CN105865353A - Glass screen segment difference detection device - Google Patents
Glass screen segment difference detection device Download PDFInfo
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- CN105865353A CN105865353A CN201610408237.2A CN201610408237A CN105865353A CN 105865353 A CN105865353 A CN 105865353A CN 201610408237 A CN201610408237 A CN 201610408237A CN 105865353 A CN105865353 A CN 105865353A
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- Prior art keywords
- glass screen
- slide block
- carrier
- actuating unit
- support
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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
- G01B11/00—Measuring arrangements characterised by the use of optical techniques
- G01B11/02—Measuring arrangements characterised by the use of optical techniques for measuring length, width or thickness
- G01B11/06—Measuring arrangements characterised by the use of optical techniques for measuring length, width or thickness for measuring thickness ; e.g. of sheet material
- G01B11/0608—Height gauges
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- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Investigating Materials By The Use Of Optical Means Adapted For Particular Applications (AREA)
- Automatic Assembly (AREA)
Abstract
The invention discloses a glass screen segment difference detection device, which comprises a stand, a carrier, a laser detection assembly, a first power mechanism, and a second power mechanism, wherein a horizontal working platform is formed at the top side of the stand, and the two opposite sides of the working platform respectively correspond to a feeding station and a discharging station; the carrier is movably arranged on the working platform and can be driven by the first power mechanism to move from the feeding station to the discharging station, and the laser detection assembly is arranged above the carrier and can be driven by the second power mechanism to make a horizontal reciprocating motion along the direction vertical to the movement direction of the carrier so as to detect the height of the detected glass screen on the carrier. Through the double-station detection mode, the running speed is fast, the productivity is greatly improved, the height of the detected glass screen can be accurately detected, and the yield of products is effectively ensured; in addition, the glass screen segment difference detection device has a high degree of intelligence and effective saving in production cost.
Description
Technical field
The present invention relates to detect equipment technical field, a kind of glass screen section of concrete offer
Difference detection equipment.
Background technology
Along with developing rapidly of domestic and international high-end commercial product process technology is competing with market
That strives is more fierce, controls product quality and has become in the weight in process of producing product it
Weight.
For control product quality, product each stage manufacture, be completed after, all
Need product to carry out detection to judge whether product is OK product.Current product stream
During waterline produces, mostly by manual operation, product is carried out quality testing, this
Sample not only accuracy of detection is low, inefficiency, but also needs to consume substantial amounts of manpower,
Production cost is high.
Summary of the invention
In order to overcome drawbacks described above, the invention provides a kind of glass screen section difference detection
Equipment, this glass screen section difference assay device structures is reasonable, compact, is effectively increased
Detection efficiency and accuracy of detection, it is ensured that product yield.
The present invention is to solve that its technical problem be the technical scheme is that a kind of glass
Glass screen segment difference detection equipment, including support, in order to carry the load of tested glass screen
Tool, in order to tested glass screen is carried out the radium-shine detection components of height detection, first
Actuating unit and the second actuating unit, wherein, the top side of described support is formed
The work platforms of a level, the opposite sides of described work platforms is had to correspond to respectively
Material station and discharge station;Described carrier is movably set on described work platforms, and
Can move to discharge station from feeding station under the drive of described first actuating unit
Dynamic;Described radium-shine detection components is placed in the top of described carrier, and described radium-shine detection
Assembly can also be along being perpendicular to described carrier under the drive of described second actuating unit
The direction horizontal reciprocating of moving direction moves, with the tested glass being opposite on described carrier
Glass screen carries out height detection.
As a further improvement on the present invention, described carrier is movably set in described work
On platform, and can be downward from feeding station under the drive of described first actuating unit
The material structure that moves of station is: described first actuating unit include the first servo motor,
First ball-screw assembly and the first installation frame, wherein, described first servo
Motor location is arranged on described work platforms, and described first ball-screw assembly includes
First leading screw and the first nut being slidedly arranged on described first leading screw, described first leading screw
Extend to discharge station from feeding station, and by described first installation frame location peace
Being contained on described work platforms, an axle head of the most described first leading screw is also by shaft coupling
Device is located by connecting with the output shaft of described first servo motor;
Described carrier is movably set on the top side of described first installation frame, and simultaneously
Described carrier is also located by connecting with described first nut.
