CN203163692U - Multi-parameter on-site automatic measuring and sorting system - Google Patents

Abstract

A multi-parameter on-site automatic measuring and sorting system comprises a conveyor belt for conveying various cylinder sleeve type parts to be measured. An automatic feeding mechanism for making the various cylinder sleeve type parts to be measured automatically conveyed to the conveyor belt, a first measuring station for measuring the physical dimensions and form and position errors of the various cylinder sleeve type parts to be measured in a high-precision way, a second measuring station used for acquiring the contour information of the cylinder sleeve type parts, and an automatic sorting mechanism for automatically classifying and sorting the cylinder sleeve type parts according to the measuring results are sequentially arranged on one side of the conveyor belt along the length direction of the conveyor belt. The distance between adjacent cylinder sleeve type parts on the conveyor belt is set to be d. The distance d is used for ensuring that the first measuring station and the second measuring station go to the next measuring step at the same time. The multi-parameter on-site automatic measuring and sorting system characterized by high precision and high efficiency can measure workpieces with small spatial volumes and easily achieve high-precision measurement. A data report about each parameter is automatically generated. Detection data are automatically saved.

Description

Multiparameter is on-the-spot to be measured and separation system automatically

Technical field

The utility model relates to a kind of industry spot precision component detection system.Particularly relate to a kind of multiparameter at the internal combustion (IC) engine cylinder cover parts on-the-spot measurement and separation system automatically.

Background technology

Internal combustion engine 103 has been made huge contribution for development of human society from the date of birth during the last ten years.Entered for 20th century, internal combustion engine has passed through significant progress and constantly perfect, has occupied the status of empery in various portable power machines.According to statistics, China reaches 7,000 ten thousand in internal combustion engine total production the Eleventh Five-Year Plan period, and the output value reaches 3,000 hundred million, and " 12 " target is, the ic engine industry gross output value increases every year at 8-10%, and output increases 6-8% every year.And cylinder jacket is as one of key components and parts of internal combustion engine, and its properties of product directly affect the overall performance of internal combustion engine, are the industries of the long-term emphasis support development of country.

The detection method of tradition cylinder cover parts is mainly manual detection, and as roundness measuring equipment, limit gauge and coordinate measuring machine etc., and some intelligent detecting methods that are born in recent years just detect at the short run under the measuring room environment.Along with the sharp increase of the demand of cylinder cover parts, the detection efficiency of cylinder cover parts faces new challenges, and the real-time testing of being badly in need of industry spot instructs production.

Along with the raising of detection technique, the laser self-mixing interference ranging technology is development and perfect constantly, and CCD vision measurement technology is also ripe.

The laser self-mixing interference technology is a kind of precision optics noncontact measurement of rising in recent years.The characteristics of laser self-mixing interference technology are: have one and interfere passage, easily collimation, simple and compact for structure, easy miniaturization, because its noncontact characteristic, therefore anti-electrical Interference ability is strong, can realize higher resolution.Based on the contactless gauge head of laser self-mixing interference technology, have that volume is little, resolving power is high and measure the high characteristics of efficient, therefore can the narrow and small workpiece body of measurement space volume, and realize high-precision measurement easily.CCD vision measurement technology is based on the measuring technique of computer vision, can realize the quick scanning survey to workpiece, has very high measurement efficient.

Summary of the invention

Technical problem to be solved in the utility model is, provide a kind of on the basis of existing Intelligent Measurement means, under the industry spot environment to its critical parameter, mainly be physical dimension and morpheme error and profile information, carry out automatic measurement, and according to producing needs workpiece is carried out automatic sorting according to measurement result, simultaneously further instruct production according to testing result, promote production run more science, effectively carry out, reduce on-the-spot the measurement automatically and separation system of multiparameter of product rejection rate.

