CN113524345A - Cutting machine - Google Patents

Abstract

The invention provides a cutting machine, comprising: the cutting table top for placing materials is arranged on the upper surface of the base; the cross beam frame is fixedly arranged above the cutting table board; the cutting head is arranged on the cross beam frame in a sliding mode and used for cutting materials, and the cutting head slides along the horizontal straight line of the cross beam frame. The cutting machine provided by the invention has the advantages of reasonable structure, controllable cutting stroke, complete cutting, reasonable acting force of the cutting die and the cutting table surface, difficult damage of the cutting die and low maintenance cost.

Description

Cutting machine

Technical Field

The invention relates to the technical field of cutting equipment, in particular to a cutting machine.

Background

In some light industries in China, a cutting machine is an indispensable production device. Most of cutting machines are arranged above a workbench in a sliding connection mode, and a cutting die is driven to cut materials below the cutting machine so as to cut objects with required shapes. Generally applied to various flexible sheet materials such as leather, cloth, plastic, paper and the like.

The existing cutting machine is complex in structure, difficult in stroke control during pressing, easy to generate incomplete cutting, high in damage rate of a cutting die and high in maintenance cost.

Disclosure of Invention

The invention aims to provide a cutting machine to solve the problems.

In order to achieve the purpose, the invention provides the following technical scheme: a cutting machine comprising:

the cutting table top for placing materials is arranged on the upper surface of the base;

the cross beam frame is fixedly arranged above the cutting table board;

the cutting head is arranged on the cross beam frame in a sliding mode and used for cutting materials, and the cutting head slides along the horizontal straight line of the cross beam frame.

As an improvement of the present invention, the cutting head is slidably connected to the cross beam frame by a slide assembly, the slide assembly including:

the sliding rail buckling plate is fixedly arranged on the peripheral side wall of the upper end of the cutting head and is used for buckling in a rail groove formed in the cross beam frame;

and the nut transmission block is fixedly arranged on the upper end surface of the cutting head and is used for being in threaded transmission connection with a lead screw of the cross beam frame.

As an improvement of the present invention, the cutting head includes:

the sliding rail buckling plate and the nut transmission block are fixedly arranged on the outer shell;

the hydraulic cylinder is fixedly connected with the outer shell and stretches in the vertical direction, and a guide rod is arranged between the lower end of the hydraulic cylinder and the outer shell;

and the lower end of the hydraulic cylinder is fixedly connected with a cutting die.

As an improvement of the present invention, the cutting head further comprises an angle adjusting device, and the angle adjusting device comprises:

the middle transition frame is positioned between the hydraulic cylinder and the cutting die, and the upper end surface of the middle transition frame is fixedly connected with the lower end of the hydraulic cylinder;

the rotary adjusting gear is rotatably arranged in the middle transition frame, and the lower end of the rotary adjusting gear is fixedly connected with the cutting die;

the rotating adjusting motor is fixedly arranged on the middle transition frame, an output shaft of the rotating adjusting motor is provided with a first gear, and the first gear is in meshing transmission connection with the rotating adjusting gear;

the middle transition frame is internally provided with a constant locking component for locking the cutting die.

As an improvement of the present invention, the steady state locking assembly includes:

the upper end of the locking shell is fixedly connected with the inner top wall of the middle transition frame, and the locking shell is of a stepped cylindrical structure;

the locking power ring is of an annular structure and is rotationally arranged in the locking shell, a ratchet tooth surface is arranged on the inner annular wall of the locking power ring, a notch used for being matched with a transmission belt is formed in the outer annular wall of the locking power ring, the transmission belt is connected with a locking motor, and the locking motor is fixedly connected to the intermediate transition frame;

the device comprises a constant-state retainer and a disc-shaped structure, wherein the constant-state retainer and the disc-shaped structure are arranged in a space surrounded by locking power rings, the constant-state retainer and the locking power rings are in clearance fit, a semicircular installation groove is further formed in the side wall of the constant-state retainer, and a double-head state switching block is arranged in the installation groove;

the double-head state switching block is rotationally arranged on the constant-state retainer through a pivot, the double-head state switching block is in a crescent shape, pawl tooth surfaces are arranged on outer arc surfaces on two sides of the double-head state switching block, and the pawl tooth surfaces are matched with the ratchet tooth surfaces;

the device comprises a constant state holder, a state switching cover, a compression spring and a double-end state switching block, wherein the state switching cover is arranged above the constant state holder, an embedded column is arranged on the lower end face of the state switching cover and is inserted into the constant state holder, a transverse slot is formed in the embedded column, a butting column is arranged in the transverse slot, and the butting column is butted against the inner wall face of the double-end state switching block;

