CN212578680U - Film material cutting mechanism - Google Patents

Abstract

The utility model provides a film material cuts mechanism, including visual positioning subassembly and cutting assembly, cutting assembly includes cutter, lower cutter and the cutting opening that presss from both sides between the two, it remains the film material of cutting to wear to pass through in the cutting opening, the other visual positioning subassembly that is provided with of cutting assembly, the left and right both ends of bed plate that sets up in cutting opening the place ahead respectively rotate with the top of a rotation piece and be connected, the leading flank of bed plate is connected with the lateral part of cutter down, be provided with the cutter directly over the lower cutter, the leading flank of going up the cutter 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. The design not only has higher efficiency of correcting alignment and higher precision, but also has stronger adjustability and wider application range.

Description

Film material cutting mechanism

Technical Field

The utility model relates to a film material processing equipment belongs to electron material processing technology field, especially relates to a film material cuts mechanism, and the breadth that specifically is applicable to after processing the film material cuts.

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 film material cutting mechanism capable of realizing fast and correcting 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 utility model aims at overcoming the lower defect of efficiency and the problem of the correction counterpoint that exists among the prior art, providing a film material that the efficiency of correcting the counterpoint is higher cuts the mechanism.

In order to achieve the above purpose, the technical solution of the utility model is that: a film material cutting mechanism comprises a visual positioning assembly and a cutting assembly, wherein the cutting assembly comprises an upper cutter, a lower cutter and a cutting opening clamped between the upper cutter and the lower cutter, a film material to be cut passes through the cutting opening, and the visual positioning assembly is arranged beside the cutting assembly;

film material cuts mechanism still includes the bed plate that is located and cuts out incision the place ahead, and the left and right both ends of this bed plate respectively rotate with one and are connected, and the leading flank of bed plate is connected with the lateral part of cutter down, is provided with the cutter directly over the cutter down, should go up the cutter and be connected with the drive end of cutter cylinder, and the stiff end of cutter cylinder is connected with the top surface of bed plate.

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

go up the leading flank of cutter and be 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, and the stiff end of cutter cylinder is connected with the top of supporting seat, and 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 rotating piece is a cylindrical crossed roller bearing, the top end of the cylindrical crossed roller bearing is connected with the left end and the right end of the base plate, the side wall of the cylindrical crossed roller bearing is embedded into a bearing hole formed in the supporting rotary table, and the bottom of the supporting rotary table is connected with the top of the linear driving mechanism.

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 end 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.

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 top surface that presss from both sides the region between two supporting seats on the bed plate is connected with the bottom surface that cuts the backing plate, cuts the unsettled clamp plate that is provided with and parallels with the bed plate in top of backing plate, and this clamp plate is located cuts notched rear.

The both ends of clamp plate are connected with the output of air cylinder down, and the cylinder body of air cylinder is connected with the support riser in the supporting seat through the connecting plate that pushes down, and the upper and lower both ends of supporting the riser are connected with cutter connecting plate, supporting baseplate respectively, and the cutter connecting plate is connected with the stiff end of cutter cylinder, and the supporting baseplate is connected with the position of nearly rotating the piece on the bed plate.

The front end of the cutter connecting plate is connected with the fixed end of the cutter cylinder, the rear end of the cutter connecting plate is connected with the end part of the vision supporting beam, and the middle part of the vision supporting beam is connected with at least one CCD positioning assembly.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model relates to a film material cuts mechanism, the place ahead that cuts the mouth is provided with the bed plate, this bed plate left side, the operation can carry out linear motion or rotation separately at right both ends, so that go up the cutter, lower cutter one carries out linear motion or rotates the operation, thereby on the basis that does not change film material position, cut the incision through the adjustment and correct the counterpoint, not only can ensure the precision that cuts, and can avoid adjusting the film bending deformation that causes or need adjust the defect of waste time many times among the prior art to film material position, the efficiency of cutting has been improved greatly. Therefore, the utility model discloses an efficiency of correcting the counterpoint is higher.

