CN109405792A - A kind of detection device for roughness of surface and its operating method - Google Patents
A kind of detection device for roughness of surface and its operating method Download PDFInfo
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- CN109405792A CN109405792A CN201811504536.1A CN201811504536A CN109405792A CN 109405792 A CN109405792 A CN 109405792A CN 201811504536 A CN201811504536 A CN 201811504536A CN 109405792 A CN109405792 A CN 109405792A
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- 238000001514 detection method Methods 0.000 title claims abstract description 44
- 238000011017 operating method Methods 0.000 title claims abstract description 13
- 238000005259 measurement Methods 0.000 claims abstract description 100
- 238000004441 surface measurement Methods 0.000 claims abstract description 29
- 230000006698 induction Effects 0.000 claims description 6
- 239000007787 solid Substances 0.000 claims 1
- 229910000831 Steel Inorganic materials 0.000 abstract description 6
- 239000010959 steel Substances 0.000 abstract description 6
- 238000011982 device technology Methods 0.000 abstract description 2
- 238000000034 method Methods 0.000 description 8
- 238000010586 diagram Methods 0.000 description 6
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012876 topography Methods 0.000 description 2
- 230000003139 buffering effect Effects 0.000 description 1
- 230000007423 decrease Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000000691 measurement method Methods 0.000 description 1
- 239000002994 raw material Substances 0.000 description 1
- 230000003746 surface roughness Effects 0.000 description 1
- 238000012360 testing method Methods 0.000 description 1
Classifications
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01B—MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
- G01B21/00—Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant
- G01B21/30—Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant for measuring roughness or irregularity of surfaces
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Abstract
The present invention provides a kind of detection device for roughness of surface and its operating method, belongs to detection device technology field.The device includes V-arrangement pallet and surface profile measurement device, V-arrangement pallet is for placing coil of strip to be detected, surface profile measurement device includes movable stand, Z-direction sliding rail, surface measurement component, mainframe box, motor performance panel and measurement operation panel, there are several universal wheels on the bottom surface of movable stand, the bottom surface of movable stand is equipped with a pair of of the locating piece being oppositely arranged, a pair of of locating piece realizes the centering of surface profile measurement device, an X-direction sliding rail is additionally provided on movable stand, X-direction sliding rail is equipped with a sliding block, Z-direction sliding rail is slidably matched with sliding block, the lower end of Z-direction sliding rail is arranged in surface measurement component, mainframe box, motor performance panel and measurement operation panel are arranged on movable stand.The present invention is suitable for roll, coil of strip, steel strip surface Shape measure and easy to use.
Description
Technical field
The present invention relates to detection device technology field, a kind of detection device for roughness of surface and its operation side are particularly related to
Method.
Background technique
Surface roughness is an important parameter index for judging raw material or components performance, common hand-held
Surface quality intelligent detection device can typically be only used to the Shape measure of belt steel surface, but production scene would generally be to having produced
At coil of strip or the surface quality of roll detected, if the volume of coil of strip or roll is big, positioned at the top of coil of strip or roll
Position at directly cannot easily be measured, can to scene detection work cause certain difficulty, therefore, it is necessary to
It improves in view of the above defects of the prior art, develops a kind of roll that can be used for production scene, coil of strip, steel band
Surface profile measurement system realizes that surface topography functional parameter fast, easily detects.
Summary of the invention
The technical problem to be solved in the present invention is to provide a kind of detection device for roughness of surface and its operating methods.
