CN206362948U - Intelligent synchronization lifts detecting system - Google Patents
Intelligent synchronization lifts detecting system Download PDFInfo
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- CN206362948U CN206362948U CN201621476468.9U CN201621476468U CN206362948U CN 206362948 U CN206362948 U CN 206362948U CN 201621476468 U CN201621476468 U CN 201621476468U CN 206362948 U CN206362948 U CN 206362948U
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Abstract
The utility model is related to the intelligent synchronization lifting detecting system of automation equipment field, including actuated by cams elevating mechanism and testing agency, testing agency is arranged on actuated by cams elevating mechanism, driven by actuated by cams elevating mechanism and carry out elevating movement, actuated by cams elevating mechanism includes left lifting seat, right lifting seat and detection bar, left lifting seat is structure identical bilateral symmetry with right lifting seat, left lifting seat includes left mounting seat, left rail and left cam lifting assembly, testing agency includes detection main body and inductive component, testing agency is directly installed on the transverse link of detection bar when using, transverse link is driven to synchronize lifting jointly by left cam lifting assembly and right cam lifting assembly, testing agency is set to realize synchronous detection operation, driven using cam drive structure, any electronic component need not be set, also without other arrangement circuit, overall structure is compact simple, manufacturing cost is low, occupy little space.
Description
Technical field
The utility model is related to automation equipment field, and in particular to detection device, more particularly to intelligent synchronization lifting inspection
Examining system.
Background technology
Some detection devices are often supported the use in Intelligent assembly platform, with detect each operation product quality or
The detection device used required for corresponding relevant standard value, different production lines or different technique is differed, and has detection
Outward appearance, there is detection performance, also there is examination criteria value.With the popularization of intelligent automation production line, for improve precision and
Operating efficiency, while in order to realize intelligent production, detection device is an indispensable part, with intelligent automation technology
Development, automatic detection is changed to by the artificial detection in conventional art, being capable of tightly phase with each link for ensuring automated production
Button.
Detection device of the prior art is supporting to be arranged on per the corresponding position of procedure, and the most of meeting of detection device
Using electronic component, while also needing to arrange circuit in addition, so, the detection device set up can increase intelligent automation and set
Standby cost of manufacture, makes the structure of automation equipment increasingly complex, causes fault rate to increase;In addition, according to automatic assembly line
Demand, also a kind of detection device, which need to be driven by drive mechanism, synchronizes action, to complete detection process, and prior art
In drive mechanism have two kinds, a kind of is the structure driven by air pressure, this simple in construction, convenient and flexible installation, still, air pressure
The precision of driving is not high, and movement velocity is slower, is extremely difficult to synchronous driving;Another is by motor-driven structure, motor
Driving needs to be equipped with complicated electric control system, if completing better simply repetitive operation with motor driving, just seems
Cost is high, and overall volume is larger, in addition, its movement velocity is very fast, when movement velocity is faster, error is larger, it is difficult to realize
Synchronization action, so as to influence kinematic error.
Utility model content
The purpose of this utility model is to solve disadvantages described above to lift detecting system there is provided intelligent synchronization, and it is used to coordinate intelligence
Can mounting plate progress real-time synchronization detection.
The purpose of this utility model is achieved in the following ways:
Intelligent synchronization lifts detecting system, including actuated by cams elevating mechanism and testing agency, and testing agency is arranged on convex
On wheel drive elevating mechanism, driven by actuated by cams elevating mechanism and carry out elevating movement, actuated by cams elevating mechanism includes left liter
Seat, right lifting seat and detection bar are dropped, and detection bar is connected between left lifting seat and right lifting seat, and left lifting seat is with right lifting seat
Structure identical bilateral symmetry, left lifting seat includes left mounting seat, left rail and left cam lifting assembly, and left rail is vertical
In left mounting seat, left rail is provided with the left slider that can be slided up and down along left rail, left cam lifting assembly position
In the front of left lifting seat, and left cam lifting assembly is contacted with left slider, for driving left slider to be lifted;Right lifting seat
Including right mounting seat, right guide rail and right cam lifting assembly, left cam lifting assembly and right cam lifting assembly are common by outer
Drive mechanism drive is put, left cam lifting assembly is realized synchronization action with right cam lifting assembly, right guide rail is vertically installed at
In right mounting seat, right guide rail is provided with the right sliding block that can be slided up and down along right guide rail, and right cam lifting assembly is located at right liter
The front of seat, and right cam lifting assembly and right shoe contact drop, for driving right sliding block to be lifted;Detection bar is by left vertical
Bar, right vertical bar and transverse link combination are constituted, the top of the left and right ends of transverse link respectively with left vertical bar and right vertical bar
Portion is attached, and testing agency is arranged on transverse link, and left vertical bar is arranged on left slider, and right vertical bar is arranged on right cunning
On block.
