CN113414793A

CN113414793A - Deviation rectifying mechanism and method for cutting tool

Info

Publication number: CN113414793A
Application number: CN202010429200.4A
Authority: CN
Inventors: 祝磊; 李远鹏; 徐贵阳
Original assignee: Wuhan DR Llaser Technology Corp Ltd
Current assignee: Wuhan DR Llaser Technology Corp Ltd
Priority date: 2020-05-20
Filing date: 2020-05-20
Publication date: 2021-09-21

Abstract

A deviation rectifying mechanism of a cutting tool comprises a base plate and two rotating pieces, wherein the bottoms of the left end and the right end of the base plate are respectively rotatably connected with the top end of one rotating piece, the side walls of the rotating pieces are embedded into bearing holes formed in a supporting rotary table, and the bottom of the supporting rotary table is connected with the top of a linear driving mechanism; the top of bed plate is connected with the cutter subassembly, and the cutter subassembly is located between two rotation pieces with the junction of bed plate. The design not only has higher efficiency of correcting and aligning, but also has wider adjustment range and higher precision.

Description

Deviation rectifying mechanism and method for cutting tool

Technical Field

The invention relates to a film material processing instrument, belongs to the technical field of electronic material processing, and particularly relates to a deviation rectifying mechanism of a cutting tool and a deviation rectifying method thereof.

Background

When a film material (such as EVA) is processed, a film material roll is fed, after punching is completed, the film material roll is cut into breadth with a proper size, and finally, a blanking method is used for continuous processing.

By adopting the method, in the feeding and processing processes of the material roll, the film material is inevitably deviated due to the material characteristics in the feeding process of the film material, the cutting is influenced, and particularly for the film material after punching, the breadth cutting needs to ensure high precision so as to be tightly matched with the product of the later process. In order to achieve the purpose, in the conventional cutting mechanism, a scheme of fixing the film material by using a cutting knife and correcting the film material is adopted, but the film material is light and thin, low in hardness and weak in strength, the film can bend and droop in the correcting process, the expected effect cannot be achieved, manual intervention or secondary correction is needed, and time and labor are wasted.

In order to ensure the product quality and efficiency and improve the overall stability of the equipment, a deviation correcting mechanism of the cutting tool, which can realize fast and correct alignment with high precision, is needed.

The information disclosed in this background section is only for enhancement of understanding of the general background of the patent application and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The invention aims to overcome the defect and the problem of low efficiency of correction and alignment in the prior art, and provides a correction mechanism of a cutting tool and a correction method thereof, which have high efficiency of correction and alignment.

In order to achieve the above purpose, the technical solution of the invention is as follows: the deviation correcting mechanism comprises a base plate and two rotating pieces, the left end and the right end of the base plate are respectively connected with one rotating piece in a rotating mode, the side walls of the rotating pieces are embedded into bearing holes formed in the supporting rotary table, the bottom of the supporting rotary table is connected with the top of the linear driving mechanism, and the linear driving mechanism drives the supporting rotary table to move back and forth;

the bed plate is connected with the cutter assembly, and the joint of the cutter assembly and the bed plate is positioned between the two rotating parts.

The rotating piece is a cylindrical crossed roller bearing.

The linear driving mechanism comprises a linear driving platform, a screw rod nut, a driving screw rod, a linear driving motor and a coupler, wherein the output end of the linear driving motor is connected with one end of the driving screw rod through the coupler, the other end of the driving screw rod is in threaded fit with the inside of the screw rod nut, the top of the screw rod nut is connected with the bottom of the linear driving platform, and the top of the linear driving platform is connected with the bottom of the supporting rotary table.

And the bottom of the linear driving platform is in sliding fit with the linear driving sliding rail.

The bottoms of the two ends of the supporting rotary table are in sliding fit along the tops of the left linear slide rail and the right linear slide rail, and the bottoms of the left linear slide rail and the right linear slide rail are connected with the top of the linear driving mechanism;

the supporting rotary table is perpendicular to the driving direction of the linear driving mechanism along the sliding direction of the left linear slide rail and the right linear slide rail.

