CN107639662B

CN107639662B - Full-automatic cutting equipment

Info

Publication number: CN107639662B
Application number: CN201710992913.XA
Authority: CN
Inventors: 吴新华
Original assignee: ZHEJIANG SHENMING SHOEMAKING MACHINERY CO Ltd
Current assignee: ZHEJIANG SHENMING SHOEMAKING MACHINERY CO Ltd
Priority date: 2017-10-23
Filing date: 2017-10-23
Publication date: 2023-08-18
Anticipated expiration: 2037-10-23
Also published as: CN107639662A

Abstract

The invention relates to a material cutting machine, in particular to full-automatic cutting equipment. The invention provides the following technical scheme: the utility model provides a full-automatic cutting equipment, includes the organism, locates feed end and the discharge end on the organism, has the conveyer that is used for cutting the cutting device and will accomplish the material output to the discharge end of cutting between feed end and the discharge end, and the cutting device is including cutter unit and cutting unit, cutter unit including setting firmly in the cutter holder on the organism, locate a plurality of cutter mounting panels that supply the cutter installation in the cutter holder and can take out or place the cutter mounting panel by the cutter holder in a plurality of groups and the extraction mechanism that cutter mounting panel quantity corresponds. By adopting the technical scheme, the full-automatic cutting equipment is convenient to install or replace a conveying belt, is provided with the cutter holder, can extract the cutting tool as required, improves the cutting efficiency, is stable in punching and has high precision.

Description

Full-automatic cutting equipment

Technical Field

The invention relates to a material cutting machine, in particular to full-automatic cutting equipment.

Background

The cutting machine is a special device which is used for industrially carrying out shaping cutting on leather, plastics, canvas, nylon and other materials and promotes the materials to conform to the blanking size of processed products.

The traditional cutting machine mainly comprises a machine body, a feeding end and a discharging end which are arranged on the machine body, wherein a cutting device for cutting and a conveying device for outputting cut materials to the discharging end are arranged between the feeding end and the discharging end.

The conveying device is usually composed of a plurality of rotatable rollers arranged on the machine body and a conveying belt wound on the rollers. Because the roller is fixed with the organism in its axial when the installation, consequently, the conveyer belt need implement the installation with banding conveyer belt body around the roller in the installation, again with the beginning end of conveyer belt body with the terminal carry out the connection through the mode of adhesive or heat-seal, not only operation process is loaded down with trivial details, and the dismouting is inconvenient, comparatively consuming time during installation or change.

The traditional cutting device is a liftable cutter fixing frame for installing a cutter, an air cylinder or an oil hydraulic cylinder for driving the cutter fixing frame to lift. The cylinder and the oil hydraulic cylinder are used as driving sources, the transmission accuracy and the punching depth accuracy are poor, the cutting process of the cutter on materials is not stable enough, the cutting speed is low, and the efficiency is low.

When the cutting equipment is required to cut a material of a certain specific type, an operator can replace a cutter on the cutter fixing frame according to the requirement. The mode is complex in operation process, an operator needs to detach and correct the cutter when changing the cutter, and meanwhile, a machining place needs to provide a cutter rest special for placing the cutter, so that the operator can easily lose the cutter in the use process.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides full-automatic cutting equipment which is convenient for installing or replacing a conveyor belt, is provided with a cutter holder, can extract a cutter according to the needs, improves the cutting efficiency, is stable in punching and has high precision.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a full-automatic cutting equipment, includes the organism, locates feed end and the discharge end on the organism, has the conveyer that is used for cutting the cutting device and will accomplish the material output to the discharge end of cutting between feed end and the discharge end, its characterized in that: the cutting device comprises a cutter assembly and a cutting assembly, wherein the cutter assembly comprises a cutter seat fixedly arranged on the machine body, a plurality of cutter die mounting plates for mounting cutters and arranged in the cutter seat, and a plurality of groups of extraction mechanisms which can take out the cutter die mounting plates from the cutter seat or place the cutter die mounting plates in the cutter seat and correspond to the cutter die mounting plates in number; the cutting assembly comprises a bracket fixedly arranged by an organism, a driving source erected on the bracket, a lifting seat linked with the driving source and a cutter mounting seat connected with the lifting seat and capable of being linked with a cutter mounting plate, wherein the driving source is a servo motor fixedly arranged on the bracket, a speed reducer is arranged between the lifting seat and the servo motor, the speed reducer is linked with the lifting seat through a heavy-duty ball screw, the lifting seat is screwed with the heavy-duty ball screw through threads, a tapered roller bearing and a thrust bearing are respectively arranged between the heavy-duty ball screw and the bracket, the conveying device comprises a mounting frame erected on the organism and a plurality of conveyor belt rollers erected on the mounting frame, a base is arranged between the organism and the mounting frame, a push rod capable of lifting along the base is sleeved outside the base, and the mounting frame is sleeved on the positioning shaft and can rotate along the circumferential direction of the positioning shaft through external force.

