CN111992792A - Method for controlling gap and overlapping amount of longitudinal cutting blade of variable-thickness plate - Google Patents

Abstract

The invention discloses a method for controlling the gap and the overlapping amount of longitudinal cutting blades of a variable-thickness plate, which comprises the following steps of: calculating a blade clearance set value L according to the thickness of the variable thickness plate from the 1 st section to the n th section₀And the blade coincidence value set value H₀：L₀＝(T₁+T₂+……+T_n)/n×10％×1.2；H₀＝T_minX 1/3; in the formula, T₁、T₂、……、T_nThe thickness of the variable thickness plate from the 1 st section to the n th section; n is the total number of paragraphs; t is_minIs T₁、T₂、……、T_nThe smallest thickness of (d); according to the blade clearance setting value L₀Assembling the longitudinal cutting blade by changing the width W of the thick plate; according to the blade coincidence value set value H₀The blade press down weight of the slitting blade is controlled. The control method of the gap and the overlapping amount of the longitudinal cutting blade of the variable thickness plate can ensure that the variable thickness plate is sheared orderly,the incidence of burrs is reduced, and the shearing quality of the variable thickness plate is improved.

Description

Method for controlling gap and overlapping amount of longitudinal cutting blade of variable-thickness plate

Technical Field

The invention relates to a variable thickness plate longitudinal cutting technology, in particular to a method for controlling the gap and the overlapping amount of longitudinal cutting blades of a variable thickness plate.

Background

The variable thickness plate is a metal plate or plate coil with the thickness changing regularly in the longitudinal direction during steel rolling, and is an effective means for solving the problem of light weight materials for automobiles; at present, the blank processing of the variable thickness plate part is generally realized by cutting or blanking a variable thickness plate coil; for the variable-thickness plate part blank with narrower width, in order to reduce the cost in the processing process, the variable-thickness plate coil is generally rolled by multiple scales, and then the variable-thickness plate with narrower width is obtained by longitudinal cutting and transverse cutting; after the variable thickness plate is longitudinally cut, the edges of a partial thin area or a thick area are not uniform or more burrs and other defects are generated, so that the quality of the variable thickness plate is seriously influenced; research shows that the shearing quality of the variable-thickness plate is closely related to the gap and the coincidence quantity of the longitudinal cutting blade; however, the conventional method for controlling the blade gap and the overlapping amount of the medium-thickness plate is not suitable for the longitudinal cutting of the variable-thickness plate.

In view of the above circumstances, it is urgently needed to develop a method for longitudinally cutting a variable thickness plate, which can ensure that the variable thickness plate is cut orderly, reduce the incidence of burrs of the variable thickness plate, and effectively improve the cutting quality of the variable thickness plate.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a method for controlling the gap and the coincidence amount of the longitudinal cutting blade of the variable-thickness plate, wherein the gap and the coincidence amount of the longitudinal cutting blade are controlled according to the thickness of each section and the minimum thickness of the variable-thickness plate, so that the variable-thickness plate is sheared orderly, the burr occurrence rate of the variable-thickness plate is reduced, the shearing quality of the variable-thickness plate is effectively improved, and the production cost of the variable-thickness plate is further reduced.

In order to achieve the purpose, the invention adopts the following technical scheme:

a method for controlling the gap and the overlapping amount of longitudinal cutting blades of a variable-thickness plate comprises the following steps:

s1, calculating the blade clearance set value L according to the thickness of the variable thickness plate from the 1 st section to the n th section₀And the blade coincidence value set value H₀：

L₀＝(T₁+T₂+……+T_n)/n×10％×1.2

H₀＝T_min×1/3

In the formula, T₁、T₂、……、T_nThe thickness of the variable thickness plate from the 1 st section to the n th section is in mm; n is the total number of paragraphs; t is_minIs T₁、T₂、……、T_nThe smallest thickness in mm;

s2, setting the value L according to the blade clearance₀And varying the width W of the plateAssembling the longitudinal cutting blade;

s3, setting the value H according to the blade overlapping amount₀The blade press down weight of the slitting blade is controlled.

Preferably, in the step S2, after the longitudinal cutting blade is assembled, the feeler gauge is used to measure the actual value L of the blade gap₁When L is present₀-0.005mm≤L₁≤L₀If +0.005mm, the procedure proceeds to step S3, otherwise, the blade needs to be reassembled.