Testing agency includes detection main body, inductive component and dust suction subassembly, and detection main body includes the main frame being vertically arranged
With two guide rods, two guide rods are respectively the first guide rod and the second guide rod, and dust suction subassembly is combined by two-way valve and dust suction disc and constituted,
Two-way valve is connected with dust sucting motor, and two-way valve and dust suction disc are mounted on the side of main frame, and dust suction disc is logical by tracheae and two
Valve is attached, and Open Side Down for dust suction disc, and for drawing the dust on pallet, the side of main frame is provided with connecting seat, main
Frame facet is provided with trapezoidal rails, and an end of connecting seat, which is provided with, to be used to match the dovetail groove being caught in trapezoidal rails, makes company
The height that joint chair can carry out vertical direction along trapezoidal rails is adjusted, and is provided with lock screw in the side of dovetail groove, connecting seat
Bottom, which is provided with, is used for locating slot of the matched card on transverse link, drives main frame to carry out lifting action, connection by transverse link
The bottom of seat is additionally provided with cross sliding clock, and cross sliding clock can carry out horizontal direction adjustment along the bottom surface of connecting seat, and locating slot is located at water
The bottom of smooth block, two guide rods are penetrated in main frame vertically in parallel to each other, and two guide rods can be carried out along along main frame
Main frame is extended up through at the top of lower action, two guide rods;Inductive component includes mounting bracket, optoelectronic switch and detection
Plate, optoelectronic switch is installed by mounting bracket, and mounting bracket is installed in the top of the first guide rod, detection with optoelectronic switch
Plate is arranged on the top of the second guide rod, optoelectronic switch alignment detection plate, for detecting whether detection plate produces difference in height, two
The bottom of guide rod extends downwardly through main frame, and the bottom of the first guide rod is connected and installed with benchmark test contact, the second guide rod
Bottom is connected and installed with dynamic test contact;When left cam lifting assembly and right cam lifting assembly synchronization action, so as to drive
Detection bar is lifted, meanwhile, testing agency is also detected measuring staff drive and lifted, when testing agency is driven decline, moves and surveys
Contact is tried with benchmark test contact to measured workpiece, can now drive two guide rods to act upwards, so as to drive photoelectricity to open
Close and detection plate is acted upwards.
In described above, as preferred scheme, the left cam lifting assembly includes left gear seat, revolver tooth axle, a left side
Cam and left rocking bar, revolver tooth axle are engaged with external drive mechanism, drive revolver tooth axle to rotate by external drive mechanism, left
Cam is attached with revolver tooth axle, and left cam is installed in the front end of left gear seat with revolver tooth axle, and the middle part of left rocking bar can
The rear end of left gear seat, the front end of left rocking bar and left cam contact are rotatably mounted at, by left cam driven, the rear end of left rocking bar
Provided with left wheel, left wheel can be rolled along the bottom surface of left slider, drive left cam rotation when revolver tooth axle is rotated, a left side is shaken
The front end of bar is swung by left cam driven, while tilting above and below the rear end progress of left rocking bar, so as to drive left slider to carry out
Elevating movement;The right cam lifting assembly includes right gear seat, right wheel tooth axle, right cam and right rocking bar, right wheel tooth axle with outside
Put drive mechanism to be engaged, drive right wheel tooth axle to rotate by external drive mechanism, right cam is attached with right wheel tooth axle, it is right
Cam, which is installed in right wheel tooth axle in the middle part of the front end of right gear seat, right rocking bar, to be installed in rotation on after right gear seat
End, the front end of right rocking bar and right cam contact, by right cam driven, the rear end of right rocking bar is provided with right roller, and right roller can be along the right side
The bottom surface of sliding block is rolled, and right cam rotation is driven when right wheel tooth axle is rotated, and the front end of right rocking bar is entered by right cam driven
Row is swung, while tilting above and below the rear end progress of right rocking bar, so as to drive right sliding block to carry out elevating movement.
