CN208196311U - A kind of automatic processing apparatus of continuous load sample - Google Patents
A kind of automatic processing apparatus of continuous load sample Download PDFInfo
- Publication number
- CN208196311U CN208196311U CN201820777249.7U CN201820777249U CN208196311U CN 208196311 U CN208196311 U CN 208196311U CN 201820777249 U CN201820777249 U CN 201820777249U CN 208196311 U CN208196311 U CN 208196311U
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- positioning
- load sample
- slide unit
- workpiece
- product carrier
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Abstract
The utility model discloses a kind of automatic processing apparatus of continuous load sample, comprising: pedestal;Operating mechanism;First slide unit, the second slide unit, telescoping drive mechanism, the first rotary drive mechanism;Product carrier;Second slide unit or so either side is provided with one first support, first support is provided centrally with a connecting seat, it is provided with one second rotating seat on the attachment base, one second elevating mechanism is provided on second rotating seat, a load sample head is provided on the lift side of second elevating mechanism;A load sample mechanism and a conveying mechanism are at least provided on the pedestal, the load sample head is selectively docked with the delivery end of the load sample mechanism;The telescoping drive mechanism level is slidably arranged in the station front and rear sides, the utility model solve processing unit (plant) can not continuous automatic production the technical issues of.
Description
Technical field
The utility model relates to automate processing technique field, more specifically, continuously add the utility model relates to a kind of
The automatic processing apparatus of load sample product.
Background technique
Existing machinery process equipment, such as grinding machine, cutting off machine, dispenser usually pass through uniaxial driving or multiaxis
The operating head of driving carries out corresponding process operation, will be equipped with the operating head of operating member, mobile in components to be processed
On, to carry out corresponding operating to components.
Especially in traditional Milling Process technique, the locating piece location and installation for needing to have clamping into workpiece to be processed exists
On processing unit (plant), by first processing a benchmark of workpiece, the datum level that then processes according to preceding process or hole location into
Row positioning or conversion benchmark, then carry out single-sided process, after the completion of single-sided process, need to take out workpiece and reinstall to one
In a locating piece, the processing of another single side is carried out.
This process equipment is disadvantageous in that:
1, each single-sided process requires replacement locating piece, and positioning is reinstalled in workpiece taking-up, has interrupted and has added to workpiece
The continuity of work causes the decline to work pieces process efficiency, meanwhile, repeatedly installation positioning also leads to final portion after processing is completed
Part mismachining tolerance increases, and causes the reduction of component qualification rate;
2, it cannot achieve the continuous load sample to workpiece to be processed, to further reduced processing efficiency.
Utility model content
One purpose of the utility model is to solve at least the above problems, and provide the advantages of at least will be described later.
There are one purposes to be to provide the automatic processing apparatus of continuous load sample a kind of for the utility model, realizes pair
The automation load of workpiece and uninstall process improve the continuity to work pieces process, and solving processing unit (plant) can not continuously certainly
The technical issues of dynamic metaplasia produces.
In order to realize these purposes and other advantages according to the present utility model, provide a kind of continuous load sample from
Dynamicization processing unit (plant), comprising:
Pedestal is mounted on board, and one first Z axis mechanical arm is at least provided on the pedestal, is set on the pedestal
It is equipped with a Y-axis guide rail;
Operating mechanism is disposed longitudinally on the mobile terminal of the first Z axis mechanical arm;
First slide unit, movement are arranged in the Y-axis guide rail, and an X-axis guide rail is provided on first slide unit, described
Sliding is provided with one second slide unit in X-axis guide rail, and second slide unit is provided centrally with one first rotating seat, first rotation
It is provided with one first elevating mechanism on seat, a station, the station are provided on the lift side of first elevating mechanism
On be provided with several locating pieces, be respectively arranged with a flexible driving machine on second slide unit of the station front and rear sides
Structure is provided with one first rotary drive mechanism on the telescopic end of the telescoping drive mechanism;And
Product carrier is mounted on the station by the locating piece, the diagonal outside of the product carrier first
A first positioning hole is opened up on wall, and a second location hole, the flexible drive are opened up on the diagonal lateral wall of the product carrier second
The telescopic head of motivation structure is selectively extend into the first positioning hole and second location hole;
Wherein, described second slide unit or so either side is provided with one first support, and first support is provided centrally with one
Attachment base is provided with one second rotating seat on the attachment base, one second elevating mechanism, institute is provided on second rotating seat
It states and is provided with a load sample head on the lift side of the second elevating mechanism;
A load sample mechanism and a conveying mechanism are at least provided on the pedestal, the load sample mechanism is arranged in the Y-axis
Any side before and after guide rail, the mounting height of the load sample mechanism is not less than the mounting height of second elevating mechanism, described
Load sample head is selectively docked with the delivery end of the load sample mechanism;
The telescoping drive mechanism level is slidably arranged in the station front and rear sides, the cunning of the telescoping drive mechanism
Dynamic direction is parallel with the Y-axis guide rail, and the maximum sliding length of the telescoping drive mechanism is greater than the length of second slide unit,
The conveying mechanism is arranged in second slide unit or so any side, and the height of the conveying mechanism is between the flexible drive
Between motivation structure and second slide unit.
Preferably, the Y-axis guide rail is arranged on the first Z axis mechanical arm lower end, the Y-axis guide rail at least sliding and sets
It is equipped with first slide unit;First slide unit is arranged in the Y-axis guide rail by the way that a Y-axis driving mechanism is mobile, institute
It states the first slide unit bottom and is provided with a first locking mechanism for being locked in first slide unit in the Y-axis guide rail;
Second slide unit is arranged in the X-axis guide rail by the way that an X-axis driving mechanism is mobile, second slide unit bottom
It is provided with a second locking mechanism for being locked in second slide unit in the X-axis guide rail.
Preferably, an erecting bed, the erecting bed center are provided on the station on the inside of each locating piece
Hollow out, through opening up one for installing the positioning chamber of workpiece, first opening of positioning chamber is set up for the product carrier centre
On the erecting bed, a retaining mechanism that can be screwed into the positioning chamber is provided on the product carrier.
Preferably, several positioning tables are vertically arranged on the station, the positioning table upper end protrusion is provided with certain
Position pillar, the locating piece are made of positioning table and positioning pillars, and the outer diameter of the positioning table is greater than the outer of the positioning pillars
Diameter, one second rotary drive mechanism is vertically arranged in the positioning pillars, and the rotation of second rotary drive mechanism is axial
On extend the positioning pillars certain distance, the rotation axis of second rotary drive mechanism is biased to the erecting bed setting,
And a sectorial block is horizontally arranged in the rotation axis of second rotary drive mechanism, the length of the sectorial block is between described fixed
Between the radius and diameter of position pillar.
Preferably, longitudinally run through on the product carrier and open up several third location holes, the internal diameter of the third location hole
Between the positioning pillars and the outer diameter of positioning table, it is described fixed that the product carrier is mounted on by the third location hole
On the platform of position.
