CN216229560U - Online cutting device - Google Patents

Abstract

The utility model discloses an online cutting device, which comprises a rack assembly, at least one cutting mechanism and a sliding driving mechanism corresponding to the cutting mechanism, wherein the rack assembly is arranged on the rack assembly; the cutting mechanism is provided with a cutting channel for waste edge materials to pass through, and the cutting mechanism is suitable for cutting the waste edge materials in the cutting channel; the cutting mechanism is connected to the rack assembly in a transverse sliding mode; the sliding driving mechanism is connected with the cutting mechanism and is suitable for driving the cutting mechanism to slide on the rack assembly in place. The automatic trimming machine can automatically trim scrap edges, saves labor cost and improves trimming efficiency.

Description

Online cutting device

Technical Field

The utility model relates to an online cutting device.

Background

At present, plastic board need be through the slitter edge material of special side cut device excision both sides after extrusion moulding, and slitter edge material is very long by excision back length, mainly decides into the slitter edge material of the moderate one-section of length through workman's manual with the very long slitter edge material of length at present, can be convenient for like this store slitter edge material and be convenient for follow-up broken slitter edge material. But the manual work has decided the greatly increased cost of labor of a section one section with the scrap edge material, decides efficiency not high moreover.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide an online cutting device which can automatically cut waste scraps, save labor cost and improve cutting efficiency.

In order to solve the technical problems, the technical scheme of the utility model is as follows: an online cutting device comprises a rack assembly, at least one cutting mechanism and a sliding driving mechanism corresponding to the cutting mechanism; wherein,

the cutting mechanism is provided with a cutting channel for waste edge materials to pass through, and the cutting mechanism is suitable for cutting the waste edge materials in the cutting channel;

the cutting mechanism is connected to the rack assembly in a transverse sliding mode;

the sliding driving mechanism is connected with the cutting mechanism and is suitable for driving the cutting mechanism to slide on the rack assembly in place.

Further provides a concrete structure of the cutting mechanism, the cutting mechanism comprises a transverse sliding seat, a fixed cutter, a movable cutter and a cutting driving component; wherein,

the transverse sliding seat is connected to the rack assembly in a transverse sliding mode;

the fixed cutter is connected to the transverse sliding seat;

the movable cutter is connected to the cutting driving assembly, and the cutting channel is arranged between the movable cutter and the fixed cutter;

the cutting driving assembly is connected to the transverse sliding seat and is suitable for driving the movable cutter to move towards or away from the fixed cutter in a reciprocating mode so as to cut waste scraps in the cutting channel.

Further provides a concrete structure of the cutting driving component, and the cutting driving component comprises an air cylinder and a cutter holder; wherein,

the tool apron is connected to the transverse sliding seat in a sliding manner;

the movable cutter is connected to the cutter holder;

the cylinder is installed on the transverse sliding seat, is connected with the tool apron and is suitable for driving the tool apron to slide so as to drive the movable tool to move towards or depart from the fixed tool in a reciprocating mode.

The specific structure of the fixed cutter and the movable cutter is further provided, and an included angle is formed between the cutting edge of the fixed cutter and the cutting edge of the movable cutter.

Further, the cutting mechanism also comprises a protective cover and a feeding guide cover; wherein,

the protective cover is connected to the transverse sliding seat and covers the outer sides of the fixed cutter and the movable cutter, and a material receiving opening suitable for receiving the waste edge materials and a material discharging opening suitable for discharging the cut waste edge materials are further formed in the protective cover;

the feeding guide cover is connected to the protective cover and communicated with the material receiving port.

Further provides a concrete structure of the rack assembly, the rack assembly comprises a fixed frame, a rotating seat corresponding to the cutting mechanism and a locking mechanism corresponding to the rotating seat; wherein,

the cutting mechanism is connected to the corresponding rotary seat in a transverse sliding manner;

the rotary seat is rotatably connected to the fixed frame and is suitable for rotating relative to the fixed frame so as to drive the cutting mechanism to rotate and further adjust the feeding angle of the cutting channel;

the locking mechanism is connected to the fixed frame and is suitable for being screwed to abut against the rotating seat so as to limit the angular position of the rotating seat relative to the fixed frame.