the side wall of the state switching cover is connected with a connecting rod, the connecting rod is used for connecting a telescopic cylinder, and the telescopic cylinder is fixedly arranged on the middle transition frame and used for driving the state switching cover to rotate;

the lower part of the constant-state retainer is connected with a synchronizing shaft, and the synchronizing shaft and the constant-state retainer rotate synchronously;

the flower-shaped nut is in threaded connection with the synchronous shaft, and a flower-shaped groove matched with the flower-shaped nut is formed in the inner wall of the lower end of the locking shell;

the annular constant locking frame is movably sleeved on the synchronizing shaft and is positioned above the flower-shaped nut, and the annular constant locking frame is fixedly connected with the rotary adjusting gear through a cross rod.

As an improvement of the invention, the lower end face of the constant-state retainer is provided with a lubricating pad.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

FIG. 1 is a schematic structural view of the present invention;

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

FIG. 3 is a schematic structural diagram of another embodiment of a cutting head according to the present invention;

FIG. 4 is an internal cross-sectional view of the homostatic locking assembly of the present invention;

FIG. 5 is a schematic structural diagram of the homostatic locking assembly of the present invention;

FIG. 6 is a top cross-sectional view of the constant state locking assembly of the present invention;

fig. 7 is a top view of the intermediate frame of the present invention.

The components in the figure are:

1. a base seat 11, a cutting table-board,

2. a cross beam frame is arranged on the upper portion of the frame,

3. a cutting head 31, an outer shell 32, a hydraulic cylinder 33, a guide rod 34 and a cutting die,

4. a sliding component 41, a sliding rail buckling plate 42 and a nut transmission block,

5. an angle adjusting device 51, an intermediate transition frame 52, a rotary adjusting gear 53, a rotary adjusting motor 54, a first gear,

55. the locking device comprises a constant state locking assembly, a 551, a locking shell, 552, a locking power ring, 552a, a ratchet tooth surface, 553, a transmission belt, 554, a locking motor, 555, a constant state retainer, 556, a mounting groove, 557, a double-head state switching block, 557a, a pawl tooth surface, 558, a state switching cover, 559, an embedding column, 5510, a transverse slot, 5511, a butting column, 5512, a compression spring, 5513, a connecting rod, 5514, a telescopic cylinder, 5515, a synchronizing shaft, 5516, a flower-shaped nut, 5517, a flower-shaped groove, 5518, an annular constant state locking frame, 5519, a cross rod, 5520 and a lubricating pad.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Referring to fig. 1, a cutting machine includes:

the cutting machine comprises a base 1, wherein a cutting table top 11 for placing materials is arranged on the upper surface of the base 1;

the cross beam frame 2 is fixedly arranged above the cutting table board 11;

a cutting head 3, the cutting head 3 used for cutting the material is arranged on the cross beam frame 2 in a sliding mode, and the cutting head 3 slides along the horizontal straight line of the cross beam frame 2.

As an embodiment of the present invention, the cutting head 3 is slidably connected to the beam frame 2 by a sliding assembly 4, and the sliding assembly 4 includes:

the sliding rail buckling and connecting plate 41 is fixedly arranged on the peripheral side wall at the upper end of the cutting head 3, and the sliding rail buckling and connecting plate 41 is used for buckling and connecting in a rail groove formed in the cross beam frame 2;

and the nut transmission block 42 is fixedly arranged on the upper end surface of the cutting head 3, and the nut transmission block 42 is used for being in threaded transmission connection with a lead screw of the cross beam frame 2.

As an embodiment of the present invention, the cutting head 3 includes:

the sliding rail buckling plate 41 and the nut transmission block 42 are fixedly arranged on the outer shell 31;

the hydraulic cylinder 32 is fixedly connected with the outer shell 31, the hydraulic cylinder 32 extends and retracts in the vertical direction, and a guide rod 33 is arranged between the lower end of the hydraulic cylinder 32 and the outer shell 31;

and a cutting die 34, wherein the lower end of the hydraulic cylinder 32 is fixedly connected with the cutting die 34.

The working principle and the beneficial effects of the technical scheme are as follows: according to the cutting machine provided by the invention, the cutting table top 11 on the upper surface of the base 1 is a rectangular table top for laying materials to be cut, and the cross beam frame 2 is erected right above the cutting table top 11. The cutting head 3 is arranged on the cross beam frame 2 in a sliding mode through the sliding rail buckling plate 41, and power is provided by a screw rod transmission structure of the nut transmission block 42 to drive the cutting head 3 to slide on the cross beam frame 2 in a straight line mode. The hydraulic cylinder 32 on the cutting head 3 reciprocates up and down, so that the cutting die 34 is driven to cut the material laid on the cutting table 11.