The technical scheme that the utility model adopts is: a kind of multiparameter is on-the-spot to be measured and separation system automatically, include for the travelling belt that transmits each cylinder sleeve class part to be measured, be disposed with in a side of travelling belt and along the length direction of travelling belt: be used for each cylinder sleeve class part automatic transport to be measured automatic feed mechanism to the travelling belt, for the first measurement station that physical dimension and the morpheme error of cylinder sleeve class part to be measured are carried out high-acruracy survey, for the second measurement station of the profile information that obtains cylinder sleeve class part and for the automatic fraction collector structure of the cylinder sleeve class part of various criterion being classified automatically and selecting according to the measurement result of front.

The distance between each cylinder sleeve class part on the travelling belt for set apart from d, described apart from d for guaranteeing that first measures station and the second measurement station enters surveying work next time simultaneously.

Described automatic feed mechanism includes first mechanical arm, second mechanical arm, shaking table and Vib., described Vib. is connected the bottom of shaking table, a side that is arranged on travelling belt that is connected by conveying trough between described first mechanical arm, second mechanical arm and the shaking table, and, the setting that described first mechanical arm parallels with travelling belt, the setting that described second mechanical arm and shaking table and travelling belt are perpendicular.

Described conveying trough is T type structure, described first mechanical arm and second mechanical arm be the corresponding two ends that are arranged on the translot of T type structure conveying trough respectively, described this translot parallels with described travelling belt, and, second mechanical arm wherein is to link to each other with described conveying trough with the perpendicular straight trough of described travelling belt by one, the outlet correspondence of described shaking table that be arranged on T type structure conveying trough with the bottom perpendicular pod of described translot.

Described first measures station includes: first worktable with automatic feed mechanism one side that is arranged on travelling belt be arranged on travelling belt opposite side and three mechanical arm corresponding with described first worktable, on described first worktable and be positioned at the perpendicular direction of described travelling belt and be provided with by the mechanical arm guide rail, be arranged on the 4th mechanical arm that robot drives motor that mechanical arm pushing hands on the mechanical arm guide rail and driving device hand push hand move along the mechanical arm guide rail constitutes, be provided with the first V-type locating piece that positions for to the cylinder sleeve class part of being shifted onto by the 3rd mechanical arm on first worktable on first worktable and the front that is positioned at the 4th mechanical arm, on first worktable and be positioned at the both sides of the 4th mechanical arm symmetrical respectively be provided with a fixed leg, the top of the fixed leg of the 4th mechanical arm both sides is provided with the measuring mechanism of measuring for to cylinder sleeve class part, described measuring mechanism includes the level and vertical moving structure that is supported on the fixed leg top, with level and the main shaft that vertical moving structure links to each other, be fixedly connected on the contactless gauge head that the surfaces externally and internally of cylinder sleeve class part is measured of being used for of main shaft bottom.

Described level and vertical moving structure include the X-axis guide rail on the fixed leg top that is arranged on the 4th mechanical arm both sides, be fixed on measurement guide rail outer cover and the balladeur train that is arranged on the X-axis guide rail on the X-axis guide rail, one side of described X-axis guide rail is equipped with the X-axis cog belt by the X-axis pulley that is arranged on two ends, described X-axis cog belt is fixedlyed connected with described balladeur train, also be provided with the X-axis motor that drives the X-axis cog belt on the described X-axis guide rail, outer being formed with of protruding of a side direction that described balladeur train is positioned at travelling belt can be run through main shaft and be driven the last orienting sleeve that main shaft moves with balladeur train, be fixedly connected with Z axle cog belt on the described main shaft, described Z axle cog belt rotates by being separately fixed at two Z axle pulleys on balladeur train and the measurement guide rail outer cover and the Z spindle motor that is fixed on the balladeur train.

The lower end of described X-axis guide rail is provided with and the described corresponding following orienting sleeve that can run through main shaft of orienting sleeve of going up.