By adopting the technical scheme, the cutter seats for placing a plurality of cutters are arranged on the machine body, and the cutter die mounting plate for mounting the cutters and the extraction mechanism for driving the cutter die mounting plate to operate are arranged in the cutter seats or outside the cutter seats, so that the cutters of various types and sizes can be accumulated on the equipment. The driving source is selected as a servo motor, the driving force is stable and accurate during driving, the punching depth of a cutter can be improved, the punching of materials can be completed once, the punching efficiency is high, the punching quality is ensured, meanwhile, the punching speed can be improved, the integral load capacity can be improved through the arrangement of a speed reducer, the integral load capacity can be improved through the arrangement of a heavy-load ball screw, a tapered roller bearing and a thrust bearing, and deformation and damage in the use process are prevented.

Wherein, vertical one end of mounting bracket is equipped with can be rather than being swing complex rocker, and this rocker is including being gliding swing end and being used for setting up the installation end of conveyer belt roller with the mounting bracket articulated end, and its articulated end department is articulated with the mounting bracket through the articulated shaft, and the mounting bracket is located the swing end department of rocker and is equipped with the arciform spout, and the swing end department of rocker has set firmly and has extended to in this arciform spout and can follow the reciprocal gliding slider of arciform spout.

By adopting the technical scheme, the setting of mounting bracket is used for supporting and installing the conveyer belt roller, and the mounting bracket is through cup jointing with the locating shaft to when external force carries out the drive to the mounting bracket, can carry out the rotation along the circumference of locating shaft. When the conveyer belt is required to be installed or replaced, the ejector rod is lifted towards the direction of the installation frame, a rotatable gap is reserved between the installation frame and the base, the installation frame is driven by external force, the installation frame is driven to rotate along the positioning shaft, and after the installation frame rotates to a certain angle, the conveyer belt on the installation frame can be removed, or the conveyer belt formed into a ring shape is directly sleeved on the conveyer belt roller from one side of the transverse direction of the installation frame. The setting of rocker is in order to prevent that the mounting bracket from bumping with other parts on the organism in rotatory in-process, can avoid the part on the organism after the rocker implementation swings, makes the stable completion rotation of mounting bracket, and the conveyer belt can be implemented the dismouting smoothly.

The invention is further arranged as follows: the extraction mechanism comprises a cutter taking cylinder fixedly arranged on the cutter holder, a clamping assembly and a positioning disassembly and assembly, wherein the clamping assembly is in linkage with the cutter taking cylinder and comprises a clamping driving cylinder fixedly arranged on the cutter taking cylinder, a clamping claw which is in linkage with the clamping driving cylinder and can be opened and closed, and a hook which is arranged on the cutter die mounting plate and is matched with the clamping claw, and the positioning disassembly and assembly comprises a positioning driving cylinder fixedly arranged on the cutter taking cylinder, a pulling-out piece which is in linkage lifting with the positioning driving cylinder and a positioning bolt which is arranged on the cutter die mounting plate and is matched with the pulling-out piece.

The clamping grooves are symmetrically formed in the opposite end faces of the two clamping claws which can be opened and closed, the cross section of the hook on the cutting die mounting plate is I-shaped, and the clamping grooves comprise a connecting part fixed with the cutting die mounting plate and a clamping part matched with the clamping grooves of the clamping claws.

By adopting the technical scheme, the device is simple in structure, when the cutting die mounting plate for mounting the cutting knife is required to be extracted (namely, the cutting die mounting plate is output out of the cutter holder), the clamping driving cylinder drives the clamping claw to enable the clamping claw to clamp the hook, the positioning driving cylinder drives the plug-in pulling piece to pull out the positioning plug pin on the cutting die mounting plate, the cutting die positioning plate and the cutter holder are released from positioning, then the cutter taking cylinder works, and the cutting die mounting plate is output out of the cutter holder; on the contrary, if need retrieve the cutting die mounting panel in to the blade holder, get the cutter cylinder and stretch out in by the blade holder, when removing to cutting die mounting panel department, the gripper jaw will be hooked centre gripping, pulls out the inserted sheet and inserts the cutting die and install on to the cutting die mounting panel and implement recovery, convenient operation, the operation is stable and swift.