Preferably, the described first diagonal side wall center position is movably set with a both arms sliding block, and the both arms sliding block is horizontal
To place product carrier inner sidewall is run through, the both arms center extends outwardly a linkage block, and the linkage block runs through place
Product carrier lateral wall;
One first guide groove is opened up on the diagonal lateral wall of the product carrier first, the linkage block is movably arranged on described
In first guide groove, first guide groove is located at the product carrier lateral wall center of position, and described first is fixed
Position hole is arranged in linkage block lateral wall center;
Open up one second guide groove on the diagonal inner sidewall of the product carrier first, second guide groove is and described the
The diagonal arrangement of one guide groove connection, the both arms sliding block are movably arranged in second guide groove, the linkage block and institute
The diagonal center connection of both arms sliding block is stated, second guide groove is located in the product carrier inner sidewall of position
The heart, angle is corresponding with the positioning chamber within angle consistent between the both arms sliding block;
Wherein, the first positioning hole and second location hole are rectangular opening, and it is recessed to open up one in the first guiding groove sidewall
Chamber is provided with one first elastic component in the cavity, connect inside the first elastic component first end and the cavity, and described the
One elastic component second end is connect with the linkage block side wall.
Preferably, the third location hole is round hole, and the both ends of the third location hole open up a groove respectively, described
Sectorial block is movably arranged in the groove, is offered on the product carrier and is penetrated through the logical of the positioning chamber and the groove
Hole, the through-hole is vertical with the length direction of the third location hole, and the retaining mechanism is movably arranged in the through-hole;
Wherein, the retaining mechanism includes:
Shifting block is movably arranged in the through-hole, and the length of the shifting block is greater than the length of the through-hole;
Second elastic component is set on the shifting block, and the first end of second elastic component and the through-hole wall connect
It connects, second end and the shifting block of second elastic component are fixed.
Preferably, the load sample mechanism is mounted on the pedestal of the first support side, the load sample machine
Structure includes:
Pedestal, first end are provided with a third rotary drive mechanism, and the pedestal is intermediate engraved structure;
First conveyer belt, between setting in the susceptor, first conveyer belt and the third rotary drive mechanism
Connection, first conveyor width direction two sides are respectively arranged with a synchronous belt, if being equidistantly provided on the synchronous belt
Dry positioning seat, the distance between positioning seat described in each adjacent two are not less than the length of workpiece, the transport of first conveyer belt
Direction is vertical with the Y-axis guide rail;
Position adjustable board is arranged on the pedestal of first conveyor belt two sides, the position adjustable board of any side
Upper surface is arranged at intervals with several photoelectric sensors, and the photoelectric sensor is towards first transmission belt, in the position adjustable board
Be provided with a grading structure on side wall, the protrusion distance of the grading structure with first conveyer belt upper surface moving direction
It gradually increases, the distance between two described position adjustable board first ends are greater than the distance between two described position adjustable board second ends.
Preferably, load sample head bottom is connect with the lift side of second elevating mechanism, first on the load sample head
Recessing groove there are two being arranged is held, the spacing between two recessing grooves is consistent with the spacing between two synchronous belts, institute
It states load sample head first end and is selectively docked with the pedestal second end, a positioning groove, the positioning are provided on the load sample head
The length of slot is not less than the length of the workpiece, the equivalent width of the width of the locating slot and the workpiece, the locating slot
Depth be less than the thickness of the workpiece, the recessing groove is provided with the locating slot first end.
Preferably, second slide unit front and rear sides are respectively arranged with one second support, and second support upper end is lateral
It is provided with a sliding rail, the sliding rail length direction is parallel with the Y-axis guide rail, and the length of the sliding rail is greater than second slide unit
Length, outwardly protrude with the sliding rail of first support opposite side in the second slide unit certain distance, the conveying
The lower section of the sliding rail protruding end is arranged in mechanism, and the second conveyer belt run outward is provided on the conveying mechanism;
The sliding rail upper surface is provided with a guide-track groove along its length, and it is sliding that the telescoping drive mechanism bottom is provided with one
Row driving mechanism, the driving mechanism that slides are moved along the guide-track groove, and first rotary drive mechanism is arranged described
On the telescopic end of telescoping drive mechanism, the export head of first rotary drive mechanism selectively extend into the first positioning hole
In second location hole.
The utility model is include at least the following beneficial effects:
1, the installation positioning process of workpiece, the processing flow of reduction, workpiece and processing unit (plant) position fit tolerance are reduced
It is small, mismachining tolerance is reduced, product yield is improved;
2, using same a positioning block, workpiece, which is not dismantled, avoids installing the offset accumulation of workpiece position of related features again, shortens and adds
Clamping times during work reduce cumulative limit and improve clamping efficiency simultaneously;
3, the automatic rollover position fixing process to workpiece is realized, same board can carry out workpiece front-back two-sided add
Work improves the processing efficiency of workpiece;
4, it realizes the automation to workpiece continuously to load and unload, further improves processing efficiency.
The further advantage, target and feature of the utility model will be partially reflected by the following instructions, and part will also pass through
Research and practice to the utility model and be understood by the person skilled in the art.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model board;
Fig. 2 is the mounting structure schematic diagram of product carrier;
Fig. 3 is the enlarged structure schematic diagram of part A in Fig. 1;
Fig. 4 is the structural schematic diagram of product carrier when both arms sliding block does not extend out;
Fig. 5 is the structural schematic diagram of product carrier when both arms sliding block stretches out;
Fig. 6 is linkage block mounting structure schematic diagram;
The structural schematic diagram of product carrier when Fig. 7 does not extend out for shifting block;
Fig. 8 is the enlarged structure schematic diagram of part B in Fig. 7;
Fig. 9 is the structural schematic diagram of product carrier when shifting block stretches out;
Figure 10 is the enlarged structure schematic diagram of Local C in Fig. 9;
Figure 11 is the enlarged structure schematic diagram of part D in Fig. 1;
Figure 12 is the structural schematic diagram of load sample mechanism.
Specific embodiment
The following describes the utility model in further detail with reference to the accompanying drawings, to enable those skilled in the art referring to explanation
Book text can be implemented accordingly.
It should be appreciated that such as " having ", "comprising" and " comprising " term used herein do not allot one or more
The presence or addition of a other elements or combinations thereof.
As shown in figs. 1-12, a kind of automatic processing apparatus of continuous load sample, pedestal are mounted on processing unit (plant), institute
It states and is at least provided with one first Z axis mechanical arm 620 on pedestal, a Y-axis guide rail 200, the Y-axis guide rail are provided on the pedestal
200 are arranged in 620 lower end of the first Z axis mechanical arm, and operating mechanism 621 is disposed longitudinally on the first Z axis mechanical arm 620
On mobile terminal, so that operating mechanism 621 is movably arranged on 200 upper end of Y-axis guide rail, it is provided on each first Z axis mechanical arm 620
One operating mechanism 621, while movement is provided with two the first slide units 800 in the Y-axis guide rail 200, to form duplex
Position processing unit (plant), two operating mechanisms 621 carry out process operation simultaneously, improve the production efficiency of processing unit (plant).
In the present embodiment, operating mechanism 621 is carving and milling machine, mainly carries out machining, 621 lower end of operating mechanism to workpiece
It is provided with the milling cutter 622 that a workpiece is processed.