In described above, as preferred scheme, the dynamic test contact is located at the top of benchmark test contact, moves test
The bottom of contact is provided with measurement bar, and benchmark test contact, which is provided with, to be used to match the open-work for penetrating measurement bar.
In described above, as preferred scheme, two guide rods are equipped with two spacing rings, and two spacing rings include
Upper limit ring and lower limit ring, upper limit ring are used for the upward position for limiting two guide rods, and lower limit ring, which is used for restriction two, leads
The downstream position of bar.
In described above, as preferred scheme, sub-barrier, two are provided between the upper limit ring and lower limit ring
Guide rod both passes through sub-barrier.
In described above, as preferred scheme, left cam lifting assembly or right cam lifting assembly the connection peace
Equipped with angular encoder.
In described above, as preferred scheme, the dust suction disc is attached by the supporting plate extended obliquely, branch
The top of fagging is provided with vertically oriented plate, and vertically oriented plate is fixed on the side of main frame, and the bottom of supporting plate is fixed provided with level
Position plate, dust suction disc is vertically mounted on horizontal location plate.
Having the beneficial effect that produced by the utility model:
1)Actuated by cams elevating mechanism is made up of left lifting seat, right lifting seat and detection bar, left lifting seat and right lifting seat
Common to drive detection bar to carry out elevating movement, testing agency is directly installed on the transverse link of detection bar when using, convex by a left side
Wheel lifting assembly and right cam lifting assembly drive transverse link to synchronize lifting jointly, testing agency is realized synchronous inspection
Survey is acted, and left cam lifting assembly and right cam lifting assembly are driven by external drive mechanism jointly, using cam drive knot
Structure drives, it is not necessary to set any electronic component, it is not required that arrange circuit in addition, and overall structure is compact simple, manufacturing cost
It is low, occupy little space, cam drive structure is used to coordinate Intelligent assembly platform, and overall stable transmission, fault rate is minimum, can be achieved
Assembling and the synchronization action of detection, it is ensured that per pass assembly process can be completed precisely, it is ensured that work pieces process and the pass rate of assembling;
2)Testing agency is used for mounted in pairing mode in the detection bar of actuated by cams elevating mechanism, and detection machine is driven by detection bar
Structure integrally carries out lifting action, when the detection bar lifting of actuated by cams elevating mechanism, drives testing agency to synchronize lifting,
To complete detection operation, testing agency can carry out the adjustment of horizontal direction and vertical direction, to adapt to the inspection of different station pallet
Survey, coordinated by two guide rods and inductive component, during substantially devoting oneself to work, testing agency is integrally driven down by detection bar
Drop, when moving test contact during testing agency declines with benchmark test contact to when being tested pallet, can now drive two
Root guide rod is acted upwards, so as to drive optoelectronic switch and detection plate to act upwards, the position between optoelectronic switch and detection plate is
It is set in advance, if action causes different from setting position upwards for two guide rods, difference in height can be produced, optoelectronic switch can be examined
Measure this change, therefore, when optoelectronic switch, which is detected, to be changed, system then think correspondence station pallet have debris or
Dust, that is, it is not cleared, then start dust suction disc to draw the dust on pallet and workbench, conversely, working as optoelectronic switch
Can't detect when changing, system then thinks that the pallet of correspondence station does not have debris, finally, after the completion of testing agency's detection then by
Detection bar, which drives to rise, to be resetted, and whole detection process is convenient and swift, can continuously detect correspondence support on each station
Whether disk empties, but also can be cleaned, and the scope of application widely, is particularly suitable for use in Intelligent assembly platform, it is ensured that intelligence
Energy mounting plate has good precision and stability in assembling process, in addition, whole testing agency need not set any
Various failures, will not occur because of circuit question in electronic component, it is not required that arrange circuit in addition.