Preferably, in step S3, the blade depression overlap amount is controlled by a positive overlap amount.

The invention has the beneficial effects that:

according to the method for controlling the gap and the coincidence amount of the longitudinal cutting blade of the variable-thickness plate, the gap and the coincidence amount of the longitudinal cutting blade are controlled according to the thickness of each section and the minimum thickness of the variable-thickness plate, so that the variable-thickness plate is tidy after longitudinal cutting, the incidence rate of burrs of the variable-thickness plate is reduced, the shearing quality of the variable-thickness plate is effectively improved, and the production cost of the variable-thickness plate is further reduced.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a control flow chart of the method for controlling the gap and the overlapping amount of the longitudinal cutting blade of the variable thickness plate according to the present invention;

FIG. 2 is a schematic view of the blade clearance and blade overlap in the present invention;

FIG. 3 is a control diagram of the amount of overlap of blade depression for a variable thickness plate according to the present invention;

FIG. 4 is a schematic view of a variable thickness plate according to embodiment 1 in the method for controlling the gap and the overlapping amount of the slitting blade of the variable thickness plate of the present invention.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way.

As shown in FIG. 1, the method for controlling the gap and the overlapping amount of the longitudinal cutting blade of the variable-thickness plate comprises the following steps:

s1, calculating the blade clearance set value L according to the thickness of the variable thickness plate from the 1 st section to the n th section₀And the blade coincidence value set value H₀：

L₀＝(T₁+T₂+……+T_n)/n×10％×1.2

H₀＝T_min×1/3

In the formula, T₁、T₂、……、T_nThe thickness of the variable thickness plate from the 1 st section to the n th section is in mm; n is the total number of paragraphs; t is_minIs T₁、T₂、……、T_nThe smallest thickness in mm;

s2, setting the value L according to the blade clearance₀Assembling the longitudinal cutting blade by the width W of the variable thickness plate;

after the longitudinal cutting blade is assembled, a clearance gauge is adopted to measure the actual clearance value L of the blade₁(see FIG. 2), when L is₀-0.005mm≤L₁≤L₀If +0.005mm, the process proceeds to step S3, and if not, the insert that does not meet the set value is reassembled.

S3, setting the value H according to the blade overlapping amount₀Controlling the blade pressing weight of the longitudinal cutting blade;

the blade pressing weight of the longitudinal cutting blade is controlled by positive weight H₁Set value H of blade overlap₀(see fig. 2, 3), i.e. the amount of vertical clearance between the cutting edges of the upper blade 1 and the lower blade 2.

After the blade gap and the blade weight are adjusted, the variable thick plate 3 can be cut, the cut narrow-width variable thick plate has good cutting quality, the cut surface and the fracture surface boundary are continuous and straight, and the whole cut surface is flat and smooth and has no notch or large burr.

Example 1

As shown in fig. 1-4, each segment is a variable thickness plate with a thickness of 1.2-1.6-1.2 and a width of 360mm (see fig. 4);

s1, according to the 1 st section of the variable thickness plateSection 3 thickness calculation blade gap setting L₀＝(1.2+1.6+1.2)/3×10％×1.2＝0.16mm；

Calculating a blade weight set value H according to the thickness of the section 1 falling to the section n of the variable thickness plate₀＝1.2×1/3＝0.4mm；

S2, setting the value L according to the blade clearance₀Assembling the longitudinal cutting blade by the width W of the variable thickness plate;

after the longitudinal cutting blade is assembled, a clearance gauge is adopted to measure the actual clearance value L of the blade₁＝0.16mm，L₁At L₀In the range of +/-0.005 mm;

s3, setting the value H according to the blade overlapping amount₀Positive overlap control of the blade depression overlap of the slitting blades, i.e. by depressing or raising the axis of the upper blade 1, so that positive overlap H₁Set value H of blade overlap₀；

After the blade gap and the blade weight are adjusted, the variable thick plate 3 can be cut, the cut narrow-width variable thick plate has good cutting quality, the cut surface and the fracture surface boundary are continuous and straight, and the whole cut surface is flat and smooth and has no notch or large burr.