The cutter assembly comprises an upper cutter and a lower cutter which are arranged oppositely up and down, a cutting opening is formed between the upper cutter and the lower cutter, and a film material to be cut passes through the cutting opening;

cut out notched the place ahead and be provided with and cut the bed plate that the mouth just is setting up, the leading flank of this bed plate is connected with the lateral part of cutter down, be provided with the cutter directly over the cutter down, the leading flank of cutter should go up is connected with the lateral part of cutter tie-beam, the both ends of cutter tie-beam respectively are connected with the drive end of a cutter cylinder, the stiff end of cutter cylinder is connected with the top of supporting seat, the bottom of supporting seat is connected with the top surface of bed plate, and the bottom of two supporting seats all presss from both sides between the top of two rotations.

The supporting seat comprises a supporting vertical plate, and a cutter connecting plate and a supporting bottom plate which are vertically connected with the top end and the bottom end of the supporting vertical plate, wherein the front end of the cutter connecting plate is connected with the fixed end of a cutter cylinder, and the bottom of the supporting bottom plate is connected with the part of a near rotating part on the base plate.

The support riser is connected with the cylinder body of air cylinder down through pushing down the connecting plate, and the output of air cylinder is connected with the tip of clamp plate down, and the clamp plate is unsettled to be set up directly over the bed plate.

The type of the upper cutter and the lower cutter is any one of the following types: a long strip cutting knife, a round rolling knife or a vertically mounted upright short cutting knife.

A deviation rectifying method of the deviation rectifying mechanism of the cutting tool comprises the following steps of:

first, two linear driving mechanisms respectively drive two ends of a base plate to perform synchronous linear reciprocating motion through corresponding rotating parts so as to drive a cutter assembly to perform linear reciprocating motion;

the second, two linear drive mechanism respectively carry out asynchronous linear reciprocating motion through the both ends that rotate a piece drive bed plate that corresponds, and at this moment, rotate the piece and rotate around the dead eye of seting up in supporting the revolving stage to drive cutter unit and rotate in the lump, thereby produce the skew angle.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention relates to a deviation rectifying mechanism of a cutting tool and a deviation rectifying method thereof, wherein the bottoms of the left and right ends of a base plate are respectively rotatably connected with the top end of a rotating part, the side wall of the rotating part is embedded in a bearing hole arranged in a supporting turntable, the bottom of the supporting turntable is connected with the top of a linear driving mechanism, the top of the base plate is connected with a tool assembly, and when the deviation rectifying mechanism is applied, the two rotating parts are driven to do synchronous or asynchronous linear motion, so that the base plate can make linear motion or rotary motion integrally, thereby driving the cutter components connected thereon to make linear motion or rotary motion, and then adjust the position of cutter unit spare to improve the cutting accuracy, and the governing speed is very fast, can avoid among the prior art to the film material position adjust the film bending deformation that causes or need adjust the defect of wasting time many times, improved cutting efficiency greatly. Therefore, the efficiency of correction and alignment of the invention is high.

2. The invention relates to a deviation rectifying mechanism of a cutting tool and a deviation rectifying method thereof, wherein the left end and the right end of a base plate are respectively connected with the top end of a rotating part in a rotating way, the rotating part is preferably a cylindrical crossed roller bearing, the cylindrical crossed roller bearing rotates around a bearing hole formed in a supporting turntable, the bottom of the supporting turntable is connected with the top of a linear driving mechanism, X, R-direction freedom degrees of the base plate and a cutting opening, namely front and back movement and angular deflection, are favorably realized, the stability is good, and the correction precision is higher. Therefore, the invention has wider adjustment range and higher precision.

3. According to the deviation rectifying mechanism and the deviation rectifying method of the cutting tool, the top surface of the area clamped between the two supporting seats on the base plate is connected with the bottom surface of the cutting base plate, the pressing plate parallel to the base plate is arranged above the cutting base plate in a hanging mode and is located behind the cutting notch, when the deviation rectifying mechanism is applied, the pressing plate tightly presses a film material on the cutting base plate before cutting, tensioning and full fixation of the film in the cutting process are guaranteed, and cutting accuracy is further guaranteed. Therefore, the invention has the cutting and pressing functions and higher cutting precision.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of fig. 1 with a cutter assembly added.

Fig. 3 is a schematic view of the connection of the support turret to the linear drive mechanism of the present invention.

Fig. 4 is a schematic diagram of the matching of the supporting turntable with the left linear slide rail and the right linear slide rail in the invention.

Fig. 5 is a schematic structural view of the linear driving mechanism of the present invention.