Brief description of the drawings
Fig. 1 is the part-structure exploded pictorial of the utility model embodiment;
Fig. 2 is the dimensional structure diagram of the utility model embodiment convexity wheel drive elevating mechanism;
Fig. 3 is the dimensional structure diagram of testing agency in the utility model embodiment;
In figure, 1 is actuated by cams elevating mechanism, and 2 be testing agency, and 101 be left lifting seat, and 102 be right lifting seat, 103
It is right vertical bar for left vertical bar, 104,105 be transverse link, and 106 be angular encoder, and 107 be left gear seat, and 108 be a left side
Gear teeth axle, 109 be left rocking bar, and 110 be right gear seat, and 111 be right wheel tooth axle, and 112 be right rocking bar, and 201 be main frame, and 202 are
First guide rod, 203 be the second guide rod, and 204 be upper limit ring, and 205 be test contact on the basis of lower limit ring, 206, and 207 are
Test contact, 208 be measurement bar, and 209 be mounting bracket, and 210 be optoelectronic switch, and 211 be detection plate, and 212 be connecting seat, 213
It is cross sliding clock for locating slot, 214,215 be two-way valve, and 216 be dust suction disc, and 217 be supporting plate, and 218 be trapezoidal rails.
Embodiment
The utility model is described in further detail with embodiment below in conjunction with the accompanying drawings.
The present embodiment, 1~Fig. 3 of reference picture, its intelligent synchronization being embodied lifting detecting system includes actuated by cams liter
Descending mechanism 1 and testing agency 2, testing agency 2 are arranged on actuated by cams elevating mechanism 1, are driven by actuated by cams elevating mechanism 1
Carry out elevating movement.
As shown in Fig. 2 actuated by cams elevating mechanism 1 includes left lifting seat 101, right lifting seat 102 and detection bar, detection bar
It is connected between left lifting seat 101 and right lifting seat 102, left lifting seat 101 is structure identical or so pair with right lifting seat 102
Claim structure, left lifting seat 101 includes left mounting seat, left rail and left cam lifting assembly, and left cam lifting assembly connection is installed
Angled encoder 106, left rail is vertically installed in left mounting seat, and left rail is provided with and can slided up and down along left rail
Left slider, left cam lifting assembly is located at the front of left lifting seat 101, and left cam lifting assembly contacts with left slider, use
Lifted in driving left slider;Right lifting seat 102 includes right mounting seat, right guide rail and right cam lifting assembly, left cam liter
Come down to a lower group part and right cam lifting assembly is driven by external drive mechanism jointly, make left cam lifting assembly and right cam lifting group
Part realizes synchronization action, and right guide rail is vertically installed in right mounting seat, and right guide rail is provided with and can slided up and down along right guide rail
Right sliding block, right cam lifting assembly is located at the front of right lifting seat 102, and right cam lifting assembly and right shoe contact, uses
Lifted in driving right sliding block;Detection bar is made up of the combination of left vertical bar 103, right vertical bar 104 and transverse link 105, horizontal
It is attached to top of the left and right ends of connecting rod 105 respectively with left vertical bar 103 and right vertical bar 104, testing agency 2 installs
On transverse link 105, left vertical bar 103 is arranged on left slider, and right vertical bar 104 is arranged on right sliding block.
As shown in Fig. 2 left cam lifting assembly includes left gear seat 107, revolver tooth axle 108, left cam and left rocking bar
109, revolver tooth axle 108 is engaged with external drive mechanism, drives revolver tooth axle 108 to rotate by external drive mechanism, left convex
Wheel is attached with revolver tooth axle 108, and left cam is installed in the front end of left gear seat 107, left rocking bar with revolver tooth axle 108
109 middle part is installed in rotation on the rear end of left gear seat 107, front end and the left cam contact of left rocking bar 109, by left cam
Drive, the rear end of left rocking bar 109 is provided with left wheel, left wheel can be rolled along the bottom surface of left slider, when 108 turns of revolver tooth axle
Left cam rotation is driven when dynamic, the front end of left rocking bar 109 is swung by left cam driven, while the rear end of left rocking bar 109 is entered
Tilting above and below row, so as to drive left slider to carry out elevating movement.Right cam lifting assembly includes right gear seat 110, right wheel tooth axle
111st, right cam and right rocking bar 112, right wheel tooth axle 111 are engaged with external drive mechanism, are driven by external drive mechanism right
Gear teeth axle 111 is rotated, and right cam is attached with right wheel tooth axle 111, and right cam is installed in right gear seat with right wheel tooth axle 111
110 front end, the middle part of right rocking bar 112 is installed in rotation on the rear end of right gear seat 110, front end and the right side of right rocking bar 112
Cam contact, by right cam driven, the rear end of right rocking bar 112 is provided with right roller, and right roller can be rolled along the bottom surface of right sliding block
It is dynamic, right cam rotation is driven when right wheel tooth axle 111 is rotated, the front end of right rocking bar 112 is swung by right cam driven, simultaneously
Tilting above and below the rear end progress of right rocking bar 112, so as to drive right sliding block to carry out elevating movement.
