阅读说明：本技术 一种可自动调刀的裁切刀组及方法 (Cutting knife set and method capable of automatically adjusting knife ) 是由 丁彩红 彭倚天 杨延竹 黄瑶 丁树杨 赵建刚 于 2020-05-08 设计创作，主要内容包括：本发明涉及一种可自动调刀的裁切刀组,其特征在于,包括第一裁切刀和第二裁切刀,第一裁切刀和第二裁切刀的刀刃在同一平面上相对布置,且刀刃所在的直线成一夹角,其中第一裁切刀设置有可实现自动调刀的结构,可实现两个裁切刀刀刃在对物料裁切过程中咬合情况的自动调整,本发明所涉及的技术可适用于各种幅宽的纸张、布料等柔性物料的裁切,尤其解决了大幅宽柔性物料的裁切难题。(The invention relates to a cutting knife group capable of automatically adjusting knives, which is characterized by comprising a first cutting knife and a second cutting knife, wherein the cutting edges of the first cutting knife and the second cutting knife are oppositely arranged on the same plane, and the straight line of the cutting edges forms an included angle, wherein the first cutting knife is provided with a structure capable of automatically adjusting knives, so that the automatic adjustment of the occlusion condition of the two cutting knife edges in the material cutting process can be realized.)

1. A cutting knife group capable of automatically adjusting knives is characterized by comprising a first cutting knife and a second cutting knife, wherein the cutting edges of the first cutting knife and the second cutting knife are oppositely arranged on the same plane, an included angle is formed between a straight line where the cutting edge of the first cutting knife and a straight line where the cutting edge of the second cutting knife are located, one of the first cutting knife and the second cutting knife is fixed, and the other one of the first cutting knife and the second cutting knife is in reciprocating translation, so that the cutting edge of the first cutting knife and the cutting edge of the second cutting knife are subjected to non-contact, staggered occlusion and completely staggered reciprocating circulation to cut materials;

the first cutting knife comprises a first knife beam, a first knife, a fixing screw, an elastic element, a pre-tightening screw and a locking nut, wherein N stepped through holes and M threaded through holes are respectively formed in the first knife beam along two parallel straight lines in the length direction, one end of each stepped through hole is a unthreaded hole, the other end of each stepped through hole is a threaded hole, the elastic element is placed in each unthreaded hole, the pre-tightening screw with the locking nut is screwed in each threaded hole, the M fixing screws are screwed in the M threaded through holes of the first knife beam after respectively penetrating through holes formed in the first knife, the first knife is fixed on the first knife beam, and the elastic element is arranged between the first knife beam and the first knife;

the second cutting knife comprises a second knife beam and a second knife, and the second knife is fixed on the second knife beam in parallel in a threaded connection mode.

2. The cutting blade set of an automatically adjustable knife according to claim 1, wherein N said elastic members are disposed between the cutting edge of said first knife and M said set screws, and a vertical distance between a vertical axis of the elastic member and a vertical axis of the set screw is more than a certain value.

3. The cutting blade set of claim 1, wherein each of said elastic members has one end abutting against the surface plane of said first blade and the other end abutting against the end of said preloaded screw, the free length of each of said elastic members being less than the depth of said aperture, said elastic members being elastically deformable by an external axial force.

4. A method of initially pre-tensioning the automatically adjustable blades of the automatically adjustable cutting blade set of claim 1, comprising the steps of:

step 1: taking a material to be cut to penetrate between the cutting edge of the first cutting knife and the cutting edge of the second cutting knife;

step 2: stopping conveying after intermittently conveying materials with a certain length;

and step 3: driving the second cutting knife or the first cutting knife to translate along the width direction by external power, so that the cutting edge of the second cutting knife and the cutting edge of the first cutting knife move oppositely, and the cutting edge of the second cutting knife and the cutting edge of the first cutting knife are staggered with each other until the materials are cut off by meshing point by point, and then entering step 4;

and 4, step 4: driving the second cutting knife or the first cutting knife to move horizontally along the width direction by external power, so that the cutting edge of the second cutting knife and the cutting edge of the first cutting knife move back to back until the cutting edge of the second cutting knife and the cutting edge of the first cutting knife are far away from each other, and entering step 5;

and 5: stopping the translation of the second cutting knife or the first cutting knife, observing the cut surface condition of the cut material, and selectively screwing a plurality of or all N pre-tightening screws into or out of a proper distance according to the cut surface condition to enable the elastic element to be in a proper pressed state;

step 6: and (5) repeating the step (2) to the step (5) until the cut surface of the material meets the cutting requirement, and then screwing the N locking nuts.

Technical Field

The invention relates to a cutting tool capable of automatically adjusting a tool and a method, belonging to the field of medium cutting, in particular to the field of flexible material cutting.