As a further improvement on the present invention, described work platforms also positions setting
Have two vertical stands, described second actuating unit across and position be located at these two erect
To the upper end of stand, described radium-shine detection components is connected to described second actuating unit
On, and can be along being perpendicular to the shifting of described carrier under the drive of described second actuating unit
The direction horizontal reciprocating in dynamic direction moves;
It addition, described first actuating unit is also placed between these two vertical stands.
As a further improvement on the present invention, described radium-shine detection components includes connection
Frame, Nt and the CCD camera matched with described Nt, wherein, institute
State connection support to be connected on described second actuating unit, and by described connection support court
It is defined as positive side, by described connection support towards discharge station to the side of feeding station
Opposite side be defined as dorsal part, described Nt can the most described connection support vertical
Position is adjustably fixed on described connection support dorsal part, and described CCD camera can phase
Described connection support vertical position is adjustably fixed on the described positive side of connection support.
As a further improvement on the present invention, described Nt can the most described connection
The structure that support vertical position is adjustably fixed on described connection support dorsal part is:
Vertical strip the first chute it is provided with on described connection support dorsal part, described radium-shine
Be located by connecting on device the first traveller, and described first traveller cooperation is slidedly arranged on described strip
In shape the first chute, and described Nt is detachably secured to institute also by locking part
State on connection support dorsal part;
Described CCD camera can adjustably be consolidated by the most described connection support vertical position
The structure being scheduled on the described positive side of connection support is: set on the described positive side of connection support
It is equipped with vertical strip the second chute, described CCD camera has been located by connecting second
Traveller, described second traveller cooperation is slidedly arranged in described strip the second chute, and institute
State CCD camera and be detachably secured to the described positive side of connection support also by locking part
On.
As a further improvement on the present invention, described radium-shine detection components can be described
Driving of second actuating unit is lower along the direction water being perpendicular to described carrier moving direction
The flat structure that moves back and forth is: described second actuating unit include the second servo motor,
Second ball-screw assembly and the second installation frame, wherein, described second servo
Motor location is arranged on the upper end of vertical stand described in, described second ball-screw
Assembly includes the second leading screw and the second nut being slidedly arranged on described second leading screw, described
Second leading screw is horizontal-extending along the direction being perpendicular to described carrier moving direction, and passes through
Described second installation frame between the upper end being set up in these two vertical stands, and
One axle head of the most described second leading screw is also by shaft coupling and described second servo horse
The output shaft reached is located by connecting;Described second nut towards feeding station, and described
Two nuts are also located by connecting with the described dorsal part being connected support.
As a further improvement on the present invention, described carrier include loading plate and two hold
Carrying slide block, described loading plate is movably set on the top side of described first installation frame,
The most described loading plate is also located by connecting with described first nut;These two carrying slide blocks
It is laid in side by side on the upper surface of the most described first installation frame of described loading plate, and
These two carrying slide blocks are also respectively articulated with the upper of described loading plate by a rotating shaft respectively
On surface;Additionally the periphery at each described carrying slide block is also arranged at intervals with multiple use
To support bracer of tested glass screen, the top of the plurality of bracer all above
The upper surface of described carrying slide block, so that described carrying slide block is with tested glass screen not
Contact;When described loading plate moves to blanking under the drive of described first actuating unit
During station, wherein carry slide block described in one and can drive another described carrying slide block together
Displacement on relatively described bracer occurred level direction, and two described carrying slide blocks
Remain able to the elastic reset power resetted the most respectively.
As a further improvement on the present invention, on described loading plate, location is provided with one
Along the slide bar that the direction being perpendicular to described first leading screw length direction is horizontal-extending, these are two years old
Individual carrying slide block matches slip even by a sliding shaft sleeve with described slide bar the most respectively
Connect, and wherein described in one, carrying slide block can drive another described carrying slide block phase together
To the structure of the displacement on described bracer occurred level direction it is: carrying described in one
Be located by connecting on the side of slide block another described carrying slide block dorsad a cam, also exists
On described work platforms and close to discharge station position position be provided with a gear
Block, described block is lozenges towards the one side carrying slide block described in;Described convex
Wheel can abut against with described lozenges with the movement of described loading plate by nationality, and makes one
Described carrying slide block can touch another described carrying slide block and occurred level together
Displacement on direction.
As a further improvement on the present invention, described slide bar is also arranged with two bullets
Spring, these two springs are able to make two described carrying slide block elastic resets.