Described contactless gauge head includes and is positioned at the middle part and can be inserted into the cylinder sleeve class part suspension rod in week when this contactless gauge head moves down, with described in suspension rod parallel be evenly distributed in suspension rod periphery and when this contactless gauge head moves down, be positioned at suspension rod outside four of periphery of cylinder sleeve class part, wherein, the end of described four outer suspension rods respectively arranges a sensor that is used for the periphery wall of cylinder sleeve class part is carried out signals collecting, and described interior suspension rod end is provided with four sensors that carry out signals collecting for the internal perisporium to cylinder sleeve class part.

Described second measures station includes: second worktable with automatic feed mechanism one side that is arranged on travelling belt be arranged on travelling belt opposite side and five mechanical arm corresponding with described second worktable, on described second worktable and be positioned at the perpendicular direction of described travelling belt and be provided with the mechanical arm guide rail, described mechanical arm guide rail is provided with the robot drives motor away from that end of travelling belt, the mechanical arm guide rail is provided with first leading screw that is connected with the output shaft of robot drives motor, described mechanical arm guide rail is provided with the slide block that can move along the mechanical arm guide rail by described first leading screw, the top of described mechanical arm guide rail is provided with the 6th mechanical arm that the mechanical arm that linked to each other with the mechanical arm pushing hands by mechanical arm pushing hands and an end constitutes, described mechanical arm pushing hands is corresponding with the cylinder sleeve class part of being shifted onto by the 5th mechanical arm on second worktable, the other end of described mechanical arm is fixedly connected on the slide block, be provided with the second V-type locating piece that positions for to the cylinder sleeve class part of being shifted onto by the 5th mechanical arm on second worktable on second worktable and the front that is positioned at the 6th mechanical arm, also be provided with the vision frame that parallels with described mechanical arm guide rail on described second worktable and adjust guide rail, vision frame adjustment guide rail is provided with vision frame adjustment motor away from that end of travelling belt, the vision frame is adjusted guide rail and is provided with second leading screw that is connected with the output shaft of vision frame adjustment motor, described vision frame is adjusted and also is vertically installed with on the guide rail and can adjusts vertical vision frame that guide rail moves along the vision frame by described second leading screw, one end of described vertical vision frame is provided with vision frame motor, on described vertical vision frame and longitudinally the length direction of vision frame is provided with the 3rd leading screw that links to each other with the output shaft of described vision frame motor, also being provided with on described vertical vision frame can be by the 3rd leading screw Lateral vision frame that moves up and down of vision frame longitudinally, be respectively arranged with for the lighting source dorsad that cylinder sleeve class part is thrown light on the described Lateral vision frame and be used for gather the CCD vision sensor of cylinder sleeve class part image information, described lighting source dorsad and CCD vision sensor are coaxial and all be parallel to X-axis.

Described automatic fraction collector structure include be positioned at travelling belt one side be used for to promote from the travelling belt the detection of in-migration qualified/the 7th mechanical arm of underproof cylinder sleeve class part, be positioned at the travelling belt opposite side and corresponding with the 7th mechanical arm be provided with for receive the detection that is promoted by the 7th mechanical arm qualified/first acceptance division of underproof cylinder sleeve class part, be positioned at the travelling belt terminal be used for receiving from the travelling belt the detection of in-migration defective/second acceptance division of qualified cylinder sleeve class part.

Multiparameter of the present utility model is on-the-spot to be measured and separation system automatically, has following effect:

1, the utility model adopts the contactless gauge head based on the laser self-mixing interference technology, structurally adopt the eight gauge head versions of inside and outside each four gauge head, finish physical dimension and the morpheme on-line error inspection of countercylinder cover parts fast, have characteristics such as high precision, high-level efficiency.

2, based on the contactless gauge head of laser self-mixing interference technology, have that volume is little, resolving power is high and measure the high characteristics of efficient, therefore can the narrow and small workpiece body of measurement space volume, and realize high-precision measurement easily.

3, the utility model adopts CCD vision measurement technology to finish the measurement of profile informations such as part chamfering, can finish the work that contact type measurement is difficult to finish, and measures the efficient height.

4, the utility model can be used for the commercial production scene of work condition environment complexity, and adaptive capacity to environment is good, can assess production run according to the real-time measurement result of system, has effectively realized the on-the-spot guidance to producing, and has reduced the scrappage of product.

