driven gear is fixedly connected to the shaft of the rotary roller, and the rolling driven gear is meshed with the reversing driving gear.

The beneficial effects are that:

1. the die cutting table in the conductive foam die cutting device is provided with four die cutting areas which are all positioned on the rotary die cutting table and driven to rotate by the rotary servo motor, so that the four die cutting areas can be respectively adjusted to the lower part of the conductive foam die cutting die to participate in die cutting, meanwhile, the operation of unloading and installing the conductive foam can be carried out on the die cutting areas at other positions, more operations can be carried out by better utilizing the die cutting time, the idle time is saved, and the die cutting efficiency of the conductive foam is improved.

2. According to the application, the unloading pushing top frame is arranged on the right surface of the die cutting tool main body, the automatic pushing frame is pushed downwards under the normal state under the action of the foam fixing pushing spring, the edge of the finished cutting die is taken out and put into conductive foam which is not subjected to die cutting, and in the process that the rotary die cutting table is driven to rotate by the rotary servo motor, when the unloading wedge of the automatic pushing frame which rotates to the right side is contacted with the unloading supporting wheel, rolling connection is formed, under the action of the inclined surface of the unloading wedge, the automatic pushing frame is pushed upwards gradually along with the approaching of the unloading supporting wheel to the middle top angle of the unloading wedge, the inner positioning clamping edge is separated from the upper surface edge of the workpiece, the workpiece is contacted and clamped, the workpiece at the position can be replaced in the time period, and the edge of the finished cutting die is taken out, and the conductive foam which is not subjected to die cutting is put into the conductive foam, and when the rotary servo motor drives the rotary die cutting table to rotate anticlockwise, the automatic pushing frame moves downwards to reset under the thrust action of the foam fixing pushing spring, the edge of the conductive foam is fixed by the unloading wedge, the conductive foam edge is fixed by the inner positioning clamping edge, the conductive foam can be fixed to the die cutting foam can be automatically removed, and the die cutting position of the conductive foam can be conveniently and the die cutting die can be automatically removed, and the die cutting position can be controlled, and the die cutting position can be conveniently and the die cut and the conductive foam can be conveniently and the die can be fixed and moved to the die and the die cut and the conductive foam can be conveniently and the die and cut.

3. In the application, the rotary support plate is tightly attached to the discharge opening of the cutting table under the action of the reset pushing spring of the discharge plate in the die cutting process, the rotary support plate is limited under the action of the end edge of the support plate and the limiting inner edge of the cutting table, so that the rotary support plate is flush with the upper surface of the cutting table of the rotary die, the lower surface of the conductive foam is attached to the rotary support plate, when the conductive foam cutting die punches downwards, the conductive foam is die-cut under the punching force between the die cutter of the conductive foam cutting die and the rotary support plate, the pushing force of the reset pushing spring of the discharge plate is larger than the punching force of the conductive foam cutting die, the rotary support plate is firmly supported, the conductive foam is rotated to the left side of the die cutting device by the anticlockwise rotation of the rotary servo motor, the discharge driven rotary wheel is meshed with the discharge arc rack in the rotating process, so as to form the gear rack transmission, the automatic discharging device is driven to rotate by the movement of the discharging driven rotary wheel, the discharging reversing shaft is driven to rotate by the gear transmission between the wheel shaft of the discharging driven rotary wheel and the discharging reversing shaft, the rotary roller is driven to rotate by the gear transmission of the reversing driving gear and the rolling driven gear, meanwhile, the rotary roller is meshed with the driven arc toothed plate to form transmission, the rotary support plate is driven to overturn downwards, the discharging plate reset push spring is extruded and contracted, the conductive foam finished product passing through the die cutting above the discharging opening of the cutting table is separated from the rim charge under the action of self gravity after the rotary support plate overturn downwards, the conductive foam finished product is separated from the rim charge and slides outwards by the rotary support plate of an inclined structure, thereby realizing the separation of the conductive foam finished product and the rim charge, the automatic discharging and automatic resetting device has the functions of changing the cutting table structure according to the rotary stroke, so that the step of manually separating the rim charge is saved, and the die cutting efficiency of the conductive foam is further improved.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the present application.