The device includes V-arrangement pallet and surface profile measurement device, wherein V-arrangement pallet is for placing coil of strip to be detected, table
Face Shape measure device includes movable stand, Z-direction sliding rail, surface measurement component, mainframe box, motor performance panel, measurement operation
Panel and travel switch,
V pallet includes bottom plate, support bar and V shaped slab, and support bar is arranged on bottom plate, is V shaped slab in the middle part of bottom plate;
Mainframe box, motor performance panel and measurement operation panel are arranged on movable stand, and movable stand includes universal wheel, branch
Support platform, locating piece, stand and X-direction sliding rail, on movable stand bottom surface equipped with several can be self-locking universal wheel, the bottom surface of movable stand
It is equipped with a pair of of the locating piece being oppositely arranged, locating piece cooperates the centering of V shaped slab realization surface profile measurement device, motor performance
Panel and measurement operation panel are arranged in supporting table, and stand supports X-direction sliding rail, and travel switch is arranged in X-direction sliding rail front end,
X-direction sliding rail is equipped with sliding block, and Z-direction sliding rail is slidably matched with sliding block, and surface measurement component is arranged under Z-direction sliding rail
End.
A pair of of locating piece can be kept out realizes surface profile measurement device on the two sides of the V shaped slab of the V-arrangement pallet
Centering.
Surface measurement component includes positioning framework, connecting plate, buffer unit, range sensor and roughness instrument, is determined
Position frame is connected by buffer unit with connecting plate, and connecting plate is fixedly connected with Z-direction sliding rail, and positioning framework is equipped with distance and passes
Sensor and roughness instrument.
Positioning framework is treated detection position using three-point fix mode and is positioned.
Range sensor is located at the side of roughness instrument, and the distance on detection faces to the ground of range sensor is greater than thick
Distance of the detection faces of rugosity detector to ground.
Locating piece includes mainboard, inclined plate and baffle, and the side of mainboard is connect with inclined plate, and the other side of mainboard and baffle connect
It connects, baffle is mutually perpendicular to mainboard, and inclined plate can be kept out on the side of V shaped slab, and baffle can be kept out in the end face of V shaped slab
On.
Using the operating method of the detection device for roughness of surface, comprise the following steps that
S1: it pushes movable stand to position is detected, the two sides and end face of V shaped slab is stuck in by a pair of of locating piece of movable stand
Two right angles formed are positioned;
S2: the button on wheel measuring operation panel, button bounce automatically, and touch screen lights display initialization interface;
S3: manual measurement or single automatic measurement or continuous measurement or Program reset or XZ are selected on measurement operation panel
Axis resets, wherein manual measurement are as follows: single shaft acts single manual operation measurement;Single automatic measurement are as follows: automatic multiple after measurement is primary
Origin is arrived in position;Continuous measurement are as follows: detection system rises certain position along Z axis after measurement is primary, remaining movement is without under waiting
One measurement movement;Program reset are as follows: after exception occurs in program, click Program reset to original state;XZ axis resets are as follows: no
When measuring again, XZ axis resets to home after click.
Wherein, specific step is as follows for manual measurement in S3:
S311: start button is clicked;
S312: click, which moves to left button or moves to right button, makes the sliding rail movement in X direction of surface measurement component, corresponding excercises
Make to click directly on numerical value in parameter box for adjustable speed in the data frame of panel, pop up parameter input interface, X-axis data frame
Interior data 1000=37.3mm, data 1000=2.5mm in Z axis data frame;
S313: shift button or lower shift button move up and down surface measurement component along Z-direction sliding rail in click, corresponding fortune
It is adjustable speed in the data frame of dynamic operation panel, clicks directly on numerical value in parameter box, pops up parameter input interface, X-axis number
According to data 1000=37.3mm in frame, data 1000=2.5mm in Z axis data frame;
S314: when range sensor detects surface measurement component close to coil of strip, click moves up slow button or moves down slow
Button moves surface measurement component slowly up and down along Z-direction sliding rail, is adjustable in the data frame of corresponding motor performance panel
Speed clicks directly on numerical value in parameter box, pops up parameter input interface, data 1000=37.3mm in X-axis data frame, Z axis number
According to data 1000=2.5mm in frame;
S315: it measures;
S316: return push-button program is clicked after being measured and returns to a upper interface
Specific step is as follows for single automatic measurement in S3:
S321: it clicks and opens measurement button, playback origin button;
S322: setting X-axis measuring speed, X-axis measurement distance, Z axis measuring speed, Z axis move down speed after distance, Z axis induction
It spends, data 1000=37.3mm in X-axis data frame, data 1000=2.5mm in Z axis data frame;
S323: starting measurement button is clicked;
S324: click is measured button, the automatic Aligning control of system;
S325: return push-button program is clicked after being measured and returns to a upper interface
Continuously specific step is as follows for measurement in S3:
S331: it clicks and opens measurement button, playback origin button;
S332: setting X-axis measuring speed, X-axis measure distance, Z axis measuring speed, Z axis move up distance, Z axis moves down distance,
Speed after Z axis induction, data 1000=37.3mm in X-axis data frame, data 1000=2.5mm in Z axis data frame;
S333: starting measurement button is clicked;
S334: click is measured, and moves on to setting position on Z-direction sliding rail;
S335: the coil of strip being measured is transported, and coil of strip to be measured is placed into V-arrangement pallet;
S336: next measurement button, system duplicate measurements program are clicked;
S337: click is measured button, the automatic Aligning control of system;
S338: return push-button program is clicked after being measured and returns to a upper interface.