Further, a specific structure of the locking mechanism is provided, wherein the locking mechanism comprises at least one locking bolt, and the locking bolt is in threaded connection with the fixed frame and is suitable for being screwed to be abutted against the rotating seat so as to limit the angular position of the rotating seat.

Further provides a concrete structure of the rotating base, the rotating base comprises a left rotating plate, a right rotating plate and at least one sliding rail; wherein,

the left rotating plate and the right rotating plate are respectively connected to the fixed frame in a rotating mode;

one end of the sliding rail is connected to the left rotating plate, and the other end of the sliding rail is connected to the right rotating plate;

the cutting mechanism is connected to the sliding rail in a transverse sliding mode.

The fixing frame comprises a frame body and a hanging seat corresponding to the rotating seat, and the hanging seat comprises a left seat plate and a right seat plate; wherein,

the left seat board and the right seat board are respectively connected to the frame body;

the left rotating plate is rotatably connected to the corresponding left seat plate;

the right rotating plate is rotatably connected to the corresponding right seat plate.

Further provides a concrete structure of the sliding driving mechanism, and the sliding driving mechanism comprises a screw rod, a transmission nut and a hand wheel; wherein,

the screw rod is rotationally connected to the rotating seat;

the transmission nut is connected to the cutting mechanism and is in threaded connection with the screw rod;

the hand wheel is connected to the screw rod.

After the technical scheme is adopted, the scrap edge materials are cut from the left side edge and the right side edge of the plate, the scrap edge materials penetrate through the cutting channel after being cut from the plate, and then the cutting mechanism cuts the scrap edge materials into the scrap edge materials with fixed lengths, so that the scrap edge materials can be stored and crushed. When the widths of the plates are different, the sliding driving mechanism drives the cutting mechanism to slide to a proper position so that the cutting mechanism is aligned with the scrap edge, and the scrap edge can smoothly pass through the cutting channel; this device is decided on line can tailor slitter edge material automatically, has practiced thrift the cost of labor, has still improved the efficiency of tailorring.

Drawings

FIG. 1 is a schematic structural diagram of an on-line cutting apparatus according to the present invention;

FIG. 2 is a schematic view of the external structure of the cutting mechanism of the present invention;

FIG. 3 is a schematic diagram of the internal structure of the cutting mechanism of the present invention;

FIG. 4 is a side cross-sectional view of the cutting mechanism of the present invention.

Detailed Description

In order that the present invention may be more readily and clearly understood, a more particular description of the utility model briefly described above will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

As shown in fig. 1 to 4, an on-line cutting device includes a frame assembly 100, at least one cutting mechanism 200, and a sliding driving mechanism 300 corresponding to the cutting mechanism 200; wherein,

a cutting channel 1 for waste edge materials to pass through is arranged in the cutting mechanism 200, and the cutting mechanism 200 is suitable for cutting the waste edge materials in the cutting channel 1;

the cutting mechanism 200 is connected to the rack assembly 100 in a sliding manner along the transverse direction;

the sliding driving mechanism 300 is connected with the cutting mechanism 200 and is suitable for driving the cutting mechanism 200 to slide on the rack assembly 100 to a proper position; in this embodiment, the scrap is cut from the left and right side edges of the plate, the transverse direction is the width direction of the plate, and the plate may be a plastic plate. Specifically, the scrap edge material passes through the cutting channel 1 after being cut from a plate, and then the cutting mechanism 200 cuts the scrap edge material into the scrap edge material with a fixed length, so that the scrap edge material can be stored and crushed conveniently. When the widths of the plates are different, the sliding driving mechanism 300 drives the cutting mechanism 200 to slide to a proper position, so that the cutting mechanism 200 is aligned with the scrap edge, and the scrap edge can smoothly pass through the cutting channel 1; this device is decided on line can tailor slitter edge material automatically, has practiced thrift the cost of labor, has still improved the efficiency of tailorring.