FIG. 6 is a schematic view of the connection of the present invention to a cutting mat and a press plate.

Fig. 7 is a rear view of fig. 6.

Fig. 8 is a schematic view of the structure of the platen of fig. 7.

In the figure: the vision positioning device comprises a vision positioning component 2, a vision supporting beam 21, a CCD positioning component 22, a cutter component 3, a cutting opening 30, an upper cutter 31, a lower cutter 32, a cutter connecting beam 33, a cutter cylinder 34, a base plate 4, a rotating part 41, a supporting seat 42, a supporting vertical plate 421, a cutter connecting plate 422, a supporting base plate 423, a supporting rotary table 43, a bearing hole 431, a left linear slide rail 44, a right linear slide rail 45, a linear driving mechanism 5, a linear driving platform 51, a screw nut 52, a driving screw 53, a linear driving motor 54, a coupler 55, a linear driving slide rail 56, a cutting cushion plate 6, a pressing plate 7, a pressing cylinder 71 and a pressing connecting plate 72.

Detailed Description

The present invention will be described in further detail with reference to the following description and embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 8, a deviation rectifying mechanism of a cutting tool comprises a base plate 4 and two rotating members 41, wherein the left end and the right end of the base plate 4 are respectively rotatably connected with one rotating member 41, the side walls of the rotating members 41 are embedded in bearing holes 431 formed in a supporting turntable 43, the bottom of the supporting turntable 43 is connected with the top of a linear driving mechanism 5, and the linear driving mechanism 5 drives the supporting turntable 43 to move back and forth;

the base plate 4 is connected to the cutter assembly 3, and the connection between the cutter assembly 3 and the base plate 4 is located between the two rotating members 41.

The rotating member 41 is a cylindrical cross roller bearing.

The linear driving mechanism 5 comprises a linear driving platform 51, a screw nut 52, a driving screw 53, a linear driving motor 54 and a coupler 55, wherein the output end of the linear driving motor 54 is connected with one end of the driving screw 53 through the coupler 55, the other end of the driving screw 53 is in threaded fit with the inside of the screw nut 52, the top of the screw nut 52 is connected with the bottom of the linear driving platform 51, and the top of the linear driving platform 51 is connected with the bottom of the supporting turntable 43.

The bottom of the linear drive platform 51 is slidably engaged along linear drive slide rails 56.

The bottoms of the two ends of the supporting turntable 43 are in sliding fit along the tops of the left linear slide rail 44 and the right linear slide rail 45, and the bottoms of the left linear slide rail 44 and the right linear slide rail 45 are connected with the top of the linear driving mechanism 5;

the supporting rotary table 43 is perpendicular to the driving direction of the linear driving mechanism 5 along the sliding direction of the left linear slide rail 44 and the right linear slide rail 45.

The cutter assembly 3 comprises an upper cutter 31 and a lower cutter 32 which are arranged oppositely up and down, a cutting opening 30 is formed between the upper cutter 31 and the lower cutter 32, and the film material to be cut passes through the cutting opening 30;

the place ahead of cutting notch 30 is provided with and cuts the bed plate 4 that the mouth 30 just right set up, the leading flank of this bed plate 4 is connected with the lateral part of cutter 32 down, be provided with cutter 31 directly over cutter 32 down, the leading flank of this last cutter 31 is connected with the lateral part of cutter tie-beam 33, the both ends of cutter tie-beam 33 respectively are connected with the drive end of a cutter cylinder 34, the stiff end of cutter cylinder 34 is connected with the top of supporting seat 42, the bottom of supporting seat 42 is connected with the top surface of bed plate 4, and the bottom of two supporting seats 42 all presss from both sides between the top of two rotation pieces 41.

The supporting seat 42 includes a supporting vertical plate 421 and a cutter connecting plate 422 and a supporting bottom plate 423 which are vertically connected with the top and bottom ends of the supporting vertical plate, the front end of the cutter connecting plate 422 is connected with the fixed end of the cutter cylinder 34, and the bottom of the supporting bottom plate 423 is connected with the position of the base plate 4 close to the rotating part 41.

The supporting vertical plate 421 is connected with the cylinder body of the downward air cylinder 71 through the downward pressing connecting plate 72, the output end of the downward air cylinder 71 is connected with the end part of the pressing plate 7, and the pressing plate 7 is arranged right above the base plate 4 in a suspending way.