An X-axis guide rail 100 is provided on first slide unit 800, sliding is provided with one second in the X-axis guide rail 100
Slide unit 500, first slide unit 800 are arranged in the Y-axis guide rail 200 by the way that a Y-axis driving mechanism is mobile, are driven by Y-axis
Motivation structure is provided with a use in 800 bottom of the first slide unit to drive the first slide unit 800 to move in Y-axis guide rail 200
In the first locking mechanism being locked in first slide unit 800 in the Y-axis guide rail 200, when the first slide unit 800 is mobile in place
Afterwards, the first slide unit 800 is locked in Y-axis guide rail 200 by first locking mechanism, is avoided in workpiece process because of
One slide unit 800 is mobile and causes mismachining tolerance, to improve the machining accuracy of workpiece, when need to the first slide unit 800 into
When row moves again, then first locking mechanism is unclamped, the first slide unit 800 affranchises.
Similarly, second slide unit 500 is arranged in the X-axis guide rail 100 by the way that an X-axis driving mechanism is mobile, passes through X
Axis driving mechanism is provided with to drive the second slide unit 500 to move in X-axis guide rail 100 in 500 bottom of the second slide unit
One for being locked in the second locking mechanism in the X-axis guide rail 100 for second slide unit 500, when the second slide unit 500 is mobile
After in place, the second slide unit 500 is locked in X-axis guide rail 100 by second locking mechanism, is avoided in workpiece process
Mismachining tolerance is caused because the second slide unit 500 is mobile, to improve the machining accuracy of workpiece, when needing to the second slide unit
500 when being moved again, then unclamps second locking mechanism, the second slide unit 500 affranchises.
Second slide unit 500 is provided centrally with one first rotating seat 700, is provided with one on first rotating seat 700
First elevating mechanism 710, a station 530 is provided on the lift side of first elevating mechanism 710, and station 530 is fixed
The first elevating mechanism 710 lift side upper surface and moved synchronously with the second slide unit 500, that is, it is free in XYZ axis direction
It is mobile, while can be rotated synchronously with the second slide unit 500.
Several locating pieces are provided on the station 530, for 400 location and installation of product carrier of workpiece will to be equipped with
On station 530.Specifically, several positioning tables 531 are vertically arranged on the station 530,531 upper end of positioning table
Protrusion is provided with a positioning pillars 532, and locating piece is made of positioning table 531 and positioning pillars 532, outside the positioning table 531
Diameter is greater than the outer diameter of the positioning pillars 532.
Corresponding, product carrier 400 is mounted on the station 530 by the locating piece, specifically, the product
Longitudinally through several third location holes 410 are opened up on carrier 400, the internal diameter of the third location hole 410 is between positioning branch
Between column 532 and the outer diameter of positioning table 531, it is described fixed that the product carrier 400 is mounted on by the third location hole 410
On the platform 531 of position, to realize the location and installation of product carrier 400.
In the present embodiment, product carrier 400 is rectangular configuration, it is diagonal at three of product carrier 400 on offer third
Location hole 410, corresponding, in the setting of station 530, there are three locating pieces, wherein the first diagonal sum second is diagonally oppositely arranged,
Third diagonal sum the 4th is diagonally oppositely arranged, wherein does not offer third location hole, product carrier 400 at the first diagonal position
Through three locating piece location and installations on station.
Since the internal diameter of the third location hole 410 is between the positioning pillars 532 and the outer diameter of positioning table 531,
Therefore product carrier 400 complete installation after, the bottom of product carrier 400 is resisted against on positioning table 531, rather than directly with
Station 530 against, after workpiece is mounted in product carrier, can make workpiece bottom that station upper end is vacantly set,
It avoids workpiece bottom from directly contacting with station, leads to workpiece bottom stress deformation in process.
It is respectively arranged with a telescoping drive mechanism 511 on second slide unit 500 of 530 front and rear sides of station,
One first rotary drive mechanism 513 is provided on the telescopic end of the telescoping drive mechanism 511.
Specifically, 500 or so the either side of the second slide unit is provided with one first support 520, in first support 520
The heart is provided with a connecting seat 521, is provided with one second rotating seat 522 on the attachment base 521, on second rotating seat 522
It is provided with one second elevating mechanism 523, a load sample head 980 is provided on the lift side 524 of second elevating mechanism 523, is carried
Sample head 980 is moved synchronously with the second elevating mechanism 523, that is, is moved freely in XYZ axis direction.
Second slide unit, 500 front and rear sides are respectively arranged with one second support 510, and the telescoping drive mechanism 511 is horizontal
To being arranged on second support 510, the telescoping drive mechanism 511 is arranged in first rotary drive mechanism 513
On telescopic end, by the control of telescoping drive mechanism 511, cross-direction shrinkage is mobile.
Run through among the product carrier 400 and opens up one for installing the positioning chamber of workpiece, each locating piece inside
It is provided with an erecting bed 540, that is, erecting bed 540 is mounted between each locating piece, the 540 center hollow out of erecting bed,
After the product carrier 400 is installed on positioning table 531, plane is flushed with the positioning chamber first opening on positioning table 531,
Hollow out position is corresponding up and down with positioning chamber, protrudes above in erecting bed 540 and is provided with a boss 541, and boss 541 is arranged outside hollow out
In week, 541 shape of boss and the positioning chamber periphery are in the same size, and the second outer surface of workpiece is avoided to abut directly against on station,
After product carrier is installed in place, product carrier is resisted against on the erecting bed 540, and boss 541 extend into the opening of positioning chamber first
In, after workpiece is mounted in positioning chamber, bottom carries the surrounding of workpiece bottom by boss 541, avoids workpiece from positioning
Leak down in chamber, while the second outer surface of workpiece is open in the first opening of positioning chamber, does not influence to the second outer surface of workpiece
Processing.
A first positioning hole 442 is opened up on the diagonal lateral wall of the product carrier 400 first, the product carrier second is right
A second location hole 430 is opened up on the lateral wall of angle, the first diagonal side wall center position is movably set with a both arms sliding block,
Product carrier inner sidewall where the both arms sliding block extends transversely through, the both arms center extend outwardly a linkage block 441, institute
Linkage block 441 is stated through place product carrier lateral wall, and the setting of the first positioning hole 442 is in 441 outside of linkage block
On wall.
Specifically, laterally opening up one first guide groove 440 on the diagonal lateral wall of the product carrier 400 first, first is led
To slot 440 400 first diagonal sum second of length direction and product carrier it is diagonal between line direction it is consistent, the linkage block
441 are movably arranged in first guide groove 440, and first guide groove 440 is located at the place product carrier lateral wall
Center, the first positioning hole 442 are arranged in the 441 lateral wall center of linkage block.
Both arms sliding block is made of the first single armed sliding block 450 and the second single armed sliding block 420, the first single armed sliding block 450 and second
Single armed sliding block 420 is vertically formed by connecting diagonal arrangement, laterally opens up one second on the diagonal inner sidewall of the product carrier 400 first
Guide groove, second guide groove are the diagonal arrangement being connected to first guide groove 440, the both arms sliding block activity setting
In second guide groove, as shown, stretching on any side wall of 400 the first diagonal position of positioning chamber of the product carrier
It is provided with one first single armed sliding block 450, stretches on another side wall and is provided with one second single armed sliding block 420, each single armed is sliding
400 side wall center of product carrier where block extends transversely through.