The advantageous effects of the above technical solutions of the present invention are as follows:
In above scheme, roll, coil of strip, steel strip surface Shape measure and easy to use can be suitable for.It is transported by operation
Dynamic operation panel and measurement operation panel enable X-axis and Z axis of the surface measurement component on movable stand arbitrarily to move and carry out
Measurement can easily detect roll, the surface topography on coil of strip top surface, keep detection process convenient, the data after being measured
It is sent directly into the processor in mainframe box and is handled and shown, operating process is simple;Due to can select manual measurement or
Single automatic measurement or continuous measurement can satisfy the different demands at scene according to actual use situation unrestricted choice.
Detailed description of the invention
Fig. 1 is detection device for roughness of surface structural schematic diagram one of the invention;
Fig. 2 is detection device for roughness of surface structural schematic diagram two of the invention;
Fig. 3 is surface profile measurement apparatus structure schematic diagram one in detection device for roughness of surface of the invention;
Fig. 4 is surface profile measurement apparatus structure schematic diagram two in detection device for roughness of surface of the invention;
Fig. 5 is locating piece schematic diagram in surface profile measurement device of the invention;
Fig. 6 is surface measurement component structure diagram in detection device for roughness of surface of the invention.
Wherein: 1-V shape pallet;11- bottom plate;12- support bar;13-V shape plate;2- surface profile measurement device;21- is mobile
Frame;211- universal wheel;212- supporting table;213- locating piece;2131- mainboard;2132- inclined plate;2133- baffle;214- stand;
The direction 215-X sliding rail;The direction 22-Z sliding rail;23- surface measurement component;231- positioning framework;232- connecting plate;233- buffering dress
It sets;234- range sensor;235- roughness instrument;24- mainframe box;25- motor performance panel;26- measures operation panel;
27- travel switch;28- sliding block;3- coil of strip.
Specific embodiment
To keep the technical problem to be solved in the present invention, technical solution and advantage clearer, below in conjunction with attached drawing and tool
Body embodiment is described in detail.
The present invention provides a kind of for existing detection device for roughness of surface and its operating method.
As shown in Figure 1 and Figure 2, device: including V-arrangement pallet 1 and surface profile measurement device 2, wherein V-arrangement pallet 1 is used
In placing coil of strip 3 to be detected, as shown in Figure 3 and Figure 4, surface profile measurement device 2 includes movable stand 21, Z-direction sliding rail 22, table
Planar survey component 23, mainframe box 24, motor performance panel 25, measurement operation panel 26 and travel switch 27,
V pallet 1 includes bottom plate 11, support bar 12 and V shaped slab 13, and support bar 12 is arranged on bottom plate 11, in bottom plate 11
Portion is V shaped slab 13, and a pair of of support bar 12 is arranged in parallel on bottom plate 11, and a V shaped slab 13 is respectively arranged on a pair of of support bar 12, and
A pair of of V shaped slab 13 is located along the same line, and keeps V-arrangement pallet 1 in stable condition in use.