The types of the upper cutter 31 and the lower cutter 32 are any one of the following types: a long strip cutting knife, a round rolling knife or a vertically mounted upright short cutting knife.

first, two linear driving mechanisms 5 drive two ends of the base plate 4 to perform synchronous linear reciprocating motion through corresponding rotating parts 41 respectively so as to drive the cutter assemblies 3 to perform linear reciprocating motion together;

secondly, the two linear driving mechanisms 5 respectively drive the two ends of the base plate 4 to perform asynchronous linear reciprocating motions through the corresponding rotating members 41, and at this time, the rotating members 41 rotate around the bearing holes 431 formed in the supporting turntable 43 to drive the cutter assemblies 3 to rotate together, thereby generating an offset angle.

The principle of the invention is illustrated as follows:

the various cylinders mentioned in the present invention have the main function of providing reciprocating telescopic motion, and thus, they may also be parts having similar functions, such as hydraulic cylinders.

Example 1:

referring to fig. 1 to 8, a deviation rectifying mechanism of a cutting tool comprises a base plate 4 and two rotating members 41, wherein the bottoms of the left and right ends of the base plate 4 are respectively rotatably connected with the top end of one rotating member 41, the side walls of the rotating members 41 are embedded in bearing holes 431 formed in a supporting turntable 43, the bottom of the supporting turntable 43 is connected with the top of a linear driving mechanism 5, and the linear driving mechanism 5 drives the supporting turntable 43 to move back and forth; the top of the base plate 4 is connected to the cutter assembly 3, and the connection between the cutter assembly 3 and the base plate 4 is located between the two rotating members 41. Preferably, the rotating member 41 is a cylindrical cross roller bearing.

And then, the feeding and circulation of the film materials in the next step can be completed under the actions of the feeding device at the front end and the pulling device at the rear end of the cutting mechanism.

In the present embodiment, the term "combination of two" means: during the concrete deviation correction, in a complete operation process, synchronous and asynchronous operations may exist and alternately run.

Example 2:

referring to fig. 1, 3 and 4, the basic content is the same as that of embodiment 1, a linear driving motor 54 drives a linear driving platform 51 to linearly displace back and forth through a coupling 55, a driving screw 53 and a screw nut 52 in sequence, the linear driving platform 51 is locked to a supporting turntable 43, a rotating member 41 (preferably a cylindrical cross roller bearing) is horizontally installed in a bearing hole 431 in the supporting turntable 43, an outer ring of the cylindrical cross roller bearing is locked to the supporting turntable 43, and an inner ring can rotate, so that one end of a base plate 4 connected with the cylindrical cross roller bearing has freedom degrees in two directions of X and R.

Example 3:

referring to fig. 1, 3 and 5, the basic content is the same as that of embodiment 2, except that a left linear slide rail 44 and a right linear slide rail 45 are disposed on the top surface of the linear driving platform 51, a supporting turntable 43 is disposed above the left linear slide rail 44 and the right linear slide rail 45, and the supporting turntable 43 slides along the left linear slide rail 44 and the right linear slide rail 45 in a direction perpendicular to the driving direction of the linear driving mechanism 5, so that one end of the base plate 4 connected thereto has three degrees of freedom in X, Y and R directions.

During the specific application, the free ends at two ends of the base plate 4 can be all X, Y, R three directions, also can be all X, R two directions, also can be X, R two directions for one end, and the other end is X, Y, R three direction.

The above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above embodiment, but equivalent modifications or changes made by those skilled in the art according to the present disclosure should be included in the scope of the present invention as set forth in the appended claims.

Claims

1. The utility model provides a cutting tool's mechanism of rectifying which characterized in that: the deviation rectifying mechanism comprises a base plate (4) and two rotating pieces (41), the left end and the right end of the base plate (4) are respectively rotatably connected with one rotating piece (41), the side walls of the rotating pieces (41) are embedded into bearing holes (431) formed in a supporting rotary table (43), the bottom of the supporting rotary table (43) is connected with the top of a linear driving mechanism (5), and the linear driving mechanism (5) drives the supporting rotary table (43) to move back and forth;

the base plate (4) is connected with the cutter assembly (3), and the joint of the cutter assembly (3) and the base plate (4) is positioned between the two rotating pieces (41).