The invention has the beneficial effects as follows: compared to prior art, 1. this glass screen section
Difference detection equipment drives carrier from feeding station to blanking by the first actuating unit
Station moves, and drives radium-shine detection components along being perpendicular to by the second actuating unit
The direction horizontal reciprocating of described carrier moving direction moves, to be opposite on described carrier
Tested glass screen carry out height detection, this double detection mode not only runs speed
Degree is fast, substantially increases production efficiency, and can also enter tested glass screen height
Row accurately detection, has been effectively ensured the yield of product;2. this glass screen section difference detection
Carrier structure is also innovated by equipment, uses " carrying slider displacement, tested glass
Screen is motionless " cutting mode, beneficially crawl to tested glass screen during blanking;
3. this glass screen section difference detection equipment is simple and reasonable for structure, and intelligence degree is high,
Without too much operator, it is effectively saved production cost.
Accompanying drawing explanation
Fig. 1 is that the stereochemical structure of glass screen section difference detection equipment of the present invention is shown
It is intended to;
Fig. 2 is that the partial enlargement structure of the detection equipment of glass screen section difference shown in Fig. 1 is shown
It is intended to;
Fig. 3 is that the assembling structure that carrier shown in Fig. 1 is arranged on the first actuating unit is put
Big schematic diagram.
In conjunction with accompanying drawing, make the following instructions:
1 support 10 work platforms
2 carrier 20 loading plates
21 carrying 22 bracers of slide block
23 cam 210 storage tanks
3 radium-shine detection components 30 connect support
31 Nt 32 CCD camera
4 first actuating unit 40 first servo motors
41 first ball-screw assembly 42 first installation frames
5 second actuating unit 50 second servo motors
51 second ball-screw assembly 52 second installation frames
6 vertical stand 7 blocks
Detailed description of the invention
Referring to figure to a preferred embodiment of the present invention will be described in detail.
The invention discloses a kind of glass screen section difference detection equipment, including support 1,
In order to carry the carrier 2 of tested glass screen, in order to tested glass screen is carried out height
Radium-shine detection components 3, first actuating unit 4 of degree detection and the second engine
Structure 5, wherein, the top side of described support 1 is formed with the work platforms 10 of a level,
The opposite sides of described work platforms 10 corresponds to feeding station and blankers respectively
Position;Described carrier 2 is movably set on described work platforms 10, and can be in institute
State and move to discharge station from feeding station under the drive of the first actuating unit 4;Described
Radium-shine detection components 3 is placed in the top of described carrier 2, and described radium-shine detection components
3 can also be along being perpendicular to described carrier 2 under the drive of described second actuating unit 5
The direction horizontal reciprocating of moving direction moves, tested be opposite on described carrier 2
Glass screen carries out height detection.
In the present embodiment, described carrier 2 is movably set in described work platforms 10
On, and can under the drive of described first actuating unit 4 from feeding station to blanking
The structure that station moves is: described first actuating unit 4 includes the first servo motor
40, the first ball-screw assembly 41 and the first installation frame 42, wherein, institute
State the first servo motor 40 location to be arranged on described work platforms 10, described first
Ball-screw assembly 41 includes the first leading screw and be slidedly arranged on described first leading screw the
One nut, described first leading screw extends (i.e. first from feeding station to discharge station
The guiding of thick stick is to discharge station from feeding station), and by described first installing frame
Frame 42 location and installation on described work platforms 10, the one of the most described first leading screw
Axle head connects also by the output shaft location of shaft coupling with described first servo motor 40
Connect;
Described carrier 2 is movably set on the top side of described first installation frame 42,
And the most described carrier 2 is also located by connecting with described first nut.At the present embodiment
In, described first actuating unit is two, two the first actuating units in being arranged side by side,
And each described first actuating unit correspondence drives the carrier action that coordinates with it.
In the present embodiment, on described work platforms 10, also location is provided with two
Vertical stand 6, described second actuating unit 5 across and position and be located at these two vertically
The upper end of stand 6, described radium-shine detection components 3 is connected to described second actuating unit
On 5, and can be along being perpendicular to described load under the drive of described second actuating unit 5
The direction horizontal reciprocating having 2 moving directions moves;
It addition, described first actuating unit 4 is also placed between these two vertical stands 6.