The cutting machine provided by the invention has the advantages of reasonable structure, controllable cutting stroke, complete cutting, reasonable acting force of the cutting die and the cutting table surface, difficult damage of the cutting die and low maintenance cost.

As an embodiment of the present invention, the cutting head 3 further comprises an angle adjusting device 5, and the angle adjusting device 5 comprises:

the middle transition frame 51 is positioned between the hydraulic cylinder 32 and the cutting die 34, and the upper end surface of the middle transition frame 51 is fixedly connected with the lower end of the hydraulic cylinder 32;

the rotary adjusting gear 52 is rotatably arranged in the intermediate transition frame 51, and the lower end of the rotary adjusting gear 52 is fixedly connected with the cutting die 34;

the rotating adjusting motor 53 is fixedly arranged on the intermediate transition frame 51, an output shaft of the rotating adjusting motor 53 is provided with a first gear 54, and the first gear 54 is in meshing transmission connection with the rotating adjusting gear 52;

the middle transition frame 51 is further provided with a constant locking assembly 55, and the constant locking assembly 55 is used for locking the cutting die 34.

As an embodiment of the present invention, the steady state locking assembly 55 includes:

a locking housing 551, the upper end of which is fixedly connected with the inner top wall of the intermediate transition frame 51, the locking housing being of a stepped cylindrical structure;

the locking power ring 552 is of an annular structure and is rotatably arranged inside the locking shell 551, a ratchet tooth surface 552a is arranged on the inner annular wall of the locking power ring 552, a notch used for being matched with a transmission belt 553 is formed in the outer annular wall of the locking power ring 552, the transmission belt 553 is connected with a locking motor 554, and the locking motor 554 is fixedly connected to the intermediate transition frame 51;

the constant-state retainer 555 is of a disc-shaped structure and is arranged in a space surrounded by the locking power ring 552, the constant-state retainer 555 and the locking power ring 552 are in clearance fit, a semicircular installation groove 556 is further formed in the side wall of the constant-state retainer 555, and a double-head state switching block 557 is arranged in the installation groove 556;

the double-head state switching block 557 is arranged on the constant state retainer 555 in a pivoting manner, the double-head state switching block 557 is in a crescent shape, pawl tooth surfaces 557a are arranged on the outer arc surfaces on two sides of the double-head state switching block 557, and the pawl tooth surfaces 557a are matched with the ratchet tooth surfaces 552 a;

a state switching cover 558, wherein a state switching cover 558 is arranged above the constant state holder 555, an embedded column 559 is arranged on the lower end surface of the state switching cover 558, the embedded column 559 is inserted into the constant state holder 555, a transverse slot 5510 is formed in the embedded column 559, an abutting column 5511 is arranged in the transverse slot 5510, a compression spring 5512 is sleeved on the abutting column 5511, and the abutting column 5511 abuts against the inner wall surface of the double-head state switching block 557;

a connecting rod 5513 is connected to the side wall of the state switching cover 558, the connecting rod 5513 is used for connecting a telescopic cylinder 5514, and the telescopic cylinder 5514 is fixedly arranged on the intermediate transition frame 51 and used for driving the state switching cover 558 to rotate;

a synchronizing shaft 5515 is connected below the constant state retainer 555, and the synchronizing shaft 5515 and the constant state retainer 555 rotate synchronously;

the flower-shaped nut 5516 is in threaded connection with the synchronizing shaft 5515, and a flower-shaped groove 5517 matched with the flower-shaped nut 5516 is formed in the inner wall of the lower end of the locking shell 551;

the annular constant locking frame 5518 is movably sleeved on the synchronizing shaft 5515, the annular constant locking frame 5518 is positioned above the flower-shaped nut 5516, and the annular constant locking frame 5518 is fixedly connected with the rotary adjusting gear 52 through a cross rod 5519.

As an embodiment of the present invention, the lower end surface of the steady state retainer 555 is provided with a lubrication pad 5520.