Background

In the field of slitting materials such as paper, cloth and the like, two cutting tools are usually adopted to cut continuous materials into small sections or small pieces in a staggered occlusion manner along the width direction of the materials. When the breadth increase of material, the length that cuts the cutter also increases thereupon, and two cutters produce the clearance easily or compress not tightly in interlock department, and lead to unable decide the material, perhaps appear the section untidy, glue the silk and to cut constantly scheduling problem. In addition, the two cutters are not well meshed due to abrasion after the cutters continuously work.

Therefore, in the cutting field, the cutting tools are required to be adjusted to ensure that the materials are effectively cut. The currently and generally adopted knife adjustment mode is as follows: the screws fixed with the cutter and the screws which are contacted with the cutter but not fixed are arranged on the cutter beam for mounting the cutter at regular intervals along the width direction of the material (namely the length direction of the cutter), and the cutter is deformed in the length direction in a one-pull-one-top mode, so that the occlusion point can effectively cut the material. Taking a slitting machine with a width of 1m as an example, the time for adjusting the cutter once is generally 2-4 hours. When the material specification variety is changed, when the cutter is worn, the cutter adjustment is needed, so the production efficiency of a workshop is greatly reduced by the cutter adjustment mode. More importantly, when the material exceeds a certain width, the knife adjusting mode cannot realize effective knife adjustment, so that the existing slitting machine for the flexible material is generally a narrow-width type machine.

Disclosure of Invention

The purpose of the invention is: realize the automatic knife adjustment of the cutting knife.

In order to achieve the above object, the technical solution of the present invention is to provide a cutting knife set with automatically adjustable knives, which is characterized in that the cutting knife set comprises a first cutting knife and a second cutting knife, the knife edges of the first cutting knife and the second cutting knife are arranged oppositely on the same plane, and a straight line where the knife edge of the first cutting knife is located and a straight line where the knife edge of the second cutting knife is located form an included angle;

the first cutting knife comprises a first knife beam, a first knife, a fixing screw, an elastic element, a pre-tightening screw and a locking nut, wherein N stepped through holes and M threaded through holes are respectively formed in the first knife beam along two parallel straight lines in the length direction, one end of each stepped through hole is a unthreaded hole, the other end of each stepped through hole is a threaded hole, the elastic element is placed in each unthreaded hole, the pre-tightening screw with the locking nut is screwed in each threaded hole, the M fixing screws are screwed in the M threaded through holes of the first knife beam after respectively penetrating through holes formed in the first knife, the first knife is fixed on the first knife beam, and the elastic element is arranged between the first knife beam and the first knife;

the second cutting knife comprises a second knife beam and a second knife, and the second knife is fixed on the second knife beam in parallel in a threaded connection mode.

Preferably, the N elastic elements are disposed between the blade of the first cutter and the M fixing screws, and a vertical distance between a vertical axis of the elastic element and a vertical axis of the fixing screw is greater than a certain value.

Preferably, one end of each elastic element abuts against the surface plane of the first cutter, the other end of each elastic element abuts against the end part of the pre-tightening screw, the free length of each elastic element is smaller than the depth of the unthreaded hole, and the elastic elements can elastically deform under the action of axial external force.

Another technical scheme of the invention is to provide an initial pre-tightening method for the automatic knife adjustment of the cutting knife group with the automatic knife adjustment, which is characterized by comprising the following steps:

step 1: taking a material to be cut to penetrate between the cutting edge of the first cutting knife and the cutting edge of the second cutting knife;

step 2: stopping conveying after intermittently conveying materials with a certain length;

and step 3: driving the second cutting knife or the first cutting knife to translate along the width direction by external power, so that the cutting edge of the second cutting knife and the cutting edge of the first cutting knife move oppositely, and the cutting edge of the second cutting knife and the cutting edge of the first cutting knife are staggered with each other until the materials are cut off by meshing point by point, and then entering step 4;

and 4, step 4: driving the second cutting knife or the first cutting knife to move horizontally along the width direction by external power, so that the cutting edge of the second cutting knife and the cutting edge of the first cutting knife move back to back until the cutting edge of the second cutting knife and the cutting edge of the first cutting knife are far away from each other, and entering step 5;

and 5: stopping the translation of the second cutting knife or the first cutting knife, observing the cut surface condition of the cut material, and selectively screwing a plurality of or all N pre-tightening screws into or out of a proper distance according to the cut surface condition to enable the elastic element to be in a proper pressed state;

step 6: and (5) repeating the step (2) to the step (5) until the cut surface of the material meets the cutting requirement, and then screwing the N locking nuts.

Due to the adoption of the technical scheme, compared with the prior art, the invention has the following advantages and positive effects: the automatic cutter adjusting device solves the defects that the cutter adjusting method commonly used at present wastes time and labor, realizes automatic cutter adjustment in the cutting process, and can effectively cut materials without manually adjusting pre-tightening screws when the thickness of the materials is not seriously changed. The cutting tool with the automatic tool adjusting function is suitable for cutting flexible materials such as paper and cloth with various widths, and particularly solves the cutting problem of the large-width flexible materials. The labor intensity of workers is greatly reduced, and the intelligence and the production efficiency of the cutting equipment are improved.