In the present embodiment, described radium-shine detection components 3 include connect support 30,
Nt 31 and the CCD camera 32 matched with described Nt, wherein,
Described connection support 30 is connected on described second actuating unit 5, and by described company
Connect support 30 and be defined as positive side, by described connection support towards the side of feeding station
30 are defined as dorsal part towards the opposite side of discharge station, and described Nt 31 can phase
Described connection support vertical position is adjustably fixed on described connection support 30 dorsal part
On, described CCD camera 32 can the most described connection support vertical position adjustably
It is fixed on the described positive side of connection support 30;The vertical height of described Nt is adjustable,
To adjust its range of exposures;The vertical height of described CCD camera is adjustable, with preferably
It is matched with Nt, is beneficial to sense the elevation information of tested glass screen.
Preferably, described Nt 31 can the most described connection support vertical position
The structure being adjustably fixed on described connection support 30 dorsal part is: in described connection
Vertical strip the first chute, described Nt 31 it is provided with on support 30 dorsal part
On be located by connecting the first traveller, described first traveller coordinates and is slidedly arranged on described strip
In first chute, and described Nt 31 can also by locking part (such as screw etc.)
Releasably it is fixed on described connection support 30 dorsal part;
Described CCD camera 32 can the most described connection support vertical position adjustably
The structure being fixed on the described positive side of connection support 30 is: at described connection support 30
It is provided with vertical strip the second chute on positive side, fixed in described CCD camera 32
Position connects the second traveller, and described second traveller cooperation is slidedly arranged on described strip second
In chute, and described CCD camera 32 is removable also by locking part (such as screw etc.)
It is fixed on unloading on the described positive side of connection support 30.
Preferably, described radium-shine detection components 3 can be at described second actuating unit 5
Drive and lower move along the direction horizontal reciprocating being perpendicular to described carrier 2 moving direction
Structure be: described second actuating unit 5 includes the second servo motor 50, second
Ball-screw assembly 51 and the second installation frame 52, wherein, described second watches
Take motor 50 location to be arranged on the upper end of vertical stand 6 described in, described second
Ball-screw assembly 51 includes the second leading screw and be slidedly arranged on described second leading screw the
Two nuts, described second leading screw is along the direction water being perpendicular to described carrier 2 moving direction
(the most described second leading screw is along the side being perpendicular to described first leading screw length direction in flat extension
To horizontal-extending), and by described second installation frame 52 across being set up in these two
Between the upper end of vertical stand 6, and an axle head of the most described second leading screw also by
Shaft coupling is located by connecting with the output shaft of described second servo motor 50;Described second
Nut towards feeding station, and described second nut also with the described support 30 that is connected
Dorsal part is located by connecting.The most in the present embodiment, for coordinating above-mentioned two carrier, radium
Penetrate detection components and be also set to two groups.
In the present embodiment, described carrier 2 includes that loading plate 20 and two carryings are sliding
Block 21, described loading plate 20 is movably set in the top of described first installation frame 42
On side, the most described loading plate 20 is also located by connecting with described first nut;These are two years old
Individual carrying slide block 21 is laid in the most described first installing frame of described loading plate 20 side by side
On the upper surface of frame 42, and these two carrying slide blocks 21 are the most each respectively by a rotating shaft
It is articulated with on the upper surface of described loading plate 20;Additionally at each described carrying slide block
The periphery of 21 is also arranged at intervals with a multiple bracer in order to support tested glass screen
22, the top of the plurality of bracer 22 is all above the upper table of described carrying slide block 21
Face, so that described carrying slide block 21 does not contacts with tested glass screen;Hold when described
When support plate 20 moves to discharge station under the drive of described first actuating unit 4,
Wherein carrying slide block 21 described in one can drive another described carrying slide block the most relative
Displacement on described bracer 22 occurred level direction, is beneficial to mechanical hand and captures quilt
Survey glass screen, and two described carrying slide blocks 21 remain able to reset the most respectively
Elastic reset power.
Preferably, on described loading plate 20, to be provided with one described along being perpendicular in location
The slide bar that the direction of the first leading screw length direction is horizontal-extending, these two carrying slide blocks
21 match slip even by a sliding shaft sleeve or sliding shoe with described slide bar the most respectively
Connect, and wherein described in one, carrying slide block 21 can drive another described carrying slide block one
The structure playing the displacement on relatively described bracer 22 occurred level direction is: one
It is located by connecting on the side of described carrying slide block 21 another described carrying slide block dorsad
One cam 23, also on described work platforms 10 and close to the position of discharge station
Location, place is provided with a block 7, and described block 7 is towards carrying slide block 21 described in one
One side be lozenges (being inclined-plane);Described cam 23 can hold with described by nationality
The movement of support plate 20 abuts against with described lozenges, and makes to carry described in one slide block
21 can touch another described carrying slide block and the position on occurred level direction together
Move.