Further specifically, the online cutting device is arranged between a traction machine and a plate shearing machine, the traction machine is used for conveying the scrap edges to the cutting channel 1, and the plate shearing machine is used for cutting a finished plate obtained after the scrap edges are cut off. In this embodiment, the sliding driving mechanisms 300 correspond to the cutting mechanisms 200 one by one, and the specific structures of the traction machine and the plate shearing machine are well known in the prior art, and are not described in detail in this embodiment.

In this embodiment, two cutting mechanisms 200 are provided.

As shown in fig. 2 to 4, the cutting mechanism 200 includes, for example but not limited to, a horizontal sliding base 2, a fixed cutter 3, a movable cutter 4 and a cutting driving assembly; wherein,

the transverse sliding seat 2 is connected to the rack assembly 100 in a transverse sliding mode;

the fixed cutter 3 is connected to the transverse sliding seat 2;

the movable cutter 4 is connected to the cutting driving component, and the cutting channel 1 is arranged between the movable cutter 4 and the fixed cutter 3;

the cutting driving assembly is connected to the transverse sliding base 2 and is suitable for driving the movable cutter 4 to move towards or away from the fixed cutter 3 in a reciprocating mode so as to cut the waste edge materials in the cutting channel 1, and then the long continuous waste edge materials are cut into sections with fixed lengths.

As shown in fig. 2 to 4, the cutting driving assembly may include a cylinder 5 and a cutter holder 6; wherein,

the tool apron 6 is connected to the transverse sliding seat 2 in a sliding manner;

the movable cutter 4 is connected to the cutter holder 6;

the cylinder 5 is mounted on the transverse sliding seat 2, connected with the tool apron 6 and suitable for driving the tool apron 6 to slide so as to drive the movable tool 4 to move towards or away from the fixed tool 3 in a reciprocating manner; specifically, the action beat of the air cylinder 5 can be controlled by a time relay, and then the scrap is cut into sections one by one.

As shown in fig. 3, an included angle is formed between the cutting edge of the fixed cutter 3 and the cutting edge of the movable cutter 4; in this embodiment, the included angle is an acute angle.

As shown in fig. 2 and 4, the cutting mechanism 200 may further include a protective cover 7 and a feeding guide cover 8; wherein,

the protective cover 7 is connected to the transverse sliding seat 2 and covers the outer sides of the fixed cutter 3 and the movable cutter 4, and a material receiving opening suitable for receiving waste edge materials and a material discharging opening suitable for discharging the cut waste edge materials are further formed in the protective cover 7;

the feeding guide cover 8 is connected to the protective cover 7 and is communicated with the material receiving port; specifically, the scrap is cut from the plate, then passes through the feeding guide cover 8, and then passes through the cutting channel 1.

As shown in fig. 1 to 4, the rack assembly 100 may include a fixed frame, a rotating base 400 corresponding to the cutting mechanism 200, and a locking mechanism corresponding to the rotating base 400; wherein,

the cutting mechanism 200 is connected to the corresponding rotary base 400 in a sliding manner along the transverse direction;

the rotating base 400 is rotatably connected to the fixed frame and is suitable for rotating relative to the fixed frame to drive the cutting mechanism 200 to rotate so as to adjust the feeding angle of the cutting channel 1 and adjust the pitching angle of the feeding guide cover 8;

the locking mechanism is connected to the fixed frame and is adapted to be screwed against the rotary base 400 to define the angular position of the rotary base 400 relative to the fixed frame; in this embodiment, the transverse sliding base 2 of the cutting mechanism 200 is slidably connected to the rotary base 400, and the rotary base 400 is rotatably connected to the fixed frame around a horizontal shaft.