The linkage block 441 is connect with the diagonal center of the both arms sliding block, when control linkage block 441 is in the first guide groove
440 it is flexible when, can drive both arms sliding block in the second guide groove stretch, second guide groove is located at the institute of position
Product carrier inner sidewall center is stated, angle is corresponding with the positioning chamber within angle consistent between the both arms sliding block, so that when double
When arm sliding block stretches out, that is, after both arms sliding block is extend into positioning chamber, docked with the workpiece being mounted in positioning chamber, and be stuck in
The pair of horns both ends of workpiece, when driving both arms sliding block to continue to stretch out, both arms sliding block is gradually another into positioning chamber by workpiece
It is diagonal mobile, it contradicts until by workpiece to another diagonal angle, so that workpiece is fixed in positioning chamber, avoids in process
Middle workpiece shakes and generates mismachining tolerance.
The telescopic head of the telescoping drive mechanism 511 selectively extend into the first positioning hole 442 and second location hole
In 430, first positioning hole 442 and second location hole 430 are rectangular opening, specifically, product carrier is mounted on behaviour when original state
Make on the locating piece on platform, control the first rotating seat 700 rotation, and adjusts the adjustable height of the first elevating mechanism 710, until
So that the telescopic head and first positioning hole 442 and second location hole 430 of the second slide unit front and rear sides telescoping drive mechanism 511 are right
Standard, the telescopic head for then controlling two sides telescoping drive mechanism 511 stretch out, until being inserted into first positioning hole 442 and the second positioning
It is subsequent to control the decline of the first elevating mechanism 710 in hole 430, until product carrier is completely disengaged with locating piece, then before and after control
The telescoping drive mechanism 511 of two sides is synchronous mobile to load sample head direction, and the load of workpiece is equipped with until moving to product carrier
The surface of sample head adjusts the direction of workpiece on load sample head, so that the product of workpiece and surface by rotating the second rotating seat
The positioning chamber face of carrier then controls the second elevating mechanism and rises, until in the positioning chamber that workpiece is fed through product carrier,
Since the depth of locating slot is less than the thickness of workpiece, workpiece can be largely fed through in positioning chamber, convenient for being slided by both arms
Block folder carries.
When workpiece by clamping in the positioning chamber in product carrier after, control telescoping drive mechanism 511 telescopic end continue
It stretches out, and as the telescopic end of telescoping drive mechanism 511 is inserted into the increasing of insertion depth in first positioning hole and second location hole
Add, push linkage block 441 to 440 medial movement of the first guide groove, that is, both arms sliding block is pushed to move into positioning chamber, until
Both arms sliding block is pushed to enter in positioning chamber, both arms sliding block is docked with the workpiece being mounted in positioning chamber, and is stuck in the one of workpiece
Diagonal both ends, when pushing both arms sliding block to continue to stretch out, the gradually another diagonal movement into positioning chamber by workpiece of both arms sliding block,
It contradicts until by workpiece to another diagonal angle, so that workpiece is fixed in positioning chamber, workpiece is avoided to leak from positioning chamber bottom
Out, it while avoiding workpiece shaking in process and generating mismachining tolerance.
After workpiece is loaded by product carrier, control load sample head resets, and workpiece and load sample head are detached from, and hereafter controls front and rear sides
Telescoping drive mechanism 511 it is synchronous mobile to station direction, until the product carrier for being loaded with workpiece is moved to station
Surface, third location hole and locating piece be in alignment at this time, need to only control the first elevating mechanism and rise, until
Locating piece is inserted into third location hole, and product carrier is mounted on station.
Control product carrier is moved to right above station, if deviation is located in fruit product carrier and locating piece, is then controlled
The rotation of first rotating seat 700, adjusts the position of locating piece, so that being aligned with the third location hole on product carrier, then adjusts
The product carrier for being loaded with workpiece is installed on locating piece by the adjustable height of the first elevating mechanism 710, until workpiece bottom contradicts
On boss 541.Above-mentioned is workpiece single load process.
A cavity is opened up in first guide groove, 440 side wall, one first elastic component, this implementation are provided in the cavity
In example, the first elastic component is tension spring, and the second elastic component is pressure spring, is connected inside the first elastic component first end and the cavity
It connects, the first elastic component second end is connect with 441 side wall of linkage block, specifically, 441 side wall of linkage block protrudes above setting
One convex block, inside the cavity, the first elastic component second end is connect with convex block for the convex block activity;Under normal condition, in tension spring
Under the action of, the first single armed sliding block and the second single armed sliding block are in contraction state, the first single armed sliding block and the second single armed sliding block
The non-bulging inner sidewall in product carrier in inner end, that is to say, that the first single armed sliding block and the second single armed sliding block do not extend transversely into
Into positioning chamber, workpiece is smoothly installed in positioning chamber from positioning chamber opening, when product carrier is mounted on operation
After on platform, workpiece bottom is abutted against by boss 541, and workpiece is avoided to leak out.
When telescoping drive mechanism is docked with product carrier, specifically, two telescoping drive mechanism synchronization actions of control, it will be each
From telescopic head extend into where in the corresponding first positioning hole 442 of product carrier side wall and second location hole 430, the first positioning
Hole 442 is consistent with 430 size of second location hole, wherein is respectively arranged with one in 513 export head of the first rotary drive mechanism
Rectangle joint 514 corresponding with first positioning hole 442 and second location hole 430, the telescopic head for controlling telescoping drive mechanism stretch out,
It is extend into corresponding first positioning hole 442 and second location hole 430 until by respective rectangle joint 514, first is fixed at this time
Certain buffer distance is both provided in position hole 442 and second location hole 430, it is fixed that rectangle joint 514 extend into corresponding first
In position hole 442 and second location hole 430 before certain distance, it not will push both arms sliding block and moved into positioning chamber.
After workpiece is admitted in positioning chamber, it is further continued for control rectangle connector 514 and continues to extend into corresponding first positioning
In hole 442 and second location hole 430, until pushing both arms sliding block to move into positioning chamber, and contradict on workpiece side wall, by work
Part is located in positioning chamber, while by product carrier, planar position is fixed, and avoids shaking.
Specifically, the telescopic head of telescoping drive mechanism pushes both arms sliding block to positioning cavity direction, until both arms sliding block is horizontal
To the inner sidewall certain distance for protruding from product carrier, that is to say, that the first single armed sliding block and the second single armed sliding block extend transversely into
It in positioning chamber, contradicts on workpiece side wall, workpiece is resisted against on the other two sidewalls of positioning chamber, workpiece is fixed on this and is determined
It in the chamber plane of position, avoids planar shaking, while the workpiece in switching process being avoided to leak out from the second opening of positioning chamber,
First single armed sliding block and the second single armed sliding block are laterally inward in moving process, and tension spring is stretched, when telescoping drive mechanism is shunk again
Behind position, the first single armed sliding block and the second single armed sliding block reset under tension spring effect.