2. The deviation rectifying mechanism of the cutting tool according to claim 1, characterized in that: the rotating member (41) is a cylindrical cross roller bearing.

3. The deviation rectifying mechanism of the cutting tool according to claim 1 or 2, characterized in that: the linear driving mechanism (5) comprises a linear driving platform (51), a screw nut (52), a driving screw rod (53), a linear driving motor (54) and a coupler (55), the output end of the linear driving motor (54) is connected with one end of the driving screw rod (53) through the coupler (55), the other end of the driving screw rod (53) is in threaded fit with the inside of the screw nut (52), the top of the screw nut (52) is connected with the bottom of the linear driving platform (51), and the top of the linear driving platform (51) is connected with the bottom of the supporting rotary table (43).

4. The deviation rectifying mechanism of the cutting tool according to claim 3, wherein: the bottom of the linear driving platform (51) is in sliding fit along a linear driving sliding rail (56).

5. The deviation rectifying mechanism of the cutting tool according to claim 1 or 2, characterized in that: the bottoms of the two ends of the supporting rotary table (43) are in sliding fit along the tops of the left linear slide rail (44) and the right linear slide rail (45), and the bottoms of the left linear slide rail (44) and the right linear slide rail (45) are connected with the top of the linear driving mechanism (5);

the supporting rotary table (43) is perpendicular to the driving direction of the linear driving mechanism (5) along the sliding direction of the left linear slide rail (44) and the right linear slide rail (45).

6. The deviation rectifying mechanism of the cutting tool according to claim 1 or 2, characterized in that: the cutter component (3) comprises an upper cutter (31) and a lower cutter (32) which are arranged oppositely up and down, a cutting opening (30) is formed between the upper cutter (31) and the lower cutter (32), and the cutting opening (30) penetrates through the film material to be cut;

the utility model discloses a cutting device, including base plate (4), the front of cutting incision (30) is provided with and just faces the bed plate (4) that sets up with cutting incision (30), the leading flank of this bed plate (4) is connected with the lateral part of cutter (32) down, be provided with cutter (31) directly over cutter (32) down, the leading flank of this last cutter (31) is connected with the lateral part of cutter tie-beam (33), the both ends of cutter tie-beam (33) respectively are connected with the drive end of a cutter cylinder (34), the stiff end of cutter cylinder (34) is connected with the top of supporting seat (42), the bottom of supporting seat (42) is connected with the top surface of bed plate (4), and the bottom of two supporting seats (42) all presss from both sides between the top of two rotation pieces (41).

7. The deviation rectifying mechanism of the cutting tool according to claim 6, wherein: the supporting seat (42) comprises a supporting vertical plate (421) and a cutter connecting plate (422) and a supporting bottom plate (423) which are vertically connected with the top end and the bottom end of the supporting vertical plate, the front end of the cutter connecting plate (422) is connected with the fixed end of a cutter cylinder (34), and the bottom of the supporting bottom plate (423) is connected with the part, close to the rotating piece (41), of the base plate (4).

8. The deviation rectifying mechanism of the cutting tool according to claim 7, wherein: the support riser (421) are connected with the cylinder body of pushing down cylinder (71) through pushing down connecting plate (72), and the output of pushing down cylinder (71) is connected with the tip of clamp plate (7), and clamp plate (7) unsettled setting directly over bed plate (4).

9. The deviation rectifying mechanism of the cutting tool according to claim 6, wherein: the types of the upper cutter (31) and the lower cutter (32) are any one of the following types: a long strip cutting knife, a round rolling knife or a vertically mounted upright short cutting knife.

10. The deviation rectifying method for the deviation rectifying mechanism of the cutting tool according to claim 1 or 2, characterized in that the deviation rectifying method is any one or a combination of two of the following methods:

firstly, two linear driving mechanisms (5) respectively drive two ends of a base plate (4) to perform synchronous linear reciprocating motion through corresponding rotating pieces (41) so as to drive a cutter assembly (3) to perform linear reciprocating motion;

secondly, two linear driving mechanisms (5) respectively drive two ends of the base plate (4) to perform asynchronous linear reciprocating motion through corresponding rotating pieces (41), and at the moment, the rotating pieces (41) rotate around bearing holes (431) formed in the supporting rotary table (43) to drive the cutter assemblies (3) to rotate together, so that an offset angle is generated.