Mainframe box 24, motor performance panel 25 and measurement operation panel 26 are arranged on movable stand 21, and movable stand 21 wraps
Universal wheel 211, supporting table 212, locating piece 213, stand 214 and X-direction sliding rail 215 are included, is equipped on 21 bottom surface of movable stand several
A universal wheel 211 that can be self-locking, universal wheel 211 may be implemented the movement of whole surface Shape measure device and fix, and guarantee that its is whole
The flexibility of body running position, while the actual production at scene can also not influenced when it does not work to greatest extent, it is mobile
The bottom surface of frame 21 is equipped with a pair of of the locating piece 213 being oppositely arranged, and locating piece 213 cooperates V shaped slab 13 to realize surface profile measurement
The centering of device 2, motor performance panel 25 and measurement operation panel 26 are arranged in supporting table 212, and stand 214 supports X-direction
Sliding rail 215,215 front end of X-direction sliding rail be arranged travel switch 27, X-direction sliding rail 215 be equipped with sliding block 28, Z-direction sliding rail 22 with
Sliding block 28 is slidably matched, and the lower end of Z-direction sliding rail 22 is arranged in surface measurement component 23, it is ensured that surface measurement component 23 being capable of edge
The bus of coil of strip 3 or roll is mobile to carry out multimetering.There is touch-typed LCD panel on motor performance panel 25, can be used to real
Now to the motor performance of X-direction and Z-direction sliding rail, the control of position and speed is carried out, staff is facilitated to position and measure.X
It is respectively equipped with one stroke switch 27 on the both ends of direction sliding rail 215 and the both ends of Z-direction sliding rail 22, which further includes moving
Dynamic power supply, powers for detection device.
A pair of of locating piece 213, which can be kept out, realizes surface profile measurement on the two sides of the V shaped slab 13 of the V-arrangement pallet 1
The centering of device 2, V shaped slab 13 help detection device to realize that whole positioning is found accurately,.
As shown in fig. 6, surface measurement component 23 includes positioning framework 231, connecting plate 232, buffer unit 233, distance biography
Sensor 234 and roughness instrument 235, positioning framework 231 are connected by buffer unit 233 with connecting plate 232, connecting plate 232
It is fixedly connected with Z-direction sliding rail 22, positioning framework 231 is equipped with range sensor 234 and roughness instrument 235, measurement behaviour
Make panel 26 and start to work and stop working for controlling roughness instrument 235, the motion profile of roughness instrument 235 is
Straight line or in the same plane.
Positioning framework 231 is treated detection position using three-point fix mode and is positioned, and frame positioning increases positioning blade,
Keep detection process steadily reliable.
Range sensor 234 is located at the side of roughness instrument 235, and the detection faces of range sensor 234 arrive ground
Distance be greater than roughness instrument 235 detection faces to ground distance, avoid range sensor 234 first touch coil of strip 3 or
Roller surface and influence testing result.
As shown in figure 5, locating piece 213 include mainboard 2131, inclined plate 2132 and baffle 2133, the side of mainboard 2131 and tiltedly
Plate 2132 connects, and the other side of mainboard 2131 is connect with baffle 2133, and baffle 2133 is mutually perpendicular to mainboard 2131, inclined plate 2132
It can keep out on the side of V shaped slab 13, baffle 2133 can be kept out on the end face of V shaped slab 13.
The operating process of the concrete application device is as follows:
S1: it pushes movable stand 21 to detection position, is stuck in the two of V shaped slab 13 by a pair of of locating piece 213 of movable stand 21
Two right angles that side is formed with end face are positioned;
S2: the button on wheel measuring operation panel 26, button bounce automatically, and touch screen lights display initialization interface;
S3: selected on measurement operation panel 26 manual measurement or single automatic measurement or continuous measurement or Program reset or
XZ axis resets, wherein manual measurement are as follows: single shaft acts single manual operation measurement;Single automatic measurement are as follows: automatic after measurement is primary
Reset to origin;Continuous measurement are as follows: detection system rises certain position along Z axis after measurement is primary, remaining movement is without waiting
Next measurement movement;Program reset are as follows: after exception occurs in program, click Program reset to original state;XZ axis resets are as follows:
When no longer measuring, XZ axis resets to home after click.