In the present embodiment, a retaining mechanism that can be screwed into the positioning chamber is provided on the product carrier.Tool
Body, one second rotary drive mechanism, the rotation of second rotary drive mechanism are vertically arranged in the positioning pillars 532
Axis 533 extends upward the positioning pillars certain distance, and the rotation axis 533 of second rotary drive mechanism is biased to the peace
Platform setting is filled, one is formed and is similar to the structure of eccentric wheel, and laterally set in the rotation axis 533 of second rotary drive mechanism
It is equipped with a sectorial block 534, the length of the sectorial block 534 is between the radius and diameter of the positioning pillars 532.Normal position
When setting, since rotation axis 533 is in 532 eccentric setting of positioning pillars, sectorial block 534 is non-bulging in positioning pillars 532, avoids hindering
Positioning pillars 532 are inserted into third location hole.When rotating sectorial block 534, sectorial block 534 can be protruded from positioning pillars
532 certain distances, that is, extend transversely into third location hole.
In above-mentioned technical proposal, the third location hole 410 is round hole, and the both ends of the third location hole open up respectively
One groove 411,412, when driving sectorial block 534 to rotate, 534 outboard end activity of sectorial block is into the groove.Specifically, fixed
When the first opening down setting of chamber of position, 534 activity of sectorial block is in groove 411, when the second opening down setting of positioning chamber, fan
534 activity of shape block is in groove 412.
The through-hole for penetrating through the positioning chamber and the groove, the through-hole and the third are offered on the product carrier
The length direction of location hole is vertical, and the retaining mechanism is movably arranged in the through-hole.Specifically, the retaining mechanism packet
It includes: shifting block 414 and the second elastic component 413.Shifting block 414 is movably arranged in the through-hole, and the length of the shifting block 414 is greater than
The length of the through-hole;Second elastic component 413 is set on the shifting block 414, the first end of second elastic component 413 and institute
Through-hole wall connection is stated, the second end of second elastic component 413 and the shifting block 414 are fixed.It is pressure in the second elastic component 413
Spring, when normal condition, 414 first end of shifting block protrudes from groove certain distance, and the protrusion distance of shifting block 414 in a groove is less than
The depth of groove impacts to avoid being inserted into third location hole to positioning pillars, and 414 second end of shifting block is fully located at logical
Kong Zhong, avoids being installed in positioning chamber workpiece and impacts.When the second rotary drive mechanism driving sectorial block 534 is turned out
When, sectorial block 534 and 414 first end in contact of shifting block, and 414 second end of shifting block is pushed to extend into positioning chamber, it is each in workpiece
Diagonal side wall upper and lower ends, which respectively correspond, offers docking slot, after workpiece is installed in positioning chamber, docking slot and through-hole pair
It answers, docking slot ecto-entad is gradually obliquely installed to workpiece outside, when 414 second end of shifting block is extend into positioning chamber, is dialled
414 second end of block is extend into corresponding docking slot, as shifting block 414 continues to protrude into docking slot, due to docking groove
Hole ecto-entad is gradually tilted down to inclination on the outside of workpiece, that is, docking slot outboard end, therefore stretching with shifting block 414
Enter, shifting block 414 is oppressed entire workpiece and moved down, that is, workpiece is open to positioning chamber first and is pressed, until workpiece is complete
It is resisted against on boss 541, workpiece is fixed in positioning chamber, workpiece axial clearance in positioning is strong is eliminated, so as to improve to work
The machining accuracy of part.During shifting block 414 stretches out, pressure spring compression, after sectorial block 534 resets, the shifting block under pressure spring effect
414 reset.
In the present embodiment, one second Z axis mechanical arm 300, the second Z axis mechanical arm are also at least provided on the pedestal
A vision calibration mechanism 610 and a light source 611 are provided on 300 mobile terminal, light source 611 is arranged under vision calibration mechanism 610
End cooperates the first slide unit and second to slide by the second Z axis mechanical arm 300 come moving-vision calibrating device 610 and a light source 611
611 alignment pieces of vision calibration mechanism 610 and a light source are carried out vision to the workpiece being mounted on station by the movement of platform
Positioning, can accurately process workpiece by operating mechanism 621 after the completion of positioning.
In the present embodiment, it is double-station processing unit (plant), is additionally provided with another first Z axis mechanical arm 640 and another vision mark
Determine mechanism 630, as shown, forming the independent processing unit (plant) of double-station, improves processing efficiency.
In the present embodiment, the setting of the first support 520 is arranged at intervals in 500 left side of the second slide unit, the load sample mechanism 900
200 front side of Y-axis guide rail, the mounting height of the load sample mechanism 900 are high not less than the installation of second elevating mechanism 523
Degree, the mounting height of the second elevating mechanism 523 are lower than the mounting height of telescoping drive mechanism 511, the X of the second elevating mechanism 523
Axial coordinate is consistent with the X axis coordinate of erecting bed 540.
Specifically, the load sample mechanism 900 is mounted on the pedestal of 520 side of the first support, also
It is that load sample mechanism 900 is located at 500 front left side of the second slide unit.
The load sample mechanism 900 includes: pedestal 920, third rotary drive mechanism 910, position adjustable board 930 and the first conveyer belt
950.Pedestal 920 is horizontally spaced about in 530 front side of station, and 920 first end of pedestal is provided with a third rotary drive mechanism
910, the pedestal 920 is intermediate engraved structure, and the first conveyer belt 950 is arranged among the pedestal 920, first transmission
950 first end of band is connect with the third rotary drive mechanism 910, and third rotary drive mechanism 910 drives the first conveyer belt 950
Rotation, for transporting workpiece to station 530.
First conveyer belt, the 950 width direction two sides are respectively arranged with a synchronous belt 960, and synchronous belt 960 and first pass
It send band 950 to rotate synchronously, is equidistantly provided with several positioning seats 970, positioning seat described in each adjacent two on the synchronous belt 960
The distance between 970 are not less than the length of the workpiece, and workpiece is placed between the two neighboring positioning seat 970, with
The rotation of first conveyer belt 950, positioning seat 970 push workpiece mobile, the second end until being sent to load sample mechanism 900, also
It is the delivery end of load sample mechanism 900, then controls the load sample head 980 and the delivery end of the load sample mechanism 900 is selectively right
It connects, the first conveyer belt 950 is sent on load sample head 980.
The carriage direction of first conveyer belt 950 is vertical with the Y-axis guide rail 200, and each workpiece is by the first conveyer belt
950 are continuously sent on load sample head 980.Position adjustable board 930 is arranged on the pedestal 920 of 950 two sides of the first conveyer belt,
930 upper surface of the position adjustable board of any side is arranged at intervals with several photoelectric sensors 940, the photoelectric sensor 940
Towards first transmission belt 950, whether there is workpiece on the first conveyer belt 950 for detecting, be in order to control load sample head 980
The no delivery end with load sample mechanism 900 docks.