Example 2

As shown in fig. 1-3, each segment is a variable thick plate with a thickness of 1.5-1.8-1.2 and a width of 360 mm;

s1, calculating the blade clearance set value L according to the thickness of the variable thickness plate from the 1 st section to the 3 rd section₀＝(1.5+1.8+1.2)/3×10％×1.2＝0.18mm；

Calculating a blade weight set value H according to the thickness of the section 1 falling to the section n of the variable thickness plate₀＝1.2×1/3＝0.4mm；

S2, setting the value L according to the blade clearance₀Assembling the longitudinal cutting blade by the width W of the variable thickness plate;

after the longitudinal cutting blade is assembled, a clearance gauge is adopted to measure the actual clearance value L of the blade₁＝0.181mm，L₁At L₀In the range of +/-0.005 mm;

s3, setting the value H according to the blade overlapping amount₀Blade hold-down weight to slitting bladePositive overlap control is performed by pressing or lifting the axis of the upper blade 1 so that the positive overlap H₁Set value H of blade overlap₀；

After the blade gap and the blade weight are adjusted, the variable thick plate 3 can be cut, the cut narrow-width variable thick plate has good cutting quality, the cut surface and the fracture surface boundary are continuous and straight, and the whole cut surface is flat and smooth and has no notch or large burr.

Example 3

As shown in fig. 1-3, each segment is a variable thick plate with a thickness of 1.5-1.9-1.6 and a width of 360 mm;

s1, calculating the blade clearance set value L according to the thickness of the variable thickness plate from the 1 st section to the 3 rd section₀＝(1.5+1.9+1.6)/3×10％×1.2＝0.20mm；

Calculating a blade weight set value H according to the thickness of the section 1 falling to the section n of the variable thickness plate₀＝1.5×1/3＝0.5mm；

S2, setting the value L according to the blade clearance₀Assembling the longitudinal cutting blade by the width W of the variable thickness plate;

after the longitudinal cutting blade is assembled, a clearance gauge is adopted to measure the actual clearance value L of the blade₁＝0.202mm，L₁At L₀In the range of +/-0.005 mm;

s3, setting the value H according to the blade overlapping amount₀Positive overlap control of the blade depression overlap of the slitting blades, i.e. by depressing or raising the axis of the upper blade 1, so that positive overlap H₁Set value H of blade overlap₀；

After the blade gap and the blade weight are adjusted, the variable thick plate 3 can be cut, the cut narrow-width variable thick plate has good cutting quality, the cut surface and the fracture surface boundary are continuous and straight, and the whole cut surface is flat and smooth and has no notch or large burr.

According to the comprehensive embodiment, the method for controlling the gap and the overlapping amount of the longitudinal cutting blade of the variable-thickness plate controls the gap and the overlapping amount of the longitudinal cutting blade according to the thickness of each section and the minimum thickness of the variable-thickness plate, so that the variable-thickness plate is sheared orderly, the incidence rate of burrs of the variable-thickness plate is reduced, the shearing quality of the variable-thickness plate is effectively improved, and the production cost of the variable-thickness plate is further reduced.

Although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (3)

1. A method for controlling the gap and the overlapping amount of longitudinal cutting blades of a variable-thickness plate is characterized by comprising the following steps of:

s1, calculating the blade clearance set value L according to the thickness of the variable thickness plate from the 1 st section to the n th section₀And the blade coincidence value set value H₀：

L₀＝(T₁+T₂+……+T_n)/n×10％×1.2

H₀＝T_min×1/3

In the formula, T₁、T₂、……、T_nThe thickness of the variable thickness plate from the 1 st section to the n th section is in mm; n is the total number of paragraphs; t is_minIs T₁、T₂、……、T_nThe smallest thickness in mm;

s2, setting the value L according to the blade clearance₀Assembling the longitudinal cutting blade by the width W of the variable thickness plate;

s3, setting the value H according to the blade overlapping amount₀The blade press down weight of the slitting blade is controlled.

2. The control method according to claim 1, wherein in step S2, after the longitudinal cutting blade is assembled, the feeler gauge is used to measure the actual value L of the blade gap₁When L is present₀-0.005mm≤L₁≤L₀If +0.005mm, the procedure proceeds to step S3, otherwise, the blade needs to be reassembled.

3. The control method according to claim 1, wherein in the step S3, the blade depression overlap amount is controlled by a positive overlap amount.

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