The invention is further arranged as follows: the lifting seat is internally provided with a ball nut fixedly connected with the lifting seat, the heavy-duty ball screw is screwed with the ball nut, and the tapered roller bearing and the thrust bearing are sequentially arranged along the axial direction of the heavy-duty ball screw.

By adopting the technical scheme, the device has simple and compact structure, and the bearing capacity can be improved to 350kn.

The invention is further arranged as follows: the cutter mount pad passes through fastener and lifting seat fixed connection, and the cutter mount pad is offered the installation draw-in groove for the other end department of being connected one end with the lifting seat, the support be the ball-milling cast body.

By adopting the technical scheme, the cutter is convenient to replace, the replacement process is more convenient, the replacement time is shortened, and the machining efficiency is improved. The support is ball-milling cast body, which can improve the strength and the wear resistance of the support.

The invention is further described below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the A-direction of FIG. 1;

figure 3 is an exploded view of a cutter assembly according to an embodiment of the present invention;

FIG. 4 is a schematic view of a knife assembly according to an embodiment of the present invention;

FIG. 5 is a schematic view in the direction B of FIG. 4;

FIG. 6 is a schematic diagram of a cutting assembly according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a conveying apparatus according to an embodiment of the present invention;

FIG. 8 is a schematic view in the direction C of FIG. 7;

fig. 9 is a schematic structural view of a swing frame in a conveying device according to an embodiment of the present invention.

Description of the embodiments

1-9, a full-automatic cutting device comprises a machine body 1, a feeding end 11 and a discharging end 12 which are arranged on the machine body 1, a cutting device for cutting and a conveying device 2 for outputting cut materials to the discharging end 12 are arranged between the feeding end and the discharging end 12 of the feeding end 11, the cutting device comprises a cutter assembly 3 and a cutting assembly 4, the cutter assembly 3 comprises a cutter seat 31 fixedly arranged on the machine body 1, a plurality of cutter mounting plates 32 for mounting cutters and arranged in the cutter seat 31, and a plurality of groups of extraction mechanisms 33 which can take out the cutter mounting plates 32 from the cutter seat 31 or put the cutter mounting plates 32 into the cutter seat 31 and correspond to the number of the cutter mounting plates 32; the cutting assembly 4 comprises a bracket 41 fixedly arranged on the machine body 1, a driving source 42 erected on the bracket 41, a lifting seat 43 linked with the driving source 42 and a cutter mounting seat 44 connected with the lifting seat 43 and capable of being linked with the cutter mounting plate 32, wherein the driving source 42 is a servo motor fixedly arranged on the bracket 41, a speed reducer 45 is arranged between the lifting seat 43 and the servo motor, the speed reducer 45 is linked with the lifting seat 43 through a heavy-duty ball screw 46, the lifting seat 43 is screwed with the heavy-duty ball screw 46, and a tapered roller bearing 47 and a thrust bearing 48 are respectively arranged between the heavy-duty ball screw 46 and the bracket 41. In the above scheme, by arranging the cutter holder 31 on the machine body 1 for placing a plurality of cutters, and arranging the cutter die mounting plate 32 for mounting the cutters and the extraction mechanism 33 for driving the cutter die mounting plate 32 to operate in the cutter holder 31 or outside the cutter holder 31 on the cutter holder 31, the device can be promoted to accumulate cutters of various types and sizes, and operators can extract different cutters according to the needs in the use process, so that not only is the disassembly and assembly time of the cutters saved, the processing time is shortened, the processing efficiency is improved, but also the cutters can be prevented from losing. The driving source 42 is selected as a servo motor, the driving force is stable and accurate during driving, the punching depth of a cutter can be improved, the punching of materials can be completed once, the punching efficiency is high, the punching quality is ensured, meanwhile, the punching speed can be improved, the integral load capacity can be improved through the arrangement of the speed reducer 45, the integral load capacity can be improved through the arrangement of the heavy-duty ball screw 46, the tapered roller bearing 47 and the thrust bearing 48, and deformation and damage in the use process are prevented.