Fig. 2 is a schematic view of the structure below the embodiment of the present application.

Fig. 3 is a schematic view of the lower left side of the embodiment of the present application.

Fig. 4 is a schematic structural view of a die cutting tool body according to an embodiment of the present application.

Fig. 5 is a schematic top view of the embodiment of the present application in fig. 4.

Fig. 6 is a schematic view of the structure of a rotary die-cutting table according to an embodiment of the present application.

Fig. 7 is a schematic view of the structure below the rotary die-cutting table according to the embodiment of the present application.

Fig. 8 is a schematic view showing a structure of a rotary die-cutting table in an exploded state according to an embodiment of the present application.

Fig. 9 is a schematic structural view of the automatic pushing frame and the rotary die cutting table in a separated state according to the embodiment of the present application.

Fig. 10 is a schematic structural view of a rotating support plate according to an embodiment of the present application.

Fig. 11 is a schematic structural view of a rotating support plate and a rotating drum in a mated state according to an embodiment of the present application.

Fig. 12 is a partially enlarged schematic view of the structure of fig. 3 at a in accordance with an embodiment of the present application.

Fig. 13 is a partially enlarged structural schematic diagram of fig. 6B according to an embodiment of the present application.

Fig. 14 is a partially enlarged structural schematic diagram of fig. 7 at C according to an embodiment of the present application.

List of reference numerals

1. A die cutting tool body; 2. cutting conductive foam into a die; 3. a control panel; 4. a rotary servo motor; 5. a discharging pushing frame; 501. a discharge supporting wheel; 6. a discharge driving support plate; 601. discharging an arc-shaped rack; 7. rotating the die cutting table; 701. cutting a table discharge port; 702. cutting table limiting inner edge; 703. a workpiece limiting strip; 704. a guide longitudinal groove; 705. an inner reset push plate; 706. resetting the stripper plate and pushing the spring; 707. a discharge driven rotary wheel; 708. a discharging reversing shaft; 709. a reversing driving gear; 710. a toothed plate receiving opening; 8. rotating the support plate; 801. the end edge of the support plate; 802. driven arc toothed plate; 9. automatically pushing the frame; 901. an inner positioning clamping edge; 902. pushing a frame pulling plate; 903. a foam fixing push spring; 904. a discharge wedge; 10. rotating the drum; 1001. rolling the driven gear.

Detailed Description

Embodiments of the present application are described in further detail below with reference to the accompanying drawings and examples.

Examples:

please refer to fig. 1 to 14:

the application provides a quick positioning die-cutting device for conductive foam, which comprises a die-cutting tool main body 1; the lower end of a punching push rod of the die-cutting tool main body 1 is provided with a conductive foam cutting die 2; the control panel 3, the control panel 3 is fixedly connected to the right surface of the die-cutting tool main body 1 through the screw; the rotary servo motor 4 is fixedly connected to the die cutting tool main body 1; the unloading pushing frame 5 is fixedly connected to the right surface of the die cutting tool main body 1 through bolts, the unloading pushing frame 5 is positioned right to the rotating shaft of the rotary servo motor 4, the unloading pushing frame 5 is rotatably connected with an unloading supporting wheel 501 through a bearing, and the axis of the unloading supporting wheel 501 is perpendicular to the right surface of the die cutting tool main body 1; the unloading driving support plate 6 is connected to the left side of the platform of the die cutting tool main body 1 through welding, the unloading arc-shaped rack 601 is fixedly connected to the upper surface of the unloading driving support plate 6, the unloading arc-shaped rack 601 is of a circular arc structure, the circle center of the unloading arc-shaped rack 601 is the rotating shaft of the rotary servo motor 4, and the tooth surface of the unloading arc-shaped rack 601 faces upwards; the rotary die cutting table 7 is fixedly connected to the upper end of the rotating shaft of the rotary servo motor 4 through bolts, the rotary die cutting table 7 is perpendicular to the rotating shaft of the rotary servo motor 4, and the rotary die cutting table 7 is parallel to the platform surface of the die cutting tool main body 1; the rotary support plates 8 are arranged everywhere, and the rotary support plates 8 are hinged on the rotary die cutting table 7 everywhere; the automatic pushing frame 9 is arranged everywhere, and the automatic pushing frame 9 is connected to the rotary die cutting table 7 in a sliding manner everywhere; the rotary drum 10, the rotary drum 10 is provided with four places, and the rotary drum 10 all around is connected to the lower surface of the rotary die cutting table 7 in a rotary mode; in the working process, the rotary servo motor 4 is controlled by the control panel 3 to rotate anticlockwise, and the rotary die cutting table 7 is driven to rotate anticlockwise.