As shown in figure 3, testing agency 2 includes detection main body, inductive component and dust suction subassembly, detection main body includes setting vertically
The main frame 201 put and two guide rods, two guide rods are equipped with two spacing rings, two spacing rings include upper limit ring 204 and
Lower limit ring 205, upper limit ring 204 is used for the upward position for limiting two guide rods, and lower limit ring 205 is used to limit two guide rods
Downstream position.Two guide rods are respectively the first guide rod 202 and the second guide rod 203, and dust suction subassembly is by two-way valve 215 and dust suction disc
216 combinations are constituted, and two-way valve 215 is connected with dust sucting motor, and two-way valve 215 and dust suction disc 216 are mounted on the side of main frame 201
Face, dust suction disc 216 is attached by tracheae with two-way valve 215, and Open Side Down for dust suction disc 216, for drawing pallet
Dust, dust suction disc 216 is attached by the supporting plate 217 extended obliquely, and the top of supporting plate 217 is provided with vertically oriented
Plate, vertically oriented plate is fixed on the side of main frame 201, and the bottom of supporting plate 217 is provided with horizontal location plate, and dust suction disc 216 hangs down
Directly it is arranged on horizontal location plate.The side of main frame 201 is provided with connecting seat 212, and the side of main frame 201 is provided with trapezoidal rails
218, an end of connecting seat 212, which is provided with, to be used to match the dovetail groove being caught in trapezoidal rails 218, connecting seat is led along trapezoidal
Rail carries out the height adjustment of vertical direction, and is provided with lock screw in the side of dovetail groove, and the bottom of connecting seat 212, which is provided with, to be used for
Locating slot 213 of the matched card on transverse link 105, the bottom of connecting seat 212 is additionally provided with cross sliding clock 214, cross sliding clock 214
Horizontal direction adjustment can be carried out along the bottom surface of connecting seat 212, locating slot 213 is located at the bottom of cross sliding clock 214, by transverse link
105 drive main frame 201 to carry out lifting action, and two guide rods are penetrated in main frame 201 vertically in parallel to each other, and two guide rods
It can be moved up and down along along main frame 201, main frame 201 is extended up through at the top of two guide rods.Inductive component includes
Mounting bracket 209, optoelectronic switch 210 and detection plate 211, optoelectronic switch 210 are installed by mounting bracket 209, install branch
Frame 209 is installed in the top of the first guide rod 202 with optoelectronic switch 210, and detection plate 211 is arranged on the top of the second guide rod 203,
Optoelectronic switch 210 is directed at detection plate 211, and for detecting whether detection plate 211 produces difference in height, the bottom of two guide rods is downward
Main frame 201 is extended through, the bottom of the first guide rod 202 is connected and installed with benchmark test contact 206, the bottom of the second guide rod 203
Portion is connected and installed with dynamic test contact 207, moves the top that test contact 207 is located at benchmark test contact 206, moves test contact
207 bottom is provided with measurement bar 208, and benchmark test contact 206, which is provided with, to be used to match the open-work for penetrating measurement bar 208.
When left cam lifting assembly and right cam lifting assembly synchronization action, so as to drive detection bar to be lifted, together
When, testing agency 2 is also detected measuring staff drive and lifted, when testing agency 2 is driven decline, moves test contact 207 and benchmark
Test contact 206 touches measured workpiece, can now drive two guide rods to act upwards, so as to drive optoelectronic switch 210 and inspection
Drafting board 211 is acted upwards, to complete detection operation.Testing agency 2 can carry out the adjustment of horizontal direction and vertical direction, to adapt to
The detection of different station pallet, is coordinated, during substantially devoting oneself to work, testing agency 2 is whole by two guide rods and inductive component
Body is driven by detection bar to be declined, and move test contact 207 during testing agency 2 declines touches with benchmark test contact 206
During tested pallet, two guide rods can be now driven to act upwards, so that drive optoelectronic switch 210 and detection plate 211 to act upwards,
Position between optoelectronic switch 210 and detection plate 211 is set in advance, if action causes and setting position two guide rods upwards
Difference is put, then can produce difference in height, optoelectronic switch 210 can detect this change, therefore, when optoelectronic switch 210 has been detected
During change, system then thinks that the pallet of correspondence station has debris or dust, that is, is not cleared, then starts dust suction disc
216 draw the dust on pallet and workbench, conversely, when optoelectronic switch 210 can't detect and change, and system then thinks pair
Answering the pallet of station does not have debris, finally, and testing agency 2 then is driven to rise after the completion of detecting by detection bar to be resetted, entirely
Detection process is convenient and swift, can continuously detect whether correspondence pallet empties on each station, but also can carry out clear
Clean, the scope of application widely, is particularly suitable for use in Intelligent assembly platform, it is ensured that Intelligent assembly platform has good in assembling process
Good precision and stability, in addition, whole testing agency need not set any electronic component, it is not required that deployment line in addition
Various failures, will not occur because of circuit question in road.