Position adjustable board 930 is higher than the first conveyer belt 950, is provided with a grading structure on 930 inner sidewall of position adjustable board, such as schemes
Shown in 12, the protrusion distance of the grading structure is gradually increased with the moving direction of 950 upper surface of the first conveyer belt, and two
The distance between described 930 first end of position adjustable board is greater than the distance between described 930 second end of position adjustable board, two position adjustable boards
The distance between 930 first ends are greater than the width of workpiece, in order to which workpiece is put into two 930 first ends of position adjustable board
On first conveyer belt 950, with the movement of the first conveyer belt 950, workpiece gradually passes through grading structure, two position adjustable boards
The distance between 930 gradually become smaller, until being sent to two 930 second ends of position adjustable board, two position adjustable boards 930 second
The equivalent width of spacing and workpiece between end.
980 bottom of load sample head is connect with the lift side of second elevating mechanism 523, due to the second elevating mechanism
523 are arranged on the second rotating seat 522, so that load sample head 980 is moved synchronously with the second elevating mechanism 523, that is,
XYZ axis direction moves freely, to adjust the XYZ coordinate of load sample head 980, so that the conveying of load sample head 980 and load sample mechanism 900
End docking, the workpiece on the first conveyer belt 950 has continuously been sent to load sample head 980 automatically.
In the present embodiment, 980 first end of load sample head setting there are two recessing groove 991, two recessing grooves 991 it
Between spacing it is consistent with the spacing between two synchronous belts 960,980 first end of load sample head and the pedestal 920 the
When two port connects, recessing groove 991 is just aligned with synchronous belt 960, in order to the delivery end of load sample head 980 and load sample mechanism 900
When docking, so that positioning seat 970 passes through from recessing groove 991.
A positioning groove 990 is provided on the load sample head 980, the length of the locating slot 990 is not less than the workpiece
The depth of length, the width of the locating slot 990 and the equivalent width of the workpiece, the locating slot 990 is less than the workpiece
Thickness, the recessing groove 991 is provided with 990 first end of locating slot, the position adjustable board of locating slot 990 inner sidewall and two sides
The alignment of 930 inner sidewalls, with continuing to rotate for the first conveyer belt, workpiece is accurately transported in locating slot 990.
Second slide unit, 500 front and rear sides are respectively arranged with one second support 510, and 510 upper end of the second support is horizontal
To a sliding rail 512 is provided with, 512 length direction of sliding rail is parallel with the Y-axis guide rail 200, and the length of the sliding rail 512 is big
In the length of second slide unit 500, outwardly protrude with the sliding rail 512 of 520 opposite side of the first support in described
Two slide units, 500 certain distance, that is, the right side of sliding rail 512 are outwardly protruded in 500 certain distance of the second slide unit, described defeated
The lower section for sending mechanism that 512 protruding end of sliding rail is arranged in is provided with the second conveyer belt run outward on the conveying mechanism,
For the workpiece of completion of processing to be sent to destination, specifically, the height of the conveying mechanism is between the flexible driving machine
Between structure 511 and second slide unit 500, so that conveying mechanism can complete transport task and hinder the movement of slide unit.
512 upper surface of sliding rail is provided with a guide-track groove 515,511 bottom of telescoping drive mechanism along its length
It is provided with one and slides driving mechanism, the driving mechanism that slides is moved along the guide-track groove 515, drives telescoping drive mechanism
511 transverse shiftings are on sliding rail 512.So that 511 level of telescoping drive mechanism is slidably arranged in the station 530
Front and rear sides, the glide direction of the telescoping drive mechanism 511 is parallel with the Y-axis guide rail 200, first rotary driving machine
Structure 513 is arranged on the telescopic end of the telescoping drive mechanism 511, and the export head 514 of first rotary drive mechanism 513 is selected
Selecting property is extend into the first positioning hole and second location hole.
The course of work of entire processing unit (plant) is as follows:
Product carrier is vacantly mounted on positioning table 531 by third location hole and locating piece, workpiece is continuously put
It sets in load sample mechanism 900, is particularly placed on 950 first end of the first conveyer belt, is all put between every two positioning seat 970
A workpiece is set, to realize the continuous placement of workpiece, load sample mechanism 900 is transferred by 950 workpiece of the first conveyer belt
Second end rotates 45 ° to front side by adjusting the second rotating seat 522, and controls the second elevating mechanism 523 and rise certain distance,
So that load sample head 980 and load sample mechanism 900 are in sustained height, the movement of X-axis driving mechanism is finally controlled, the second slide unit is related
Side is mobile forward for load sample head 980, until load sample head 980 is docked with the second end of load sample mechanism 900, the first conveyer belt 950 of control
It continues to rotate, a workpiece is sent in the locating slot 990 on load sample head 980, the waiting of the first conveyer belt 950 moves next time
Process, while workpiece also waits placement process next time.
After workpiece is transported in locating slot 990, then secondary control the second rotating seat 522, the second elevating mechanism 523 and X-axis
Driving mechanism movement, load sample head 980 is resetted, and is hereafter controlled telescoping drive mechanism 511 and is acted, by the rectangle joint of front and rear sides
514 are aligned with first positioning hole 442 and second location hole 430 respectively, and the telescopic head for controlling telescoping drive mechanism stretches out, until inciting somebody to action
Respective rectangle joint 514 is extend into corresponding first positioning hole 442 and second location hole 430, controls the first elevating mechanism
710 declines, until locating piece and product carrier are detached from, hereafter control two sides slides driving mechanism along the guide-track groove 515
It moves to the left, the product carrier of synchronous drive telescoping drive mechanism 511 and intermediate sandwiched moves to the left, until product carrier
Be moved to right above load sample head 980, the workpiece being placed on load sample head 980 at this time is consistent with product carrier rotational angle, all for
45 °, positioning chamber and workpiece alignment, subsequent control the second elevating mechanism 523 rising are put into positioning chamber until by workpiece, are controlled
The telescopic head of telescoping drive mechanism continues to stretch out, and pushes both arms sliding block to move into positioning chamber, until workpiece is folded in positioning
In chamber, 523 descending motion of the second elevating mechanism is controlled, until locating slot 990 and workpiece disengaging, controls two sides telescoping drive mechanism
511 are shifted to the right to right above station, if it is desired, control the first rotating seat 700 rotation, adjusts the position of locating piece, so that with
Third location hole alignment on product carrier, the first elevating mechanism 710 of control rise, the product carrier for being loaded with workpiece are installed to
On locating piece, until workpiece bottom contradict on boss 541, control telescoping drive mechanism telescopic head retraction certain distance, make
Both arms sliding block and workpiece side wall are detached from, workpiece is longitudinally movable in positioning chamber, on the first elevating mechanism 710 of control continues
It rises, until boss 541 is extend into positioning chamber, product carrier bottom is resisted against on erecting bed 540, then controls flexible driving machine
Structure continues to stretch out, and with the increase of insertion depth, pushes linkage block 441 to 440 medial movement of the first guide groove, that is, push away
Dynamic both arms sliding block is moved into positioning chamber, until docking with the workpiece being mounted in positioning chamber, and is stuck in the pair of horns two of workpiece
End, when driving both arms sliding block to continue to stretch out, both arms sliding block gradually another diagonal movement into positioning chamber by workpiece, until inciting somebody to action
Workpiece is contradicted to another diagonal angle, so that workpiece is fixed in positioning chamber, while by two telescoping drive mechanisms, will be produced
Product carrier, which is fixed on, to be produced with positioning table 531 in the plane of height, to avoid workpiece in process and product carrier from shaking
Raw mismachining tolerance.