Operating procedure after selecting manual measurement are as follows:
S311: start button is clicked;
S312: click, which moves to left button or moves to right button, makes the movement of sliding rail 215 in X direction of surface measurement component 23, corresponding
It is adjustable speed in data frame, clicks directly on numerical value in parameter box, pops up parameter input interface, data in X-axis data frame
1000=37.3mm, data 1000=2.5mm in Z axis data frame, point operation control, speed 30mm/ seconds -- 130mm/ seconds are adjustable,
Stop after triggering travel switch 27;
S313: shift button or lower shift button move up and down surface measurement component 23 along Z-direction sliding rail 22 in click, corresponding
Data frame in be adjustable speed, click directly on numerical value in parameter box, pop up parameter input interface, data in X-axis data frame
1000=37.3mm, data 1000=2.5mm in Z axis data frame, point operation control, speed 5mm/ seconds -- 20mm/ seconds are adjustable, touching
Stop after hair travel switch 27;
S314: when range sensor 234 detects surface measurement component 23 close to coil of strip 3, click move up slow button or
Moving down slow button moves surface measurement component 23 slowly along about 22 Z-direction sliding rail, is adjustable speed in corresponding data frame,
It clicks directly on numerical value in parameter box, pops up parameter input interface, data 1000=37.3mm in X-axis data frame, in Z axis data frame
Data 1000=2.5mm, point operation control, speed 30mm/ seconds -- 100mm/ seconds are adjustable, stop after triggering travel switch 27;
S315: it measures;
S316: return push-button program is clicked after being measured and returns to a upper interface;
Operating procedure after selecting single automatic measurement are as follows:
S321: it clicks and opens measurement button, playback origin button;
S322: setting X-axis measuring speed, X-axis measurement distance, Z axis measuring speed, Z axis move down speed after distance, Z axis induction
It spends, data 1000=37.3mm in X-axis data frame, data 1000=2.5mm in Z axis data frame;
S323: clicking and start measurement button, in measurement process, X-motion speed 30mm/ seconds -- and 130mm/ seconds are adjustable
Section;It is moved down along Z axis, when range sensor 234 detects belt steel surface, is changed to descending at slow speed, dropping distance 5--30mm can
Setting, speed 5mm/ seconds -- 20mm/ seconds are adjustable;After stopping is moved down along Z axis, roughness concentration is carried out after postponing 3s;
S324: click is measured button, and surface measurement component 23 is moved up along Z axis, is moved to the left to origin along X-axis
Position stops, and speed 30mm/ seconds -- 130mm/ seconds are adjustable, wait next measurement work;
S325: return push-button program is clicked after being measured and returns to a upper interface;
Operating procedure after selection continuous measurement are as follows:
S331: it clicks and opens measurement button, playback origin button;
S332: setting X-axis measuring speed, X-axis measure distance, Z axis measuring speed, Z axis move up distance, Z axis moves down distance,
Speed after Z axis induction, data 1000=37.3mm in X-axis data frame, data 1000=2.5mm in Z axis data frame;
S333: starting measurement button, measurement process are as follows: surface measurement component 23 is moved down along Z axis, speed are clicked
30mm/ seconds -- 130mm/ seconds are adjustable;It is moved down into after range sensor 234 detects belt steel surface, is changed at a slow speed along Z axis
Decline, dropping distance 5--30mm can be set, and speed 5mm/ seconds -- 20mm/ seconds are adjustable;Surface measurement component 23 is downward along Z axis
After mobile stopping, roughness concentration is carried out after postponing 3s;
S334: click is measured, and moves on to setting position on Z-direction sliding rail 22;
S335: the coil of strip 3 being measured is transported, and coil of strip 3 to be measured is placed into V-arrangement pallet 1;
S336: next measurement button, system duplicate measurements program are clicked;
S337: click is measured button, the automatic Aligning control of system;
S338: return push-button program is clicked after being measured and returns to a upper interface.