The working principle and the beneficial effects of the technical scheme are as follows: when the cutting machine is used for cutting materials, the cutting machine can meet the requirement for adjusting the placing angle of the cutting die according to production and manufacturing requirements. That is to say, based on the principle of not wasting materials, the placing angle of the cutting die can be adjusted within a certain range (0-90 degrees) in real time in the cutting process. In order to realize the real-time angle adjustment of the cutting die, an angle adjusting device 5 is additionally arranged between the hydraulic cylinder and the cutting die, wherein the intermediate transition frame 51 serves as an intermediate connecting member and serves as a rotary mounting member, the intermediate connecting member serves to connect the cutting die 34 to the hydraulic cylinder 32, and the rotary mounting member serves to provide mounting positions for the rotary adjusting gear 52 and the rotary adjusting motor 53. The rotation adjusting motor 53 drives the rotation adjusting gear 52 to rotate through gear engagement connection, so as to drive the cutting die 34 to rotate, and after the rotation reaches a specified angle, the rotation adjusting motor 53 stops operating, so that the angle adjusting action of the cutting die 34 can be completed.

However, in the daily production process, when a piece of material is cut, the angle of the cutting die 34 is often required to be adjusted for several times, and when the angle adjusting device 5 is used for adjustment, a more obvious problem exists: namely, when the cutting die 34 is rotated to a designated angle, the fixing of the cutting die 34 is achieved only by means of the first gear 54 and the stoppage of the rotation adjusting motor 53. Specifically, the cutting die 34 is inevitably subjected to a rotational force caused by an external force or material wrinkles during the downward pressing cutting process, so that the angle of the cutting die 34 is deviated, which may cause a defective product to be cut, and the effect of resisting the external force by merely stopping the rotation of the rotation adjusting motor 53 is not good. In order to overcome this drawback, a steady locking assembly 55 is additionally provided in the angle adjustment device 5, so that the cutting die 34 can be locked in a steady state after the angle adjustment is completed. The constant state locking assembly 55 has two states: the free state and the constant state locking state are separated, and the angle adjustment and the locking of the cutting die 34 are realized under the switching of the two states.

Separation free state: when the cutting die 34 finishes cutting and needs to be adjusted in angle, the constant state locking assembly 55 enters the separation free state from the previous constant state locking state. In this state switching, the telescopic cylinder 5514 is extended to drive the state switching cap 558 to deflect clockwise through the connecting rod 5513, and when the state switching cap 558 deflects, the contact post 5511 is driven to deflect clockwise, so that the front end of the contact post 5511 contacts the right side of the double-end state switching block 557, and accordingly, the pawl tooth surface 557a on the right side of the double-end state switching block 557 is in contact fit with the ratchet tooth surface 552 a. After the state switching cover 558 is deflected, the locking motor 554 rotates forward to drive the locking power ring 552 to rotate counterclockwise through the transmission belt 553. Because the locking power ring 552 and the constant-state retainer 555 are in meshing transmission connection through the ratchet tooth surface 552a and the pawl tooth surface 557a on the right side of the double-head state switching block 557, the constant-state retainer 555 rotates anticlockwise. When the steady state holder 555 rotates counterclockwise, the synchronizing shaft 5515 fixed to the lower end thereof rotates synchronously, and the spline nut 5516 in threaded fit with the synchronizing shaft 5515 slides downward under the restriction of the spline groove 5517, so that the annular steady state locking frame 5518 is in a free state, and the annular steady state locking frame 5518 does not limit the rotation adjusting gear 52 in this state. At this time, the constant locking assembly 55 is driven by the rotation adjusting motor 53 to perform the angular adjustment even if the separation free state is completely entered.

The constant locking state: the movement of each component in the constant locking state is opposite to the movement of each component in the separation free state, and the description is omitted. The spline nut 5516 slides upwards under the action of each component to tightly press the annular constant state locking frame 5518 on the locking housing 551, so that the rotary adjusting gear 52 is in constant state locking under the action of the constant state locking assembly 55, and the cutter die 34 is not fixed only by stopping the rotation of the rotary adjusting motor 53.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. A cutting machine, comprising:

the cutting table comprises a base (1), wherein a cutting table top (11) for placing materials is arranged on the upper surface of the base (1);

the cross beam frame (2) is fixedly arranged above the cutting table board (11);

cutting head (3), sliding on the crossbeam frame (2) is provided with cutting head (3) that are used for deciding the material, cutting head (3) are along the horizontal linear sliding of crossbeam frame (2).

2. A cutting machine according to claim 1, characterized in that: the cutting head (3) is connected with the cross beam frame (2) in a sliding mode through a sliding assembly (4), and the sliding assembly (4) comprises:

the sliding rail buckling and connecting plate (41) is fixedly arranged on the peripheral side wall of the upper end of the cutting head (3), and the sliding rail buckling and connecting plate (41) is used for being buckled in a rail groove formed in the cross beam frame (2);

the nut transmission block (42) is fixedly arranged on the upper end face of the cutting head (3), and the nut transmission block (42) is used for being in threaded transmission connection with a lead screw of the cross beam frame (2).