2. The utility model relates to an among the film material cutting mechanism, cut out notched position adjustment and rely on driving the bed plate both ends, and the drive mode at bed plate both ends includes linear motion and rotational motion two kinds, and independent each other separately, mutual noninterference, thereby the position control scope of bed plate has been improved, and then the position control scope of cutting the mouth has been improved, even make in the film feeds and cause the deviation too big, the cutter position also can be increased substantially, the adjustment of wide range, in order to match the position precision to the requirement, the suitability is strong. Therefore, the utility model discloses an adjustability is stronger, and the range of application is wider.

3. The utility model relates to a film material cuts mechanism in, the left side of bed plate, the right side both ends respectively rotate with the top that rotates the piece and are connected, it is the cylinder roller bearing that alternately rotates to rotate the piece preferably, cylinder roller bearing that alternately rotates around the dead eye of seting up in supporting the revolving stage, the bottom of supporting the revolving stage is connected with linear drive mechanism's top, do benefit to X, R to the degree of freedom that realizes the bed plate and cut the mouth, the back-and-forth movement promptly, the angle deflects, good stability, correct the precision is higher, on this basis, the bottom of supporting the revolving stage can also be through a left side, right side linear slide rail is connected with linear drive mechanism's top, further richen the motion degree of freedom of bed plate, make it possess Y to the degree of freedom, thereby promote and cut out notched adjustment. Therefore, the utility model discloses an adjustment range is wider, and the precision is higher.

4. The utility model relates to a film material cuts mechanism, the top surface that presss from both sides the region between two supporting seats on the bed plate is connected with the bottom surface that cuts the backing plate, cuts the unsettled clamp plate that is provided with and parallels with the bed plate in top of backing plate, and this clamp plate is located cuts notched rear, and during the application, the clamp plate with inseparable the compressing tightly of film material on cutting the backing plate before cutting, has guaranteed to cut the tensioning of in-process film and fully fixed, has further guaranteed the precision that cuts. Therefore, the utility model discloses possess and cut the function that compresses tightly, the cutting accuracy is higher.

5. The utility model relates to an among the film material cutting mechanism, the connection structure of bed plate, supporting seat can be connected cutter unit spare, vision positioning component, push down the subassembly and be a whole, not only does benefit to mutual cooperation, is convenient for carry out the position adjustment simultaneously moreover, including the rotation of linear motion and angular deflection, in addition, compact structure has saved equipment space. Therefore, the utility model discloses not only the function is more, and it is less to occupy the space moreover.

Drawings

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

Fig. 2 is a schematic structural view of fig. 1 with the visual alignment assembly removed.

Fig. 3 is a schematic view of the structure of fig. 2 after the cutting mat is removed.

Fig. 4 is a schematic view of the structure of the press plate of fig. 2.

Fig. 5 is a schematic view of the direction of movement of the bottom plate of the present invention.

Fig. 6 is a schematic view of the connection between the support turntable and the linear driving mechanism of the present invention.

Fig. 7 is a schematic view of the cooperation between the middle support turntable and the left and right linear slide rails.

Fig. 8 is a schematic structural diagram of the middle linear driving mechanism of the present invention.

In the figure: the vision positioning device comprises a vision positioning component 2, a vision supporting beam 21, a CCD positioning component 22, a cutting 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 cutting base 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 film material cutting mechanism comprises a visual positioning component 2 and a cutting component 3, wherein the cutting component 3 comprises an upper cutter 31, a lower cutter 32 and a cutting opening 30 sandwiched between the upper cutter and the lower cutter, the cutting opening 30 penetrates through a film material to be cut, and the visual positioning component 2 is arranged beside the cutting component 3;

the film material cutting mechanism further comprises a base plate 4 located in front of the cutting opening 30, the left end and the right end of the base plate 4 are respectively connected with a rotating piece 41 in a rotating mode, the front side face of the base plate 4 is connected with the side portion of a lower cutter 32, an upper cutter 31 is arranged right above the lower cutter 32, the upper cutter 31 is connected with the driving end of a cutter cylinder 34, and the fixed end of the cutter cylinder 34 is connected with the top face of the base plate 4.

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

go up the leading flank of cutter 31 and be 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, and the stiff end of cutter cylinder 34 is connected with the top of supporting seat 42, and 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 rotating member 41 is a cylindrical cross roller bearing, the top end of the cylindrical cross roller bearing is connected with the left end and the right end of the base plate 4, the side wall of the cylindrical cross roller bearing is embedded into a bearing hole 431 formed in the supporting turntable 43, and the bottom of the supporting turntable 43 is connected with the top of the linear driving mechanism 5.