A variety of measurement methods can satisfy the use of different occasions, easy to use.
The above is a preferred embodiment of the present invention, it is noted that for those skilled in the art
For, without departing from the principles of the present invention, several improvements and modifications can also be made, these improvements and modifications
It should be regarded as protection scope of the present invention.
Claims (10)
1. a kind of detection device for roughness of surface, it is characterised in that: including V-arrangement pallet (1) and surface profile measurement device (2),
Wherein, for V-arrangement pallet (1) for placing coil of strip to be detected (3), surface profile measurement device (2) includes movable stand (21), Z-direction
Sliding rail (22), surface measurement component (23), mainframe box (24), motor performance panel (25), measurement operation panel (26) and stroke
It switchs (27),
V pallet (1) includes bottom plate (11), support bar (12) and V shaped slab (13), and support bar (12) is arranged on bottom plate (11),
It is in the middle part of bottom plate (11) V shaped slab (13);
Mainframe box (24), motor performance panel (25) and measurement operation panel (26) are arranged on movable stand (21), movable stand
It (21) include universal wheel (211), supporting table (212), locating piece (213), stand (214) and X-direction sliding rail (215), movable stand
(21) universal wheel (211) that can be self-locking is housed, the bottom surface of movable stand (21) is equipped with a pair of of the locating piece being oppositely arranged on bottom surface
(213), the centering of surface profile measurement device (2), motor performance panel (25) are realized in locating piece (213) cooperation V shaped slab (13)
It is arranged on supporting table (212) with measurement operation panel (26), stand (214) supports X-direction sliding rail (215), X-direction sliding rail
(215) front end setting travel switch (27), X-direction sliding rail (215) are equipped with sliding block (28), Z-direction sliding rail (22) and sliding block
(28) it is slidably matched, surface measurement component (23) is arranged in the lower end of Z-direction sliding rail (22).
2. detection device for roughness of surface according to claim 1, it is characterised in that: the pair of locating piece (213) energy
Enough keep out the centering that surface profile measurement device (2) are realized on the two sides of the V shaped slab (13) of the V-arrangement pallet (1).
3. detection device for roughness of surface according to claim 1, it is characterised in that: surface measurement component (23) packet
Positioning framework (231), connecting plate (232), buffer unit (233), range sensor (234) and roughness instrument (235) are included,
Positioning framework (231) is connected by buffer unit (233) with connecting plate (232), and connecting plate (232) and Z-direction sliding rail (22) are solid
Fixed connection, positioning framework (231) are equipped with range sensor (234) and roughness instrument (235).
4. detection device for roughness of surface according to claim 3, it is characterised in that: the positioning framework (231) uses
Three-point fix mode is treated detection position and is positioned.
5. detection device for roughness of surface according to claim 3, it is characterised in that: range sensor (234) position
In the side of roughness instrument (235), the distance on detection faces to the ground of range sensor (234) is greater than roughness instrument
(235) distance of the detection faces to ground.
6. detection device for roughness of surface according to claim 1, it is characterised in that: the locating piece (213) includes master
The side of plate (2131), inclined plate (2132) and baffle (2133), mainboard (2131) is connect with inclined plate (2132), mainboard (2131)
The other side is connect with baffle (2133), and baffle (2133) is mutually perpendicular to mainboard (2131), and inclined plate (2132) can be kept out in V-arrangement
On the side of plate (13), baffle (2133) can be kept out on the end face of V shaped slab (13).