In the embodiment of the invention, the conveying device 2 comprises a mounting frame 21 arranged on the machine body 1 and a plurality of conveying belt rollers 22 arranged on the mounting frame 21 and used for winding a conveying belt, a base 23 is arranged between the machine body 1 and the mounting frame 21, a push rod 24 capable of lifting along the base 23 is arranged between the base 23 and the mounting frame 21, a positioning shaft 25 is sleeved outside the push rod 24, and the mounting frame 21 is sleeved on the positioning shaft 25 and can rotate along the circumferential direction of the positioning shaft 25 through external force. The vertical one end of mounting bracket 21 is equipped with can be rather than being swing complex rocker 26, and this rocker 26 is including articulated end 261 with mounting bracket 21, be gliding swing end 262 with mounting bracket 21 and be used for setting up conveyer belt roller 22's installation end 263, and its articulated end 261 department is articulated with mounting bracket 21 through the articulated shaft, and the swing end 262 department that mounting bracket 21 is located rocker 26 is equipped with arc spout 211, and the swing end 262 department of rocker 26 has set firmly and has extended to this arc spout 211 in and can follow the slider 264 of arc spout 211 reciprocal sliding. The installation frame 21 is provided for supporting and installing the conveyor roller 22, and the installation frame 21 is sleeved with the positioning shaft 25, and can rotate along the circumferential direction of the positioning shaft 25 when an external force drives the installation frame 21. When the conveyor belt is required to be installed or replaced, the ejector rod 24 is lifted towards the direction of the installation frame 21, a rotatable gap is reserved between the installation frame 21 installed on the ejector rod 24 and the base 23, then the installation frame 21 is driven by external force, the installation frame 21 is driven to rotate along the positioning shaft 25, after the installation frame 21 rotates to a certain angle, the conveyor belt on the installation frame 21 can be removed, or the conveyor belt formed into an annular shape is directly sleeved on the conveyor belt roller 22 from one lateral side of the installation frame, so that the conveyor belt is convenient to disassemble and assemble, and time-saving. The swing frame 26 is provided to prevent the mounting frame 21 from colliding with other components on the machine body 1 during rotation, and when the swing frame 26 swings, the components on the machine body 1 can be avoided, so that the mounting frame 21 can stably complete rotation, and the conveyor belt can be smoothly disassembled and assembled.

The extracting mechanism 33 in the embodiment of the invention comprises a cutter taking cylinder 331 fixedly arranged on the cutter holder 31, a clamping assembly 332 linked with the cutter taking cylinder 331 and a positioning dismounting assembly 333, wherein the clamping assembly 332 comprises a clamping driving cylinder 3321 fixedly arranged on the cutter taking cylinder 331, a clamping claw 3322 linked with the clamping driving cylinder 3321 and capable of opening and closing, and a hook 3323 arranged on the cutter die mounting plate 32 and matched with the clamping claw 3322, and the positioning dismounting assembly 333 comprises a positioning driving cylinder 3331 fixedly arranged on the cutter taking cylinder 331, a pulling insert 3332 linked with the positioning driving cylinder 3331 and a positioning plug 3333 arranged on the cutter die mounting plate 32 and matched with the pulling insert 3332. Clamping grooves 33221 are symmetrically formed in opposite end faces of the two openable clamping claws 3322, the cross section of a hook 3323 on the cutting die mounting plate 32 is I-shaped, and the clamping grooves comprise connecting parts fixed with the cutting die mounting plate 32 and clamping parts matched with the clamping grooves 33221 of the clamping claws 3322. The above arrangement is simple in structure, when the cutter mounting plate 32 for mounting the cutter is required to be extracted (namely, the cutter mounting plate 32 is output to the outside of the cutter seat 31), the clamping driving cylinder 3321 drives the clamping claw 3322 to enable the clamping claw 3322 to clamp the hook 3323, the positioning driving cylinder 3331 drives the drawing-out piece 3332, the drawing-out piece 3332 draws out the positioning plug pins 3333 on the cutter mounting plate 32, the cutter positioning plate 32 and the cutter seat 31 are released from positioning, then the cutter taking cylinder works, and the cutter mounting plate 32 is output to the outside of the cutter seat 31; on the contrary, if the cutter mold mounting plate 32 needs to be recovered into the cutter holder 31, the cutter taking cylinder 331 extends out of the cutter holder 31, and when the cutter mold mounting plate 32 is moved, the clamping claw 3322 clamps the hook 3323, the inserting piece 3332 inserts the positioning bolt 3333 into the cutter mold mounting plate 32 to recover the cutter mold mounting plate 32, and the operation is convenient, stable and rapid.

In the embodiment of the present invention, a ball nut 431 fixedly connected to the lifting seat 43 is disposed in the lifting seat 43, and a heavy-duty ball screw 46 is screwed to the ball nut 431, and a tapered roller bearing 47 and a thrust bearing 48 are sequentially arranged along the axial direction of the heavy-duty ball screw 46. The above arrangement is simple and compact, and the bearing capacity can be improved to 350kn, the cutter mounting seat 44 is fixedly connected with the lifting seat 43 through a fastener, the cutter mounting seat 44 is provided with a mounting clamping groove 441 at the other end of the cutter mounting seat, which is opposite to the end connected with the lifting seat 43, and the bracket 41 is a ball milling cast body. The installation draw-in groove 441's setting is convenient for the change of cutter, and it is more convenient to promote the change process, has shortened the change time, has improved machining efficiency. The support 41 is a ball-milling cast body, so that the strength and the wear resistance of the support can be improved.