The rotary die cutting table 7 is provided with a cutting table discharging opening 701 with a square structure in a penetrating way, the upper edge of the outer surface of the cutting table discharging opening 701 is provided with a cutting table limiting inner edge 702 with an inward convex structure, the outer side and the inner side of the cutting table discharging opening 701 are respectively fixedly connected with a workpiece limiting bar 703, and two sides of the cutting table discharging opening 701 are respectively provided with a guiding longitudinal groove 704 in a penetrating way in a longitudinal way; through the structure of the limit inner edge 702 of the cutting table and the structure of the end edge 801 of the support plate, the angle of the rotary support plate 8 is limited, the rotary support plate 8 is prevented from tilting out of the discharge opening 701 of the cutting table under the action of the reset push spring 706 of the discharge plate, the limiting of the inner and outer directions of materials is carried out through the action of the limit strips 703 of the workpiece, the automatic push frame 9 is guided through the sliding connection of the guide longitudinal grooves 704 and the side plates of the automatic push frame 9, and the automatic push frame 9 is ensured to be lifted vertically.

Eight internal reset pushing plates 705 are fixedly connected to the lower surface of the rotary die cutting table 7, the eight internal reset pushing plates 705 are respectively positioned on two sides of the discharge opening 701 of the cutting table, a stripper plate reset pushing spring 706 is fixedly connected to the upper surface of the internal reset pushing plate 705, and the upper end of the stripper plate reset pushing spring 706 is fixedly connected to the lower surface of the rotary support plate 8; the lower surface of the rotary die cutting table 7 is rotationally connected with four discharge driven rotary wheels 707 through bearings, the distance between the discharge driven rotary wheels 707 and the axis of the rotary servo motor 4 is equal to the radius of the discharge arc-shaped rack 601, the lower surface of the rotary die cutting table 7 is rotationally connected with four discharge reversing shafts 708 through bearings, the four discharge driven rotary wheels 707 are in gear transmission connection with the four discharge reversing shafts 708, the outer ends of the discharge reversing shafts 708 are fixedly connected with reversing driving gears 709, and four toothed plate receiving openings 710 are formed in the lower surface of the rotary die cutting table 7; the rotary support plate 8 is a rectangular plate body, the inner edge of the rotary support plate 8 is hinged in the cutting table discharging opening 701, the outer edge of the rotary support plate 8 is provided with a support plate end edge 801 with an inclined surface structure, the support plate end edge 801 is attached to the cutting table limiting inner edge 702, the lower surface of the rotary support plate 8 is fixedly connected with a driven arc toothed plate 802, racks of the driven arc toothed plate 802 face outwards, the driven arc toothed plate 802 is in sliding connection with a toothed plate accommodating opening 710, the center of the driven arc toothed plate 802 is the inner edge of the rotary support plate 8, the rotary drum 10 is in meshed connection with the driven arc toothed plate 802, a rolling driven gear 1001 is fixedly connected to the shaft of the rotary drum 10, and the rolling driven gear 1001 is in meshed connection with a reversing driving gear 709; under the normal state, the lower surface of the conductive foam is attached to the rotary support plate 8, when the conductive foam cutting die 2 punches downwards, the conductive foam is die-cut through the punching force between the die cutter of the conductive foam cutting die 2 and the rotary support plate 8, the thrust of the stripper plate reset push spring 706 is larger than the punching force of the conductive foam cutting die 2, the rotary support plate 8 is not enough to enable the rotary support plate 8 to overturn downwards, after the conductive foam is die-cut, the conductive foam is rotated to the left side of the die-cutting device through the anticlockwise rotation of the rotary servo motor 4, in the rotating process, the discharge driven rotary wheel 707 is meshed with the discharge arc rack 601 to form a gear rack transmission, the discharge driven rotary wheel 707 moves to drive the discharge reversing shaft 708 to rotate through the gear transmission between the wheel shaft of the discharge driven rotary wheel 707 and the discharge reversing shaft 708, the rotary drum 10 is driven to rotate through the gear transmission of the reversing driving gear 709 and the rolling driven gear 1001, meanwhile, the rotary drum 10 is meshed with the driven arc toothed plate 802 to form a transmission, the rotary support plate 8 is driven to overturn downwards, the stripper plate reset push spring 706 is compressed and contracted, the finished product is automatically separated from the die-cut foam through the inclined side of the conductive foam through the automatic discharge table after the downward overturning of the rotary support plate 8, and the finished product is separated from the die-cut through the inclined foam by the side of the die-cut foam through the side of the conductive foam.