5, the utility model integrates the workpiece loading and unloading system, changes fitting mechanism, automatic checkout system and automatic sorting system, substantially realized the full-automation of cylinder sleeve class piece test, greatly reduce human cost, reduced the influence of human factor to detecting, effectively raise detection efficiency.

6, two measurements of the utility model station always is in the measurement state simultaneously, has taken full advantage of the measurement function of system, has improved the detection efficiency of system greatly.

7, user's self-defined detection scheme is according to demand realized the automatic detection to the cylinder jacket specified size, cylinder jacket parameters automatically generated data form, and preserve automatically and detect data, make things convenient for the user to consult.

8, the utlity model has good versatility, at the different types of cylinder jacket of internal combustion engine, only need to adopt the frock of different model, design detection scheme, but just a tractor serves several purposes is fit to the detection of polytype cylinder cover parts.

Description of drawings

Fig. 1 is the general structure synoptic diagram of the on-the-spot measurement automatically of multiparameter of the present utility model and separation system;

Fig. 2 is the structural representation of automatic feed mechanism;

Fig. 3 is the structural representation of the first measurement station;

Fig. 4 is the structural representation of the first measurement station inside;

Fig. 5 is the structural representation of non-contact measuring head;

Fig. 6 is the structural representation of the second measurement station;

Fig. 7 is the structural representation of the second measurement station inside.

Among the figure

1: automatic feed mechanism is measured station at 2: the first

3: the second measurement stations 4: automatic fraction collector structure

5: travelling belt 6: cylinder sleeve class part

12: the second mechanical arms of 11: the first mechanical arms

13: shaking table 14: Vib.

15: 21: the first worktable of conveying trough

23: the four mechanical arms of 22: the three mechanical arms

231: mechanical arm guide rail 232: the mechanical arm pushing hands

233: 24: the first V-type locating pieces of robot drives motor

25: fixed leg 26: main shaft

27: contactless gauge head 28: measuring mechanism

29: 31: the second worktable of mechanical arm outer cover

33: the six mechanical arms of 32: the five mechanical arms

34: the second V-type locating pieces 35: slide block

36: mechanical arm guide rail 37: the robot drives motor

Leading screw 39 in 38: the first: the vision frame is adjusted guide rail

271: interior suspension rod 272: outer suspension rod

273: sensor 280: measure the guide rail outer cover

281:X axis rail 282: balladeur train

283:X axle pulley 284:X axle cog belt

285:X spindle motor 286: go up orienting sleeve

287: following orienting sleeve 288:Z axle cog belt

289:Z spindle motor 291:Z axle grating

292:X axle grating 310: the vision frame is adjusted motor

Leading screw 312 in 311: the second: vertical vision frame

313: Lateral vision frame 314: lighting source dorsad

316: the three leading screws of 315:CCD vision sensor

331: mechanical arm pushing hands 334: mechanical arm

Embodiment

Below in conjunction with embodiment and accompanying drawing on-the-spot the measurement with separation system automatically of multiparameter of the present utility model made a detailed description.

Multiparameter of the present utility model is on-the-spot to be measured and separation system automatically, provides a kind of industry spot to measure the real-time detection method of cylinder jacket of diesel engine class part.By automatical feeding system intensive part is together separated, the distance between per two adjacent parts is two intervals of measuring between the station.Measuring station by two then detects part, in system's operational process, two stations always are in the measurement simultaneously, wherein first measures station by finishing the detection of physical dimension and the morpheme error of cylinder sleeve class part based on laser from the contactless gauge head of hybrid technology, measures station obtains cylinder sleeve class part by the method for CCD vision measurement profile information for second.At last, automatic sorting system is finished the automatic sorting of various criterion part.