3. A cutting machine according to claim 2, characterized in that: the cutting head (3) comprises:

the sliding rail buckling plate (41) and the nut transmission block (42) are fixedly arranged on the outer shell (31);

the hydraulic cylinder (32) is fixedly connected with the outer shell (31), the hydraulic cylinder (32) extends and retracts in the vertical direction, and a guide rod (33) is arranged between the lower end of the hydraulic cylinder (32) and the outer shell (31);

the lower end of the hydraulic cylinder (32) is fixedly connected with a cutting die (34).

4. A cutting machine according to claim 3, characterized in that: the cutting head (3) further comprises an angle adjusting device (5), the angle adjusting device (5) comprises:

the middle transition frame (51) is positioned between the hydraulic cylinder (32) and the cutting die (34), and the upper end surface of the middle transition frame (51) is fixedly connected with the lower end of the hydraulic cylinder (32);

the rotary adjusting gear (52) is rotatably arranged in the middle transition frame (51), and the lower end of the rotary adjusting gear (52) is fixedly connected with the cutting die (34);

the rotating adjusting motor (53) is fixedly arranged on the middle transition frame (51), an output shaft of the rotating adjusting motor (53) is provided with a first gear (54), and the first gear (54) is in meshing transmission connection with the rotating adjusting gear (52);

the middle transition frame (51) is also internally provided with a constant locking component (55) for locking the cutting die (34).

5. A cutting machine according to claim 4, characterized in that: the steady state locking assembly (55) comprises:

the upper end of the locking shell (551) is fixedly connected with the inner top wall of the middle transition frame (51), and the locking shell is of a stepped cylindrical structure;

the locking power ring (552) is of an annular structure and is rotatably arranged inside the locking shell (551), a ratchet tooth surface (552 a) is arranged on the inner annular wall of the locking power ring (552), a notch used for being matched with a transmission belt (553) is formed in the outer annular wall of the locking power ring (552), the transmission belt (553) is connected with a locking motor (554), and the locking motor (554) is fixedly connected to the intermediate transition frame (51);

the constant-state retainer (555) is of a disc-shaped structure and is arranged in a space surrounded by the locking power ring (552), the constant-state retainer (555) and the locking power ring (552) are in clearance fit, a semicircular installation groove (556) is further formed in the side wall of the constant-state retainer (555), and a double-head state switching block (557) is arranged in the installation groove (556);

the double-head state switching block (557) is arranged on the constant-state retainer (555) in a pivoting manner, the double-head state switching block (557) is in a crescent shape, pawl tooth surfaces (557 a) are arranged on extrados surfaces on two sides of the double-head state switching block (557), and the pawl tooth surfaces (557 a) are matched with the ratchet tooth surfaces (552 a);

the state switching cover (558), a state switching cover (558) is arranged above the constant state holder (555), an embedded column (559) is arranged on the lower end face of the state switching cover (558), the embedded column (559) is inserted into the constant state holder (555), a transverse slot (5510) is formed in the embedded column (559), a butting column (5511) is arranged in the transverse slot (5510), a compression spring (5512) is sleeved on the butting column (5511), and the butting column (5511) is butted against the inner wall face of the double-end state switching block (557);

a connecting rod (5513) is connected to the side wall of the state switching cover (558), the connecting rod (5513) is used for connecting a telescopic cylinder (5514), and the telescopic cylinder (5514) is fixedly arranged on the middle transition frame (51) and used for driving the state switching cover (558) to rotate;

the synchronous shaft (5515) is connected below the constant-state retainer (555), and the synchronous shaft (5515) and the constant-state retainer (555) rotate synchronously;

the flower-shaped nut (5516) is in threaded connection with the synchronizing shaft (5515), and a flower-shaped groove (5517) matched with the flower-shaped nut (5516) is formed in the inner wall of the lower end of the locking shell (551);

the novel gear transmission mechanism is characterized by comprising an annular constant locking frame (5518), wherein the annular constant locking frame (5518) is movably sleeved on the synchronizing shaft (5515), the annular constant locking frame (5518) is located above the flower-shaped nut (5516), and the annular constant locking frame (5518) is fixedly connected with the rotary adjusting gear (52) through a cross rod (5519).

6. A cutting machine according to claim 5, characterized in that: and a lubricating pad (5520) is arranged on the lower end surface of the constant-state retainer (555).

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