The automatic pushing frame 9 is a frame body with a U-shaped structure, the side edge of the automatic pushing frame 9 is slidably connected to the guide longitudinal groove 704, an inner positioning clamping edge 901 is inwards bent at the upper end of the side edge of the automatic pushing frame 9, pushing frame pulling plates 902 are fixedly connected to the lower edges of the two side surfaces of the automatic pushing frame 9, foam fixing pushing springs 903 are fixedly connected to the upper surfaces of the pushing frame pulling plates 902, and the upper ends of the foam fixing pushing springs 903 are fixedly connected to the lower surface of the rotary die cutting table 7; the inner edge of the lower surface of the automatic pushing frame 9 is fixedly connected with a discharging wedge block 904, the discharging wedge block 904 is an isosceles triangle block, and the axial distance between the discharging wedge block 904 and the rotating shaft of the rotary servo motor 4 is equal to the axial distance between the discharging supporting wheel 501 and the rotating shaft of the rotary servo motor 4; the automatic pushing frame 9 is pushed downwards under the action of the foam fixing pushing spring 903, the workpiece above the rotary support plate 8 is clamped through the inner positioning clamping edge 901, the rotary die cutting table 7 is driven to rotate through the rotary servo motor 4, when the discharging wedge 904 of the automatic pushing frame 9 rotating to the right is in contact with the discharging support wheel 501, rolling connection is formed, under the action of the inclined surface of the discharging wedge 904, the automatic pushing frame 9 is gradually pushed upwards along with the approach of the discharging support wheel 501 to the middle top angle of the discharging wedge 904, the inner positioning clamping edge 901 is separated from the upper surface edge of the workpiece, the workpiece is contacted and clamped, the workpiece at the position can be replaced in the time period, the edge of the finished cutting die is taken out, and the conductive foam which is not subjected to die cutting is put in, and when the rotary servo motor 4 drives the rotary die cutting table 7 to rotate anticlockwise continuously, the discharging support wheel 501 rolls away from the direction of the top angle of the discharging support wheel 904, the automatic pushing frame 9 moves downwards to reset under the action of the pushing spring 904, the conductive foam edge which is not subjected to die cutting edge 901, the conductive foam is clamped by the inner positioning clamping edge is separated from the upper surface edge of the workpiece, the workpiece can be clamped by the inner positioning clamping edge 901, the conductive foam can be automatically clamped to the position of the die cutting table can be controlled, and the workpiece can be removed by a user when the die cutting edge is fixed, and the workpiece can be conveniently mounted and clamped at the position by a user.