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 end 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 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 top surface of the area clamped between the two supporting seats 42 on the base plate 4 is connected with the bottom surface of the cutting backing plate 6, a pressing plate 7 parallel to the base plate 4 is arranged above the cutting backing plate 6 in a hanging mode, and the pressing plate 7 is located behind the cutting notch 30.

The both ends of clamp plate 7 are connected with the output of push down cylinder 71, and the cylinder body of push down cylinder 71 is connected with the support riser 421 in the supporting seat 42 through push down connecting plate 72, and the upper and lower both ends of support riser 421 are connected with cutter connecting plate 422, supporting baseplate 423 respectively, and cutter connecting plate 422 is connected with the stiff end of cutter cylinder 34, and supporting baseplate 423 is connected with the position of nearly rotating piece 41 on bed plate 4.

The front end of the cutter connecting plate 422 is connected with the fixed end of the cutter cylinder 34, the rear end of the cutter connecting plate 422 is connected with the end part of the vision supporting beam 21, and the middle part of the vision supporting beam 21 is connected with at least one CCD positioning component 22.

A cutting method of the film material cutting mechanism comprises the following steps:

s1, a positioning step, namely, a visual positioning component 2 captures and photographs the mark points on the tensioned film material, the captured and photographed data is compared with a preset position, the deviation between the current position and the standard position of the film material is obtained through a visual algorithm, the position of the base plate 4 is adjusted according to the deviation so as to adjust the position of the cutting notch 30, and after the adjustment is finished, the operations of capturing, photographing, comparing, calculating the deviation and adjusting the position of the cutting notch 30 are sequentially carried out, and the operation is sequentially circulated until the deviation is qualified; the marking points are marking points which are arranged on the film material in advance;

and S2, a cutting step, namely, moving the upper cutter 31 downwards until the upper cutter 31 is meshed with the cutting edge of the lower cutter 32, so that the cutting action of the film material is finished by utilizing the cutting.

The adjustment of the position of the cutting notch 30 includes any one of the following adjustment modes:

firstly, two ends of a base plate 4 are driven to perform synchronous linear reciprocating motion so as to drive an upper cutter 31, a lower cutter 32 and a supporting seat 42 to perform linear reciprocating motion together, thereby realizing the linear motion of a cutting opening 30;

second, the two ends of the base plate 4 are driven to perform asynchronous linear reciprocating motions, so that the two ends of the base plate 4 rotate around the rotating members 41 connected to each other, thereby driving the upper cutter 31, the lower cutter 32, and the support base 42 to perform a rotating operation together, thereby realizing a rotating operation of the cutting opening 30.

The principle of the utility model is explained as follows:

the utility model discloses in mention various cylinders, its main function is the telescopic motion that provides reciprocating, therefore, its also can be for the spare part that possesses similar function, like the pneumatic cylinder.

The utility model provides a vision locating component 2 is preferred to be along two CCD locating component 22 that a vision supporting beam 21 went up the interval and set up, and two CCD locating component 22 all are located the top that cuts backing plate 6 for shoot the marker on the film material on cutting backing plate 6, backstage control terminal is connected respectively to two CCD locating component 22.

Example 1:

referring to fig. 1 to 8, a film material cutting mechanism comprises a visual positioning component 2 and a cutting component 3, wherein the cutting component 3 comprises an upper cutter 31, a lower cutter 32 and a cutting opening 30 sandwiched between the upper cutter and the lower cutter, the cutting opening 30 penetrates through a film material to be cut, and the visual positioning component 2 is arranged beside the cutting component 3; film material cuts mechanism still includes the bed plate 4 that is located cuts out 30 the place ahead of incision, this bed plate 4 a left side, the right side both ends respectively rotate with a top that rotates 41 and is connected, the leading flank of bed plate 4 is connected with the lateral part of cutter 32 down, be provided with cutter 31 directly over cutter 32 down, this leading flank of going up 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.