In the present embodiment, the locking mechanism comprises at least one locking bolt screwed on the fixed mount and adapted to be screwed against the rotary seat 400 to define the angular position of the rotary seat 400.

As shown in fig. 2 and 3, the rotary base 400 may include a left rotary plate 9, a right rotary plate 10 and at least one slide rail 11; wherein,

the left rotating plate 9 and the right rotating plate 10 are respectively connected to the fixed frame in a rotating manner;

one end of the slide rail 11 is connected to the left rotating plate 9, and the other end of the slide rail 11 is connected to the right rotating plate 10;

the cutting mechanism 200 is connected to the slide rail 11 in a transverse sliding manner; in this embodiment, two slide rails 11 are provided.

As shown in fig. 1 to 4, the fixed frame may include a frame body 12 and a hanger corresponding to the rotary base 400, and the hanger may include a left seat plate 13 and a right seat plate 14; wherein,

the left seat board 13 and the right seat board 14 are respectively connected to the frame body 12;

the left rotating plate 9 is rotatably connected to the corresponding left seat plate 13;

the right rotating plate 10 is rotatably connected to the corresponding right seat plate 14; in the present embodiment, the locking mechanism comprises two locking bolts, one of which is screwed onto the left seat plate 13 and adapted to be screwed against the left rotation plate 9, and the other of which is screwed onto the right seat plate 14 and adapted to be screwed against the right rotation plate 10.

As shown in fig. 2 to 4, the sliding driving mechanism 300 includes, for example, but not limited to, a screw 15, a transmission nut, and a hand wheel 16; wherein,

the screw rod 15 is rotatably connected to the rotating base 400;

the transmission nut is connected to the cutting mechanism 200 and is in threaded connection with the screw rod 15;

the hand wheel 16 is connected to the screw rod 15; specifically, the hand wheel 16 is rotated to drive the screw rod 15 to rotate, and then the cutting mechanism 200 is driven to slide through the transmission nut, so that when the widths of the plates are different, the position of the cutting mechanism 200 is adjusted to align the cutting mechanism 200 with the scrap edge; in the present embodiment, the drive nut is connected to the transverse slide 2 in the cutting mechanism 200, and the spindle 15 is rotatably connected to the left-hand plate 9 and the right-hand plate 10.

The working principle of the utility model is as follows:

the scrap edge is cut from the left side and the right side of the plate, the scrap edge penetrates through the cutting channel 1 after being cut from the plate, and then the cutting mechanism 200 cuts the scrap edge into a section of scrap edge with a fixed length so as to store and crush the scrap edge. When the widths of the plates are different, the sliding driving mechanism 300 drives the cutting mechanism 200 to slide to a proper position, so that the cutting mechanism 200 is aligned with the scrap edge, and the scrap edge can smoothly pass through the cutting channel 1; this device is decided on line can tailor slitter edge material automatically, has practiced thrift the cost of labor, has still improved the efficiency of tailorring.

The above embodiments are described in further detail to solve the technical problems, technical solutions and advantages of the present invention, and it should be understood that the above embodiments are only examples of the present invention and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An online cutting device is characterized by comprising a rack assembly (100), at least one cutting mechanism (200) and a sliding driving mechanism (300) corresponding to the cutting mechanism (200); wherein,

a cutting channel (1) for waste edge materials to pass through is arranged in the cutting mechanism (200), and the cutting mechanism (200) is suitable for cutting the waste edge materials in the cutting channel (1);

the cutting mechanism (200) is connected to the rack assembly (100) in a transverse sliding mode;

the sliding driving mechanism (300) is connected with the cutting mechanism (200) and is suitable for driving the cutting mechanism (200) to slide in place on the rack assembly (100).