Specific use and action of the embodiment: in the application, firstly, the rotary servo motor 4 is controlled by the control panel 3 to rotate anticlockwise to drive the rotary die cutting table 7 to rotate anticlockwise, in the process, when the discharging wedge block 904 of the automatic pushing frame 9 rotating to the right contacts with the discharging support wheel 501, rolling connection is formed, under the action of the inclined surface of the discharging wedge block 904, the automatic pushing frame 9 is gradually pushed upwards along with the fact that the discharging support wheel 501 approaches the middle top angle of the discharging wedge block 904, the inner positioning clamping edge 901 is separated from the upper surface edge of a workpiece, the workpiece is contacted and clamped, the workpiece at the position can be replaced in the time period, the rim charge of the finished die cutting is taken out, and conductive foam cotton which is not subjected to die cutting is put in, and when the rotary servo motor 4 drives the rotary die cutting table 7 to rotate anticlockwise continuously, the discharging support wheel 501 rolls in the direction away from the top angle of the discharging wedge block 904, the automatic pushing frame 9 moves downwards to reset under the pushing force of the foam fixing pushing spring 903, the edge of the conductive foam which is not die-cut is fixed through the inner positioning clamping edge 901 again, the rotary support plate 8 is flush with the upper surface of the rotary die cutting table 7, the lower surface of the conductive foam is attached to the rotary support plate 8, when the conductive foam cutting die 2 punches downwards, the conductive foam is die-cut through the punching force between the die cutter of the conductive foam cutting die 2 and the rotary support plate 8, the pushing force of the stripper plate reset pushing spring 706 is larger than the punching force of the conductive foam cutting die 2, the rotary support plate 8 is supported to be fixed in the punching process through the stripper plate reset pushing spring 706, after the die cutting of the conductive foam is completed, the conductive foam is rotated to the left side of the die cutting device through the anticlockwise rotation of the rotary servo motor 4, the discharge driven rotary wheel 707 is meshed with the discharge arc rack 601 in the rotating process to form gear rack transmission, the automatic discharging device is driven to rotate by the movement of the discharging driven rotary wheel 707, the discharging reversing shaft 708 is driven to rotate by the gear transmission between the wheel shaft of the discharging driven rotary wheel 707 and the discharging reversing shaft 708, the rotary drum 10 is driven to rotate by the gear transmission of the reversing driving gear 709 and the rolling driven gear 1001, meanwhile, the rotary drum 10 is meshed with the driven arc toothed plate 802 to form transmission, the rotary support plate 8 is driven to overturn downwards, the discharging plate reset push spring 706 is extruded and contracted, the conductive foam finished product passing through the die cutting above the cutting table discharge opening 701 is separated from the rim charge under the action of self gravity after the rotary support plate 8 overturns downwards, the conductive foam finished product is separated from the rim charge and then slides outwards by the rotary support plate 8 with an inclined structure, and accordingly, the separation of the conductive foam finished product and the rim charge is realized.