Then control sectorial block 534 rotates in a groove, and driving shifting block 414 is moved into positioning chamber, and workpiece is locked in
In positioning chamber, workpiece is avoided to shake in positioning chamber.First positioning hole 442 and second location hole 430 and each rectangle joint 514
Between inevitably reserve butt-joint clearance, in order to eliminate the shaking of product carrier in the longitudinal direction, control the first elevating mechanism
710 upwards movement, by product carrier push up until rectangle joint 514 respectively with first positioning hole 442 and second location hole
430 upper end contradicts, and the mobile space of product carrier in the longitudinal direction is eliminated, so that workpiece accurately be fixed, avoids processing
It slides up and down in the process and increases mismachining tolerance, then i.e. controllable operating mechanism movement, adds the first outer surface of workpiece
Work, until completing the process.
Then, it controls sectorial block 534 and shifting block 414 resets, the first elevating mechanism of control 710 bounces back downwards, until positioning
Part and product carrier are detached from, and the first rotary drive mechanism 513 of control rotates 180 degree, by product carrier and workpiece rotation 180 degree,
At this point, the second appearance of workpiece is arranged up, in switching process, since both arms sliding block remains at protruding state, make
It obtains workpiece to be maintained in positioning chamber, avoids falling in product carrier switching process.
After the overturning in place of product carrier, if it is desired, control the first rotating seat 700 rotation, adjusts the position of locating piece, makes
It obtains and is aligned with the third location hole on product carrier, usual first rotating seat 700 does not need rotation adjustment, directly controls first liter
Descending mechanism 710 upwards reset, then the product carrier for being loaded with workpiece is installed on locating piece, control shifting block 414 again with work
Part locking, movement pushes up product carrier to the first elevating mechanism of control 710 upwards, eliminates gap, again that workpiece is accurate
Fixed, then i.e. controllable operating mechanism movement, processes the second outer surface of workpiece, until completing the process, carries out next
The processing of a workpiece.
Workpiece is two-sided after processing is completed, controls sectorial block 534 and shifting block 414 resets, the first elevating mechanism of control 710 is downwards
Retraction, until locating piece and product carrier are detached from, control two sides slides driving mechanism along the guide-track groove 515 sidesway to the right
Dynamic, the product carrier of synchronous drive telescoping drive mechanism 511 and intermediate sandwiched moves to the right, until product carrier is moved to the
Right above two conveyer belts, telescoping drive mechanism 511 is controlled at this time and is bounced back, until both arms sliding block is reset in the second guide groove, this
When positioning chamber in workpiece it is longitudinal not in stress, fall on the second conveyer belt, destination be transported to by the second conveyer belt, thus
The two-sided processing of a workpiece is completely completed, telescoping drive mechanism 511 resets, and waits load sample process next time.
From the above mentioned, the utility model reduces the installation positioning process of workpiece, the processing flow of reduction, workpiece and processing
Setting position fit tolerance is small, reduces mismachining tolerance, improves product yield;Meanwhile using same a positioning block, that is, produce
Product carrier carries out installation positioning, and workpiece, which is not dismantled, avoids installing the offset accumulation of workpiece position of related features again, shortens process
In clamping times, reduce cumulative limit and improve clamping efficiency simultaneously;Further, it is fixed to the automatic rollover of workpiece to realize
Position process, same board can carry out front-back two-sided processing to workpiece, improve the processing efficiency of workpiece, further, realize
The automation of workpiece continuously loaded and unloaded, processing efficiency is further improved.
It is not only in the description and the implementation although the embodiments of the present invention have been disclosed as above
Listed utilization, it can be applied to various fields suitable for the present invention completely, for those skilled in the art,
Other modifications may be easily implemented, therefore without departing from the general concept defined in the claims and the equivalent scope, this reality
It is not limited to specific details and legend shown and described herein with novel.
Claims (10)
1. a kind of automatic processing apparatus of continuous load sample characterized by comprising
Pedestal is mounted on board, and one first Z axis mechanical arm is at least provided on the pedestal, is provided on the pedestal
One Y-axis guide rail;
Operating mechanism is disposed longitudinally on the mobile terminal of the first Z axis mechanical arm;
First slide unit, movement are arranged in the Y-axis guide rail, and an X-axis guide rail, the X-axis are provided on first slide unit
Sliding is provided with one second slide unit on guide rail, and second slide unit is provided centrally with one first rotating seat, first rotating seat
On be provided with one first elevating mechanism, a station is provided on the lift side of first elevating mechanism, on the station
Several locating pieces are provided with, are respectively arranged with a telescoping drive mechanism on second slide unit of the station front and rear sides,
One first rotary drive mechanism is provided on the telescopic end of the telescoping drive mechanism;And
Product carrier is mounted on the station by the locating piece, on the diagonal lateral wall of the product carrier first
A first positioning hole is opened up, a second location hole, the flexible driving machine are opened up on the diagonal lateral wall of the product carrier second
The telescopic head of structure is selectively extend into the first positioning hole and second location hole;
Wherein, described second slide unit or so either side is provided with one first support, and first support is provided centrally with a connection
Seat is provided with one second rotating seat on the attachment base, is provided with one second elevating mechanism on second rotating seat, and described the
A load sample head is provided on the lift side of two elevating mechanisms;
A load sample mechanism and a conveying mechanism are at least provided on the pedestal, the load sample mechanism is arranged in the Y-axis guide rail
Any side in front and back, the mounting height of the load sample mechanism are not less than the mounting height of second elevating mechanism, the load sample
Head is selectively docked with the delivery end of the load sample mechanism;
The telescoping drive mechanism level is slidably arranged in the station front and rear sides, the sliding side of the telescoping drive mechanism
To parallel with the Y-axis guide rail, the maximum sliding length of the telescoping drive mechanism is greater than the length of second slide unit, described
Conveying mechanism is arranged in second slide unit or so any side, and the height of the conveying mechanism is between the flexible driving machine
Between structure and second slide unit.
2. the automatic processing apparatus of continuous load sample as described in claim 1, which is characterized in that the Y-axis guide rail is set
It sets at least to slide on the first Z axis mechanical arm lower end, the Y-axis guide rail and is provided with first slide unit;Described
One slide unit is arranged in the Y-axis guide rail by the way that a Y-axis driving mechanism is mobile, first slide unit bottom be provided with one for will
First slide unit is locked in the first locking mechanism in the Y-axis guide rail;
Second slide unit is arranged in the X-axis guide rail by the way that an X-axis driving mechanism is mobile, the setting of second slide unit bottom
There is a second locking mechanism for being locked in second slide unit in the X-axis guide rail.
3. the automatic processing apparatus of continuous load sample as described in claim 1, which is characterized in that each locating piece
An erecting bed is provided on the station of inside, erecting bed center hollow out, the product carrier centre, which is run through, to be opened up
One for installing the positioning chamber of workpiece, and first opening of positioning chamber is erected on the erecting bed, on the product carrier
It is provided with a retaining mechanism that can be screwed into the positioning chamber.