A cutting method of the film material cutting mechanism comprises the following steps:

s1, a positioning step, namely, a visual positioning component 2 captures and photographs the mark points on the tensioned film material, the captured and photographed data is compared with a preset position, the deviation between the current position and the standard position of the film material is obtained through a visual algorithm, the position of the base plate 4 is adjusted according to the deviation so as to adjust the position of the cutting notch 30, and after the adjustment is finished, the operations of capturing, photographing, comparing, calculating the deviation and adjusting the position of the cutting notch 30 are sequentially carried out, and the operation is sequentially circulated until the deviation is qualified; the marking points are marking points which are arranged on the film material in advance;

and S2, a cutting step, namely, moving the upper cutter 31 downwards until the upper cutter 31 is meshed with the cutting edge of the lower cutter 32, so that the cutting action of the film material is finished by utilizing the cutting.

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.

Example 2:

referring to fig. 5, 6 and 8, 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, meanwhile, 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 with 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 two degrees of freedom in X and R directions.

Example 3:

referring to fig. 5, 7 and 8, 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 protection scope of the present invention is not limited to the above embodiment, but all equivalent modifications or changes made by those skilled in the art according to the present invention should be included in the protection scope of the claims.

Claims (8)

1. The utility model provides a film material cuts mechanism, includes visual positioning subassembly (2) and cutting subassembly (3), cutting subassembly (3) include cutter (31), lower cutter (32) and cut out incision (30) that press from both sides between the two, should cut out the film material that wears through and remain the cutting in incision (30), and is provided with visual positioning subassembly (2), its characterized in that by cutting subassembly (3):

film material cuts mechanism still includes bed plate (4) that are located and cut out incision (30) the place ahead, the left and right both ends of this bed plate (4) respectively rotate with one and are connected, the leading flank of bed plate (4) is connected with the lateral part of cutter (32) down, be provided with cutter (31) directly over cutter (32) down, should go up cutter (31) and be connected with the drive end of cutter cylinder (34), the stiff end of cutter cylinder (34) is connected with the top surface of bed plate (4).

2. The film material cutting mechanism according to claim 1, wherein: the types of the upper cutter (31) and the lower cutter (32) are any one of the following types: a long strip-shaped cutting knife, a round rolling cutter or a vertically-installed upright short cutting knife;

go up the leading flank of cutter (31) and be 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), and the stiff end of cutter cylinder (34) is connected with the top of supporting seat (42), and 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).

3. A film material cutting mechanism according to claim 1 or 2, wherein: the rotating part (41) is a cylindrical crossed roller bearing, the top end of the cylindrical crossed roller bearing is connected with the left end and the right end of the base plate (4), the side wall of the cylindrical crossed roller bearing is embedded into a bearing hole (431) formed in the supporting rotary table (43), and the bottom of the supporting rotary table (43) is connected with the top of the linear driving mechanism (5).

4. The film material cutting mechanism according to claim 3, wherein: the linear driving mechanism (5) comprises a linear driving platform (51), a screw rod 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 rod nut (52), the top end of the screw rod 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).

5. The film material cutting mechanism according to claim 3, wherein: 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. A film material cutting mechanism according to claim 1 or 2, wherein: the top surface of the area clamped between the two supporting seats (42) on the base plate (4) is connected with the bottom surface of the cutting base plate (6), a pressing plate (7) parallel to the base plate (4) is arranged above the cutting base plate (6) in a hanging mode, and the pressing plate (7) is located behind the cutting notch (30).

7. The film material cutting mechanism according to claim 6, wherein: the both ends of clamp plate (7) are connected with the output of pushing down cylinder (71), and the cylinder body of pushing down cylinder (71) is connected through pushing down support riser (421) in connecting plate (72) and supporting seat (42), and the upper and lower both ends of supporting riser (421) are connected with cutter connecting plate (422), supporting baseplate (423) respectively, and cutter connecting plate (422) are connected with the stiff end of cutter cylinder (34), and supporting baseplate (423) are connected with the position of nearly rotating piece (41) on bed plate (4).

8. The film material cutting mechanism according to claim 7, wherein: the front end of cutter connecting plate (422) is connected with the stiff end of cutter cylinder (34), and the rear end of cutter connecting plate (422) is connected with the tip of vision supporting beam (21), and the middle part of vision supporting beam (21) is connected with at least one CCD locating component (22).

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