Claims

1. Quick location cross cutting device of conductive foam, its characterized in that includes: a die-cutting tool body (1); the lower end of a punching push rod of the die-cutting tool main body (1) is provided with a conductive foam cutting die (2); the control panel (3) is fixedly connected to the right surface of the die-cutting tool main body (1) through a screw; the rotary servo motor (4) is fixedly connected to the die cutting tool main body (1); the unloading pushing frame (5) is fixedly connected to the right surface of the die cutting tool main body (1) through bolts, and the unloading pushing frame (5) is positioned right of the rotating shaft of the rotary servo motor (4); the unloading pushing top frame (5) is rotatably connected with an unloading supporting wheel (501) through a bearing, and the axis of the unloading supporting wheel (501) is perpendicular to the right surface of the die cutting tool main body (1); the unloading driving support plate (6), the unloading driving support plate (6) is connected to the left side of the platform of the die cutting tool main body (1) through welding; the upper surface of the unloading driving support plate (6) is fixedly connected with an unloading arc-shaped rack (601), the unloading arc-shaped rack (601) is of a circular arc structure, the circle center of the unloading arc-shaped rack (601) is a rotating shaft of the rotary servo motor (4), and the tooth surface of the unloading arc-shaped rack (601) faces upwards; the rotary die cutting table (7) is fixedly connected to the upper end of the rotating shaft of the rotary servo motor (4) through bolts, the rotary die cutting table (7) is perpendicular to the rotating shaft of the rotary servo motor (4), and the rotary die cutting table (7) is parallel to the platform surface of the die cutting tool main body (1); a cutting table discharging opening (701) with a square structure is formed in the rotary die cutting table (7) in a penetrating manner, a cutting table limiting inner edge (702) with an inward convex structure is processed on the upper edge of the outer surface of the cutting table discharging opening (701), a workpiece limiting strip (703) is fixedly connected to the outer side and the inner side of the cutting table discharging opening (701) respectively, and a guiding longitudinal groove (704) is formed in the two sides of the cutting table discharging opening (701) in a penetrating manner longitudinally; the lower surface of the rotary die cutting table (7) is rotationally connected with four discharge driven rotary wheels (707) through bearings, the distance between the discharge driven rotary wheels (707) and the axis of the rotary servo motor (4) is equal to the radius of the discharge arc rack (601), the lower surface of the rotary die cutting table (7) is rotationally connected with four discharge reversing shafts (708) through bearings, the four discharge driven rotary wheels (707) are in transmission connection with the four discharge reversing shafts (708) through gears, the outer ends of the discharge reversing shafts (708) are fixedly connected with reversing driving gears (709), and four toothed plate accommodating openings (710) are formed in the lower surface of the rotary die cutting table (7); the rotary support plates (8) are arranged everywhere, and the rotary support plates (8) are hinged on the rotary die cutting table (7); the rotary support plate (8) is a rectangular plate body, the inner edge of the rotary support plate (8) is hinged in the cutting table discharging opening (701), a support plate end edge (801) with an inclined surface structure is processed at the outer edge of the rotary support plate (8), the support plate end edge (801) is attached to the cutting table limiting inner edge (702), a driven arc toothed plate (802) is fixedly connected to the lower surface of the rotary support plate (8), racks of the driven arc toothed plate (802) face outwards, the driven arc toothed plate (802) is in sliding connection with the toothed plate accommodating opening (710), and the circle center of the driven arc toothed plate (802) is the inner edge of the rotary support plate (8); the automatic pushing frames (9) are arranged everywhere, and the everywhere automatic pushing frames (9) are connected to the rotary die cutting table (7) in a sliding mode; the automatic pushing frame (9) is a frame body with a U-shaped structure, the side edge of the automatic pushing frame (9) is connected with the guide longitudinal groove (704) in a sliding manner, an inner positioning clamping edge (901) is inwards bent at the upper end of the side edge of the automatic pushing frame (9), pushing frame pulling plates (902) are fixedly connected to the lower edges of two side surfaces of the automatic pushing frame (9), foam fixing pushing springs (903) are fixedly connected to the upper surface of the pushing frame pulling plates (902), and the upper ends of the foam fixing pushing springs (903) are fixedly connected to the lower surface of the rotary die cutting table (7); the inner edge of the lower surface of the automatic pushing frame (9) is fixedly connected with a discharging wedge block (904), the discharging wedge block (904) is an isosceles triangle block, and the axial distance between the discharging wedge block (904) and the rotating shaft of the rotating servo motor (4) is equal to the axial distance between the discharging supporting wheel (501) and the rotating shaft of the rotating servo motor (4); the rotary drum (10) is arranged everywhere, and the rotary drum (10) is rotationally connected to the lower surface of the rotary die cutting table (7).

2. The rapid positioning die-cutting device for conductive foam according to claim 1, wherein: eight internal reset pushing plates (705) are fixedly connected to the lower surface of the rotary die cutting table (7), the eight internal reset pushing plates (705) are respectively located on two sides of the discharge opening (701) of the four cutting tables, a stripper plate reset pushing spring (706) is fixedly connected to the upper surface of each internal reset pushing plate (705), and the upper ends of the stripper plate reset pushing springs (706) are fixedly connected to the lower surface of the rotary support plate (8).

3. The rapid positioning die-cutting device for conductive foam according to claim 1, wherein: the rotary roller (10) is meshed with the driven arc toothed plate (802), a rolling driven gear (1001) is fixedly connected to the shaft of the rotary roller (10), and the rolling driven gear (1001) is meshed with the reversing driving gear (709).