2. An on-line guillotine device according to claim 1, wherein said cutting means (200) comprise a transversal slide (2), a fixed cutter (3), a movable cutter (4) and a cutting drive assembly; wherein,

the transverse sliding seat (2) is connected to the rack assembly (100) in a transverse sliding manner;

the fixed cutter (3) is connected to the transverse sliding seat (2);

the movable cutter (4) is connected to the cutting driving assembly, and the cutting channel (1) is arranged between the movable cutter (4) and the fixed cutter (3);

the cutting driving assembly is connected to the transverse sliding base (2) and is suitable for driving the movable cutter (4) to move towards or away from the fixed cutter (3) in a reciprocating mode so as to cut waste scraps in the cutting channel (1).

3. An on-line guillotine device according to claim 2, wherein said cutting drive assembly comprises a cylinder (5) and a blade holder (6); wherein,

the tool apron (6) is connected to the transverse sliding seat (2) in a sliding manner;

the movable cutter (4) is connected to the cutter holder (6);

the air cylinder (5) is installed on the transverse sliding seat (2), connected with the tool apron (6) and suitable for driving the tool apron (6) to slide so as to drive the movable tool (4) to move towards or away from the fixed tool (3) in a reciprocating mode.

4. An on-line guillotine cutting device according to claim 2, characterized in that the edge of the fixed cutter (3) is at an angle to the edge of the movable cutter (4).

5. An on-line guillotine device according to claim 2, wherein said cutting means (200) further comprises a protective hood (7) and a feeding guide hood (8); wherein,

the protective cover (7) is connected to the transverse sliding seat (2) and covers the outer sides of the fixed cutter (3) and the movable cutter (4), and a material receiving opening suitable for receiving waste edge materials and a material discharging opening suitable for discharging the cut waste edge materials are further formed in the protective cover (7);

the feeding guide cover (8) is connected to the protective cover (7) and communicated with the material receiving opening.

6. An on-line guillotine device according to claim 1, wherein said rack assembly (100) comprises a fixed mount, a rotary seat (400) corresponding to said cutting mechanism (200) and a locking mechanism corresponding to said rotary seat (400); wherein,

the cutting mechanism (200) is connected to the corresponding rotary seat (400) in a sliding mode along the transverse direction;

the rotary seat (400) is rotatably connected to the fixed frame and is suitable for rotating relative to the fixed frame so as to drive the cutting mechanism (200) to rotate and further adjust the feeding angle of the cutting channel (1);

the locking mechanism is connected to the fixed frame and is adapted to be screwed against the rotary seat (400) to define the angular position of the rotary seat (400) relative to the fixed frame.

7. On-line guillotine device according to claim 6, characterized in that said locking mechanism comprises at least one locking bolt screwed on said fixed frame and adapted to be screwed against said rotary seat (400) to define the angular position of said rotary seat (400).

8. An on-line guillotine device according to claim 6, wherein said rotating base (400) comprises a left rotating plate (9), a right rotating plate (10) and at least one sliding track (11); wherein,

the left rotating plate (9) and the right rotating plate (10) are respectively connected to the fixed frame in a rotating manner;

one end part of the sliding rail (11) is connected to the left rotating plate (9), and the other end part of the sliding rail (11) is connected to the right rotating plate (10);

the cutting mechanism (200) is connected to the sliding rail (11) in a transverse sliding mode.

9. The on-line guillotine device according to claim 8, wherein said fixed mount comprises a frame body (12) and a hanging seat corresponding to said rotary seat (400), said hanging seat comprising a left seat plate (13) and a right seat plate (14); wherein,

the left seat plate (13) and the right seat plate (14) are respectively connected to the frame body (12);

the left rotating plate (9) is rotatably connected to the corresponding left seat plate (13);

the right rotating plate (10) is rotatably connected to the corresponding right seat plate (14).

10. An on-line guillotine device according to claim 6, wherein said sliding drive mechanism (300) comprises a lead screw (15), a transmission nut and a hand wheel (16); wherein,

the screw rod (15) is rotatably connected to the rotating base (400);

the transmission nut is connected to the cutting mechanism (200) and is in threaded connection with the screw rod (15);

the hand wheel (16) is connected to the screw rod (15).

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