Preferably, described slide bar is also arranged with two springs, when described cam
23 with described lozenges depart from time, these two springs are able to make to hold described in two
Carry slide block 21 elastic reset.Additionally, define described carrying slide block 21 towards feeding work
The side of position is front side, is rear side towards the opposite side of discharge station, and remaining both sides are divided
Not Wei left side and right side, wherein, on the front side and right side of described carrying slide block 21
All offer multiple storage tank 210, when carrying slide block and being subjected to displacement, be laid in institute
State the bracer on front side of carrying slide block and at right side and all correspondence can be placed in storage tank
In 210, can avoid carrying slider displacement is impacted;It addition, be laid in described
A bracer on rear side of carrying slide block and at left side is all inverted L shape, can play carrying slide block
To limit stops effect.
Claims (9)
1. a glass screen section difference detection equipment, it is characterised in that: include support
(1), in order to carry the carrier (2) of tested glass screen, in order to tested glass screen
Curtain carry out the radium-shine detection components (3) of height detection, the first actuating unit (4), with
And second actuating unit (5), wherein, the top side of described support (1) is formed
The work platforms (10) of one level, the opposite sides of described work platforms (10) is divided
Do not correspond to feeding station and discharge station;Described carrier (2) is movably set in institute
State on work platforms (10), and can be at the band of described first actuating unit (4)
Move to discharge station from feeding station under Dong;Described radium-shine detection components (3) is put
In the top of described carrier (2), and described radium-shine detection components (3) can also be
Along being perpendicular to described carrier (2) movement under the drive of described second actuating unit (5)
The direction horizontal reciprocating in direction moves, tested be opposite on described carrier (2)
Glass screen carries out height detection.
Glass screen section difference detection equipment the most according to claim 1, it is special
Levy and be: described carrier (2) is movably set on described work platforms (10),
And can under the drive of described first actuating unit (4) from feeding station to blanking
The structure that station moves is: described first actuating unit (4) includes the first servo horse
Reach (40), the first ball-screw assembly (41) and the first installation frame (42),
Wherein, described first servo motor (40) location is arranged at described work platforms (10)
On, described first ball-screw assembly (41) includes the first leading screw and is slidedly arranged on described
The first nut on first leading screw, described first leading screw from feeding station to discharge station
Extend, and put down in described work by described first installation frame (42) location and installation
On platform (10), an axle head of the most described first leading screw also by shaft coupling with described
The output shaft of the first servo motor (40) is located by connecting;
Described carrier (2) is movably set in the top of described first installation frame (42)
On side, and the most described carrier (2) is also located by connecting with described first nut.
Glass screen section difference detection equipment the most according to claim 1, it is special
Levy and be: also location is provided with two vertical stands on described work platforms (10)
(6), described second actuating unit (5) across and position be located at these two vertically vertical
The upper end of frame (6), described radium-shine detection components (3) is connected to described second power
In mechanism (5), and can be along hanging down under the drive of described second actuating unit (5)
Directly the direction horizontal reciprocating in described carrier (2) moving direction moves;
It addition, described first actuating unit (4) is also placed in this two vertical stands (6)
Between.
Glass screen section difference detection equipment the most according to claim 3, it is special
Levy and be: described radium-shine detection components (3) includes connecting support (30), Nt
(31) CCD camera (32) and with described Nt matched, wherein, institute
State connection support (30) to be connected on described second actuating unit (5), and by institute
State and connect support (30) and be defined as positive side, by described company towards the side of feeding station
Connect support (30) and be defined as dorsal part, described Nt towards the opposite side of discharge station
(31) described connection can be adjustably fixed on by the most described connection support vertical position
On support (30) dorsal part, described CCD camera (32) can be propped up in the most described connection
Frame vertical position is adjustably fixed on the positive side of described connection support (30).
Glass screen section difference detection equipment the most according to claim 4, it is special
Levy and be: described Nt (31) can the most described connection support vertical position can
The structure being fixed on described connection support (30) dorsal part with adjusting is: in described connection
Vertical strip the first chute, described Nt it is provided with on support (30) dorsal part
(31) be located by connecting on the first traveller, and described first traveller cooperation is slidedly arranged on described
In strip the first chute, and described Nt (31) is detachable also by locking part
Ground is fixed on described connection support (30) dorsal part;
Described CCD camera (32) can the most described connection support vertical position adjustable
Be fixed on the positive side of described connection support (30) structure be: prop up in described connection
Frame (30) is provided with vertical strip the second chute, described CCD camera on positive side
(32) be located by connecting on the second traveller, and described second traveller cooperation is slidedly arranged on described
In strip the second chute, and described CCD camera (32) is removable also by locking part
It is fixed on unloading on the positive side of described connection support (30).