7. using the operating method of detection device for roughness of surface described in claim 1, it is characterised in that: such as including step
Under:
S1: it pushes movable stand (21) to detection position, V shaped slab (13) is stuck in by a pair of of locating piece (213) of movable stand (21)
Two right angles being formed with end face of two sides positioned;
S2: the button on wheel measuring operation panel (26), button bounce automatically, and touch screen lights display initialization interface;
S3: manual measurement or single automatic measurement or continuous measurement or Program reset or XZ are selected in measurement operation panel (26)
Axis resets, wherein manual measurement are as follows: single shaft acts single manual operation measurement;Single automatic measurement are as follows: automatic multiple after measurement is primary
Origin is arrived in position;Continuous measurement are as follows: detection system rises certain position along Z axis after measurement is primary, remaining movement is without under waiting
One measurement movement;Program reset are as follows: after exception occurs in program, click Program reset to original state;XZ axis resets are as follows: no
When measuring again, XZ axis resets to home after click.
8. the operating method of detection device for roughness of surface according to claim 7, it is characterised in that: in the S3 manually
Specific step is as follows for measurement:
S311: start button is clicked;
S312: click, which moves to left button or moves to right button, makes surface measurement component (23) sliding rail (215) movement in X direction, corresponding
It is adjustable speed in the data frame of motor performance panel (25), clicks directly on numerical value in parameter box, pops up parameter input interface,
Data 1000=37.3mm in X-axis data frame, data 1000=2.5mm in Z axis data frame;
S313: shift button or lower shift button move up and down surface measurement component (23) along Z-direction sliding rail (22) in click, corresponding
Motor performance panel (25) data frame in be adjustable speed, click directly on numerical value in parameter box, pop-up parameter inputs boundary
Face, data 1000=37.3mm in X-axis data frame, data 1000=2.5mm in Z axis data frame;
S314: when range sensor (234) detects surface measurement component (23) close to coil of strip (3), click moves up slow button
Or moving down slow button keeps surface measurement component (23) slow mobile up and down along Z-direction sliding rail (22), corresponding motor performance panel
(25) it is adjustable speed in data frame, clicks directly on numerical value in parameter box, pop up parameter input interface, in X-axis data frame
Data 1000=37.3mm, data 1000=2.5mm in Z axis data frame;
S315: it measures;
S316: return push-button program is clicked after being measured and returns to a upper interface.
9. the operating method of detection device for roughness of surface according to claim 7, it is characterised in that: single in the S3
Specific step is as follows for automatic measurement:
S321: it clicks and opens measurement button, playback origin button;
S322: setting X-axis measuring speed, X-axis measurement distance, Z axis measuring speed, Z axis move down speed after distance, Z axis induction, X
Data 1000=37.3mm in axis data frame, data 1000=2.5mm in Z axis data frame;
S323: starting measurement button is clicked;
S324: click is measured button, the automatic Aligning control of system;
S325: return push-button program is clicked after being measured and returns to a upper interface.
10. the operating method of detection device for roughness of surface according to claim 7, it is characterised in that: connect in the S3
Specific step is as follows for continuous measurement:
S331: it clicks and opens measurement button, playback origin button;
S332: setting X-axis measuring speed, X-axis measurement distance, Z axis measuring speed, Z axis move up distance, Z axis moves down distance, Z axis
Speed after induction, data 1000=37.3mm in X-axis data frame, data 1000=2.5mm in Z axis data frame;
S333: starting measurement button is clicked;
S334: click is measured, and Z-direction sliding rail moves on to setting position on (22);
S335: the coil of strip being measured (3) is transported, and coil of strip to be measured is placed into V-arrangement pallet (1);
S336: next measurement button, system duplicate measurements program are clicked;
S337: click is measured button, the automatic Aligning control of system;
S338: return push-button program is clicked after being measured and returns to a upper interface.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113514023A (en) * | 2021-09-14 | 2021-10-19 | 南通荷风环保科技有限公司 | Energy-saving and environment-friendly device for efficiently detecting flatness of case |
CN115415900A (en) * | 2022-11-07 | 2022-12-02 | 常州恒联机械五金有限公司 | Automatic grinding equipment for bent pipe |
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