Above content is to combine specific preferred embodiment further detailed description of the utility model, it is impossible to recognized
Fixed specific implementation of the present utility model is confined to these explanations.For the ordinary skill people of the utility model art
For member, without departing from the concept of the premise utility, some simple deduction or replace can also be made, be regarded as this
The protection domain of utility model.
Claims (5)
1. intelligent synchronization lifts detecting system, including actuated by cams elevating mechanism and testing agency, testing agency is arranged on cam
Drive on elevating mechanism, driven by actuated by cams elevating mechanism and carry out elevating movement, actuated by cams elevating mechanism includes left lifting
Seat, right lifting seat and detection bar, detection bar are connected between left lifting seat and right lifting seat, it is characterised in that:Left lifting seat with
Right lifting seat is structure identical bilateral symmetry, and left lifting seat includes left mounting seat, left rail and left cam lifting assembly,
Left rail is vertically installed in left mounting seat, and left rail is provided with the left slider that can be slided up and down along left rail, left cam
Lifting assembly is located at the front of left lifting seat, and left cam lifting assembly is contacted with left slider, for driving left slider to be risen
Drop;Right lifting seat includes right mounting seat, right guide rail and right cam lifting assembly, left cam lifting assembly and right cam lifting assembly
Driven jointly by external drive mechanism, left cam lifting assembly is realized synchronization action, left cam with right cam lifting assembly
Lifting assembly or right cam lifting assembly are connected and installed with angular encoder, and right guide rail is vertically installed in right mounting seat, right
Guide rail is provided with the right sliding block that can be slided up and down along right guide rail, and right cam lifting assembly is located at the front of right lifting seat, and
Right cam lifting assembly and right shoe contact, for driving right sliding block to be lifted, left mounting seat and right mounting seat are L-shaped knot
Structure, left mounting seat and right mounting seat are connected and composed by horizontal fixed seat and vertical slide;Detection bar is vertical by left vertical bar, the right side
Bar and transverse link combination are constituted, and the top of the left and right ends of transverse link respectively with left vertical bar and right vertical bar is connected
Connect, testing agency is arranged on transverse link, left vertical bar is arranged on left slider, right vertical bar is arranged on right sliding block;Inspection
Surveying mechanism includes detection main body, inductive component and dust suction subassembly, and detection main body includes the main frame and two guide rods being vertically arranged,
Two guide rods are respectively the first guide rod and the second guide rod, and dust suction subassembly is combined by two-way valve and dust suction disc and constituted, two-way valve connection
There is dust sucting motor, two-way valve and dust suction disc are mounted on the side of main frame, and dust suction disc is attached by tracheae with two-way valve,
And Open Side Down for dust suction disc, for drawing the dust on pallet, dust suction disc is attached by the supporting plate extended obliquely,
The top of supporting plate is provided with vertically oriented plate, and vertically oriented plate is fixed on the side of main frame, and the bottom of supporting plate is provided with level
Location-plate, dust suction disc is vertically mounted on horizontal location plate;The side of main frame is provided with connecting seat, and the side of main frame is provided with ladder
Shape guide rail, an end of connecting seat, which is provided with, to be used to match the dovetail groove being caught in trapezoidal rails, makes connecting seat can be along trapezoidal rails
The height adjustment of vertical direction is carried out, and lock screw is provided with the side of dovetail groove, the bottom of connecting seat, which is provided with, to be used to match
The locating slot on transverse link is stuck in, drives main frame to carry out lifting action by transverse link, the bottom of connecting seat is additionally provided with water
Smooth block, cross sliding clock can carry out horizontal direction adjustment along the bottom surface of connecting seat, and locating slot is located at the bottom of cross sliding clock, two
Guide rod is penetrated in main frame vertically in parallel to each other, and two guide rods can be moved up and down along along main frame, two guide rods
Top extends up through main frame;Inductive component includes mounting bracket, optoelectronic switch and detection plate, and optoelectronic switch is by installing
Support is installed, and mounting bracket is installed in the top of the first guide rod with optoelectronic switch, and detection plate is arranged on the second guide rod
Top, optoelectronic switch alignment detection plate, for detecting whether detection plate produces difference in height, the bottom of two guide rods is extended downwardly
Through main frame, the bottom of the first guide rod is connected and installed with benchmark test contact, and the bottom of the second guide rod is connected and installed with dynamic survey
Try contact;When left cam lifting assembly and right cam lifting assembly synchronization action, so as to drive detection bar to be lifted, together
When, testing agency is also detected measuring staff drive and lifted, when testing agency is driven decline, moves test contact and is touched with benchmark test
Head touches measured workpiece, can now drive two guide rods to act upwards, so as to drive optoelectronic switch and detection plate to act upwards.