4. the automatic processing apparatus of continuous load sample as claimed in claim 3, which is characterized in that indulged on the station
To several positioning tables are provided with, the positioning table upper end protrusion is provided with a positioning pillars, and the locating piece is by positioning table and determines
Position pillar is constituted, and the outer diameter of the positioning table is greater than the outer diameter of the positioning pillars, is vertically arranged with one in the positioning pillars
Second rotary drive mechanism, the rotation axis of second rotary drive mechanism extend upward the positioning pillars certain distance,
The rotation axis of second rotary drive mechanism is biased to the erecting bed setting, and the rotation axis of second rotary drive mechanism
On be horizontally arranged with a sectorial block, the length of the sectorial block is between the radius and diameter of the positioning pillars.
5. the automatic processing apparatus of continuous load sample as claimed in claim 4, which is characterized in that on the product carrier
It is longitudinal through opening up several third location holes, the outer diameter of the internal diameter of the third location hole between the positioning pillars and positioning table
Between, the product carrier is mounted on the positioning table by the third location hole.
6. the automatic processing apparatus of continuous load sample as claimed in claim 3, which is characterized in that first diagonal side
Wall center position is movably set with a both arms sliding block, and product carrier inner sidewall where the both arms sliding block extends transversely through is described
Both arms center extends outwardly a linkage block, and the linkage block runs through place product carrier lateral wall;
One first guide groove is opened up on the diagonal lateral wall of the product carrier first, the linkage block is movably arranged on described first
In guide groove, first guide groove is located at the product carrier lateral wall center of position, the first positioning hole
It is arranged in linkage block lateral wall center;
One second guide groove is opened up on the diagonal inner sidewall of the product carrier first, second guide groove is to lead with described first
The diagonal arrangement being connected to slot, the both arms sliding block is movably arranged in second guide groove, the linkage block and described double
The diagonal center of arm sliding block connects, and second guide groove is located at the product carrier inner sidewall center of position, institute
It is corresponding with the positioning chamber within angle consistent to state angle between both arms sliding block;
Wherein, the first positioning hole and second location hole are rectangular opening, open up a cavity, institute in the first guiding groove sidewall
It states and is provided with one first elastic component in cavity, connect inside the first elastic component first end and the cavity, first bullet
Property part second end is connect with the linkage block side wall.
7. the automatic processing apparatus of continuous load sample as claimed in claim 5, which is characterized in that the third location hole
For round hole, the both ends of the third location hole open up a groove respectively, and the sectorial block is movably arranged in the groove, institute
State the through-hole for offering on product carrier and penetrating through the positioning chamber and the groove, the length of the through-hole and the third location hole
Degree direction is vertical, and the retaining mechanism is movably arranged in the through-hole;
Wherein, the retaining mechanism includes:
Shifting block is movably arranged in the through-hole, and the length of the shifting block is greater than the length of the through-hole;
Second elastic component is set on the shifting block, and the first end of second elastic component is connect with the through-hole wall, institute
The second end and the shifting block for stating the second elastic component are fixed.
8. the automatic processing apparatus of continuous load sample as described in claim 1, which is characterized in that the load sample mechanism peace
On the pedestal of the first support side, the load sample mechanism includes:
Pedestal, first end are provided with a third rotary drive mechanism, and the pedestal is intermediate engraved structure;
First conveyer belt, between setting in the susceptor, first conveyer belt is connect with the third rotary drive mechanism,
First conveyor width direction two sides are respectively arranged with a synchronous belt, are equidistantly provided with several positioning on the synchronous belt
Seat, the distance between positioning seat described in each adjacent two are not less than the length of workpiece, the carriage direction of first conveyer belt with
The Y-axis guide rail is vertical;
Position adjustable board is arranged on the pedestal of first conveyor belt two sides, table on the position adjustable board of any side
Face interval is provided with several photoelectric sensors, and the photoelectric sensor is towards first conveyer belt, the position adjustable board inner sidewall
On be provided with a grading structure, the protrusion distance of the grading structure is gradually increased with the carriage direction of first conveyer belt,
The distance between two described position adjustable board first ends are greater than the distance between two described position adjustable board second ends.
9. the automatic processing apparatus of continuous load sample as claimed in claim 8, which is characterized in that load sample head bottom
It is connect with the lift side of second elevating mechanism, there are two recessing grooves for first end setting on the load sample head, allow described in two
Spacing between the slot of position is consistent with the spacing between two synchronous belts, the load sample head first end and the pedestal second end
Selectivity is docked, and a positioning groove is provided on the load sample head, and the length of the locating slot is not less than the length of the workpiece, institute
The width of locating slot and the equivalent width of the workpiece are stated, the depth of the locating slot is less than the thickness of the workpiece, described to allow
Position slot is provided with the locating slot first end.
10. the automatic processing apparatus of continuous load sample as described in claim 1, which is characterized in that second slide unit
Front and rear sides are respectively arranged with one second support, and second support upper end is horizontally arranged with a sliding rail, the sliding rail length side
To parallel with the Y-axis guide rail, the length of the sliding rail is greater than the length of second slide unit, with first support opposite side
The sliding rail outwardly protrude in the second slide unit certain distance, the conveying mechanism is arranged under the sliding rail protruding end
It is square, the second conveyer belt run outward is provided on the conveying mechanism;
The sliding rail upper surface is provided with a guide-track groove along its length, and the telescoping drive mechanism bottom is provided with one and slides drive
Motivation structure, the driving mechanism that slides are moved along the guide-track groove, and the first rotary drive mechanism setting is described flexible
On the telescopic end of driving mechanism, the export head of first rotary drive mechanism selectively extend into the first positioning hole and
In two location holes.
Priority Applications (1)
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CN201820777249.7U CN208196311U (en) | 2018-05-24 | 2018-05-24 | A kind of automatic processing apparatus of continuous load sample |
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Application Number | Priority Date | Filing Date | Title |
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CN201820777249.7U CN208196311U (en) | 2018-05-24 | 2018-05-24 | A kind of automatic processing apparatus of continuous load sample |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108436567A (en) * | 2018-05-24 | 2018-08-24 | 苏州科爱佳自动化科技有限公司 | A kind of automatic processing apparatus of continuous load sample |
CN113453843A (en) * | 2019-02-13 | 2021-09-28 | 普罗阔德罗责任有限公司 | Method for mounting a fixture workpiece in a machining center |
-
2018
- 2018-05-24 CN CN201820777249.7U patent/CN208196311U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108436567A (en) * | 2018-05-24 | 2018-08-24 | 苏州科爱佳自动化科技有限公司 | A kind of automatic processing apparatus of continuous load sample |
CN113453843A (en) * | 2019-02-13 | 2021-09-28 | 普罗阔德罗责任有限公司 | Method for mounting a fixture workpiece in a machining center |
CN113453843B (en) * | 2019-02-13 | 2024-03-22 | 泰科诺洛奇卡有限责任公司 | Method for installing a fixture workpiece in a machining center |
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