Claims

1. The utility model provides a full-automatic cutting equipment, includes the organism, locates feed end and the discharge end on the organism, has the conveyer that is used for cutting the cutting device and will accomplish the material output to the discharge end of cutting between feed end and the discharge end, its characterized in that: the cutting device comprises a cutter assembly and a cutting assembly, wherein the cutter assembly comprises a cutter seat fixedly arranged on the machine body, a plurality of cutter die mounting plates for mounting cutters and arranged in the cutter seat, and a plurality of groups of extraction mechanisms which can take out the cutter die mounting plates from the cutter seat or place the cutter die mounting plates in the cutter seat and correspond to the cutter die mounting plates in number; the cutting assembly comprises a bracket fixedly arranged by an organism, a driving source erected on the bracket, a lifting seat linked with the driving source and a cutter mounting seat connected with the lifting seat and capable of being linked with a cutter mounting plate, wherein the driving source is a servo motor fixedly arranged on the bracket, a speed reducer is arranged between the lifting seat and the servo motor, the speed reducer is linked with the lifting seat through a heavy-duty ball screw, the lifting seat is screwed with the heavy-duty ball screw through threads, a tapered roller bearing and a thrust bearing are respectively arranged between the heavy-duty ball screw and the bracket, the conveying device comprises a mounting frame erected on the organism and a plurality of conveying belt rollers erected on the mounting frame, a base is arranged between the organism and the mounting frame, a push rod capable of lifting along the base is arranged between the base and the mounting frame, a positioning shaft is sleeved outside the push rod, and the mounting frame is sleeved on the positioning shaft and can rotate along the circumferential direction of the positioning shaft through external force.

2. The fully automatic cutting apparatus of claim 1, wherein: the vertical one end of mounting bracket is equipped with can be rather than being swing complex rocker, and this rocker is including articulated end with the mounting bracket, be gliding swing end and be used for setting up the installation end of conveyer belt roller with the mounting bracket, and its articulated end department is articulated with the mounting bracket through the articulated shaft, and the mounting bracket is located the swing end department of rocker and is equipped with the arciform spout, and the swing end department of rocker has set firmly to extend to in this arciform spout and can follow the reciprocal gliding slider of arciform spout.

3. The fully automatic cutting apparatus according to claim 1 or 2, wherein: the extraction mechanism comprises a cutter taking cylinder fixedly arranged on the cutter holder, a clamping assembly and a positioning disassembly and assembly, wherein the clamping assembly is in linkage with the cutter taking cylinder and comprises a clamping driving cylinder fixedly arranged on the cutter taking cylinder, a clamping claw which is in linkage with the clamping driving cylinder and can be opened and closed, a hook which is arranged on a cutter die mounting plate and is matched with the clamping claw, and the positioning disassembly and assembly comprises a positioning driving cylinder fixedly arranged on the cutter taking cylinder, a pulling-out piece which is in linkage lifting with the positioning driving cylinder and a positioning bolt which is arranged on the cutter die mounting plate and is matched with the pulling-out piece.

4. A fully automatic cutting apparatus according to claim 3, wherein: clamping grooves are symmetrically formed in the opposite end faces of the two openable clamping claws, the cross section of the hook on the cutting die mounting plate is I-shaped, and the clamping part is fixed with the cutting die mounting plate and matched with the clamping grooves of the clamping claws.

5. The fully automatic cutting apparatus according to claim 1 or 2, wherein: the lifting seat is internally provided with a ball nut fixedly connected with the lifting seat, the heavy-duty ball screw is screwed with the ball nut, and the tapered roller bearing and the thrust bearing are sequentially arranged along the axial direction of the heavy-duty ball screw.

6. The fully automatic cutting apparatus according to claim 1 or 2, wherein: the cutter mount pad pass through fastener and lifting seat fixed connection, the blade holder has seted up the installation draw-in groove for the other end department with lifting seat one end of being connected, the support be the ball-milling cast body.

7. The fully automatic cutting apparatus of claim 5, wherein: the cutter mount pad pass through fastener and lifting seat fixed connection, the cutter mount pad is offered the installation draw-in groove for the other end department of being connected one end with the lifting seat, the support be the ball-milling cast body.