2. intelligent synchronization lifts detecting system according to claim 1, it is characterised in that:The left cam lifting assembly includes
Left gear seat, revolver tooth axle, left cam and left rocking bar, revolver tooth axle is engaged with external drive mechanism, by external driving machine
Structure drives revolver tooth axle to rotate, and left cam is attached with revolver tooth axle, and left cam is installed in left gear seat with revolver tooth axle
Front end, the rear end of left gear seat, the front end of left rocking bar and left cam contact are installed in rotation in the middle part of left rocking bar, by a left side
Cam driven, the rear end of left rocking bar is provided with left wheel, and left wheel can be rolled along the bottom surface of left slider, when revolver tooth axle is rotated
When drive left cam rotation, the front end of left rocking bar is swung by left cam driven, at the same left rocking bar rear end carry out on have a downwarp
It is dynamic, so as to drive left slider to carry out elevating movement;The right cam lifting assembly includes right gear seat, right wheel tooth axle, right cam
With right rocking bar, right wheel tooth axle is engaged with external drive mechanism, drives right wheel tooth axle to rotate by external drive mechanism, right cam
It is attached with right wheel tooth axle, right cam is installed in the front end of right gear seat with right wheel tooth axle, the middle part of right rocking bar is rotatable
Ground is arranged on the rear end of right gear seat, the front end of right rocking bar and right cam contact, and by right cam driven, the rear end of right rocking bar is provided with
Right roller, right roller can be rolled along the bottom surface of right sliding block, and right cam rotation is driven when right wheel tooth axle is rotated, right rocking bar
Front end is swung by right cam driven, while tilting above and below the rear end progress of right rocking bar, so as to drive right sliding block to be lifted
Motion.
3. intelligent synchronization lifts detecting system according to claim 1, it is characterised in that:The dynamic test contact is located at benchmark
The top of test contact, the bottom for moving test contact is provided with measurement bar, and benchmark test contact is provided with and penetrates measurement for pairing
The open-work of bar.
4. intelligent synchronization lifts detecting system according to claim 1, it is characterised in that:Two guide rods are equipped with two
Spacing ring, two spacing rings include upper limit ring and lower limit ring, and upper limit ring is used for the upward position for limiting two guide rods, under
Spacing ring is used for the downstream position for limiting two guide rods.
5. intelligent synchronization lifts detecting system according to claim 4, it is characterised in that:The upper limit ring and lower limit ring
Between be provided with sub-barrier, two guide rods both pass through sub-barrier.
Priority Applications (1)
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CN201621476468.9U CN206362948U (en) | 2016-12-30 | 2016-12-30 | Intelligent synchronization lifts detecting system |
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CN201621476468.9U CN206362948U (en) | 2016-12-30 | 2016-12-30 | Intelligent synchronization lifts detecting system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106707358A (en) * | 2016-12-30 | 2017-05-24 | 湖南先步信息股份有限公司 | Intelligent synchronous lifting detection system |
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2016
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106707358A (en) * | 2016-12-30 | 2017-05-24 | 湖南先步信息股份有限公司 | Intelligent synchronous lifting detection system |
CN106707358B (en) * | 2016-12-30 | 2018-12-18 | 湖南先步信息股份有限公司 | Intelligent synchronization goes up and down detection system |
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