Glass screen section difference detection equipment the most according to claim 4, it is special
Levy and be: described radium-shine detection components (3) can be described second actuating unit (5)
Drive under move along the direction horizontal reciprocating being perpendicular to described carrier (2) moving direction
Dynamic structure is: described second actuating unit (5) include the second servo motor (50),
Second ball-screw assembly (51) and the second installation frame (52), wherein, institute
State the second servo motor (50) location and be arranged at the upper of vertical stand (6) described in
On end, described second ball-screw assembly (51) includes the second leading screw and is slidedly arranged on institute
Stating the second nut on the second leading screw, described second leading screw is along being perpendicular to described carrier
(2) direction of moving direction is horizontal-extending, and by described second installation frame (52)
Between the upper end being set up in these two vertical stands (6), and the most described
One axle head of two leading screws is defeated also by shaft coupling and described second servo motor (50)
Shaft is located by connecting;Described second nut is towards feeding station, and described second nut
Also it is located by connecting with the described dorsal part being connected support (30).
Glass screen section difference detection equipment the most according to claim 2, it is special
Levy and be: described carrier (2) includes loading plate (20) and two carryings slide block (21),
Described loading plate (20) is movably set in the top side of described first installation frame (42)
On, the most described loading plate (20) is also located by connecting with described first nut;These are two years old
Individual carrying slide block (21) is laid in described loading plate (20) the most described first side by side
On the upper surface of installation frame (42), and these two carry the most each point of slide block (21)
It is not articulated with by a rotating shaft on the upper surface of described loading plate (20);Additionally often
The periphery carrying slide block (21) described in one is also arranged at intervals with multiple tested in order to support
A bracer (22) of glass screen, the top of the plurality of bracer (22) all exceeds
In the upper surface of described carrying slide block (21) so that described carrying slide block (21) with
Tested glass screen does not contacts;When described loading plate (20) is at described first engine
When moving to discharge station under the drive of structure (4), wherein described in one, carry slide block (21)
Can drive another described carrying slide block the most described bracer (22) that water occurs
Displacement square upwards, and two described carrying slide blocks (21) remain able to the most respectively
The elastic reset power resetted.
Glass screen section difference detection equipment the most according to claim 7, it is special
Levy and be: be provided with one in the upper location of described loading plate (20) along being perpendicular to described the
The slide bar that the direction of one leading screw length direction is horizontal-extending, these two carryings slide block (21)
Each being matched with described slide bar by a sliding shaft sleeve the most respectively is slidably connected, and wherein one
Described carrying slide block (21) can drive another described carrying slide block the most described
The structure propping up the displacement on bracer (22) occurred level direction is: carrying described in one
Be located by connecting on the side of slide block (21) another described carrying slide block dorsad a cam
(23), also upper at described work platforms (10) and position close to discharge station
Location, place is provided with a block (7), and described block (7) is sliding towards carrying described in
The one side of block (21) is lozenges;Described cam (23) can hold with described by nationality
The movement of support plate (20) abuts against with described lozenges, and makes carrying described in sliding
Block (21) can touch another described carrying slide block and together on occurred level direction
Displacement.
Glass screen section difference detection equipment the most according to claim 8, it is special
Levy and be: on described slide bar, be also arranged with two springs, these two springs energy respectively
Enough make two described carrying slide block (21) elastic resets.
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CN201610408237.2A CN105865353B (en) | 2016-06-12 | 2016-06-12 | Glass screen segment difference detection device |
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CN201610408237.2A CN105865353B (en) | 2016-06-12 | 2016-06-12 | Glass screen segment difference detection device |
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CN111928778A (en) * | 2020-08-28 | 2020-11-13 | 苏州天准科技股份有限公司 | Detection device and electronic product part detection system |
CN113587818A (en) * | 2021-08-30 | 2021-11-02 | 苏州天准科技股份有限公司 | Detection device and detection method for 3C product |
CN114798457A (en) * | 2022-07-01 | 2022-07-29 | 苏州鼎纳自动化技术有限公司 | PAD metal backboard flatness and section difference detection equipment |
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