Drawings

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

fig. 2 is a schematic structural view of a first cutting knife according to the present invention;

FIG. 3 is a schematic cross-sectional view of a first blade according to the present disclosure;

fig. 4 is a schematic structural view of a second cutting blade according to the present invention;

fig. 5 is a schematic structural layout diagram of an embodiment of blade adjusting pretension according to the present invention.

Detailed Description

The invention will be further illustrated with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

The cutting knife group related to the invention can be arranged in any plane form, and the first cutting knife and the second cutting knife related to the invention can be provided with one of the first cutting knife and the second cutting knife as a fixed part and the other one as a reciprocating part.

The embodiment adopts the horizontal arrangement form, and the first sword that cuts is the mounting is set for simultaneously, and the second cuts the sword and is the motion piece.

As shown in fig. 1, the cutting blade set with automatically adjustable blades provided by the present invention comprises a first cutting blade 1 and a second cutting blade 2, wherein the first cutting blade 1 and the second cutting blade 2 are horizontally disposed opposite to each other, and the first cutting blade 1 is located above the second cutting blade 2. The cutting edge 1201 of the first cutting knife 1 and the cutting edge 2201 of the second cutting knife 2 are located on the same horizontal plane, and the straight line of the two cutting edges forms an included angle alpha on the horizontal plane. The second cutting knife 2 is driven by external force to make reciprocating translation along the direction shown by an arrow in fig. 1, so that the cutting edge 2201 advances, gradually contacts the cutting edge 1201 and starts to be engaged in a staggered manner until the cutting edge 2201 completely enters the lower part of the first cutting knife 1, then the cutting edge 2201 retracts, gradually disengages from the cutting edge 1201 until the cutting edge is separated from the cutting edge 1201 for a certain distance, then advances again, and the movement is repeated.

As shown in fig. 2 and 3, the first cutting blade 1 includes a first blade beam 11, a first blade 12, a fixing screw 13, an elastic member 14, a pretensioned screw 15, and a lock nut 16. Two parallel straight lines with a distance L in the length direction on the first knife beam 11 are respectively provided with 10 stepped through holes and 7 threaded through holes 1101. One end of the stepped through hole is a light hole 1102, and the other end is a threaded hole 1103. An elastic element 14 is placed in the light hole 1102, and a pretension screw 15 with a lock nut 16 is screwed into the threaded hole 1103. The 7 fixing screws 13 are screwed into the 7 threaded through holes 1101 of the first blade beam 11 through the through holes formed in the first blade 12, so that the first blade 12 is fixed on the first blade beam 11, and the elastic element 14 is disposed between the first blade beam 11 and the first blade 12.

As shown in fig. 2, the elastic member 14 is located near the blade 1201 of the first cutter 12 between the blade 1201 and the set screw 13 as viewed in the width direction of the first cutter beam 11. The lower end of the elastic element 14 is abutted against the upper plane of the first cutter 12, the upper end is abutted against the lower end of the pre-tightening screw 15, and the free length of the elastic element 14 is smaller than the depth of the unthreaded hole 1102.

As shown in fig. 3, the vertical distance L between the threaded through hole 1101 and the stepped through hole on the first blade beam 11 is greater than a certain value, and the vertical distance L between the vertical axis of the elastic member 14 and the vertical axis of the fixing screw 13 is equal to L.

As shown in fig. 4, the second cutting blade 2 includes a second blade beam 21 and a second cutter 22, and the second cutter 22 is fixed in parallel to the second blade beam 21 by a countersunk screw 23.

As shown in fig. 5, the method of initial pretensioning of the automatic blade adjustment of the cutting blade set according to the present invention is as follows:

step 1: taking a material 3 to be cut to penetrate between the cutting edge 1201 of the first cutting knife 12 and the cutting edge 2201 of the second cutting knife 22;

step 2: conveying a certain length of material 3 as indicated by arrow 4 and then stopping the conveying;

and step 3: the second cutting knife 22 is driven by external power to make reciprocating translation according to an arrow 5, so that the knife edge 2201 moves forward in the direction of the knife edge 1201, the two knife edges are meshed in a staggered manner, and the material 3 is cut off by meshing point by point from a left side point A to a right side point B;

and 4, step 4: after the second cutting knife 22 retreats to be far away from the first cutting knife 12, stopping driving the second cutting knife 22, observing the condition of the cut surface of the cut material 3, and selectively screwing a plurality of or all 10 pre-tightening screws into or out of a proper distance according to the condition of the cut surface, so that the elastic element 14 is in a proper pressed state;

and 5: and (5) repeating the steps 2 to 4 until the cut surface meets the cutting requirement, and then screwing 10 locking nuts.