As shown in Figure 1, multiparameter of the present utility model is on-the-spot to be measured and separation system automatically, include for the travelling belt 5 that transmits each cylinder sleeve class part 6 to be measured, be disposed with in a side of travelling belt 5 and along the length direction of travelling belt 5: be used for each cylinder sleeve class part 6 automatic transport to be measured automatic feed mechanism 1 to the travelling belt 5, for the first measurement station 2 that physical dimension and the morpheme error of cylinder sleeve class part 6 to be measured are carried out high-acruracy survey, for the second measurement station 3 of the profile information that obtains cylinder sleeve class part 6 and for the automatic fraction collector structure 4 of the cylinder sleeve class part 6 of various criterion being classified automatically and selecting according to the measurement result of front.

The distance between each cylinder sleeve class part 2 on the travelling belt 5 for set apart from d, described apart from d for guaranteeing that first measures station 2 and the second measurement station 3 enters surveying work next time simultaneously.Here, earlier two of hypothesis measure that the distance along travelling belt is that d(is hereinafter referred to as two distances of measuring between the stations between the stations), second is measured station and automatic fraction collector structure also is d along the distance of travelling belt.

The effect of automatic feed mechanism is, with a collection of cylinder sleeve class part automatic transport to be measured to travelling belt, and by the action of each mechanical arm of control, control distance between two adjacent cylinder sleeve class parts that enter on the travelling belt remain two measure between the stations apart from d.

Two effects of measuring station are, finish the physical dimension of cylinder sleeve class part, the detection of morpheme sum of errors profile information, wherein first to measure station be to adopt based on laser to finish the high-acruracy survey of cylinder sleeve class part geometry size and morpheme error from the contactless gauge head of hybrid technology, measure station for second and adopt CCD vision measurement technology to obtain the profile information of cylinder sleeve class part.

The effect of sorting mechanism is with the selection of classifying automatically of the cylinder sleeve part of various criterion according to measurement result, in this system construction drawing, suppose that the user only need sub-elect certified products and unacceptable product, thereby the sorting structure is simplified greatly, if the user need carry out the classification of many standards, can expand on this basis, thereby provide certain dirigibility to the user.

As shown in Figure 2, described automatic feed mechanism 1 includes first mechanical arm 11, second mechanical arm 12, shaking table 13 and Vib. 14, described Vib. 14 is connected the bottom of shaking table 13, a side that is arranged on travelling belt 5 that is connected by conveying trough 15 between described first mechanical arm 11, second mechanical arm 12 and the shaking table 13, and, the setting that described first mechanical arm 11 parallels with travelling belt 5, the setting that described second mechanical arm 12 and shaking table 13 and travelling belt 5 are perpendicular.

Described conveying trough 15 is T type structure, described first mechanical arm 11 and second mechanical arm 12 be the corresponding two ends that are arranged on the translot of T type structure conveying trough 15 respectively, described this translot parallels with described travelling belt 5, and, second mechanical arm 12 wherein is to link to each other with described conveying trough 15 with the perpendicular straight trough 16 of described travelling belt 5 by one, the outlet correspondence of described shaking table 13 that be arranged on T type structure conveying trough 15 with the bottom perpendicular pod of described translot.

As shown in Figure 3, described first measures station 2 includes: first worktable 21 with automatic feed mechanism 1 one sides that is arranged on travelling belt 5 be arranged on travelling belt 5 opposite sides and three mechanical arm 22 corresponding with described first worktable 21, on described first worktable 21 and be positioned at the perpendicular direction of described travelling belt 5 and be provided with by mechanical arm guide rail 231, be arranged on the 4th mechanical arm 23 that robot drives motor 233 that mechanical arm pushing hands 232 on the mechanical arm guide rail 231 and driving device hand push hand 232 move along mechanical arm guide rail 231 constitutes, be provided with on first the worktable 21 and front that is positioned at the 4th mechanical arm 23 for to shifted onto the first V-type locating piece 24 that the cylinder sleeve class part 6 on first worktable 21 positions by the 3rd mechanical arm 22, on first worktable 21 and be positioned at the both sides of the 4th mechanical arm 23 symmetrical respectively be provided with a fixed leg 25, the top of the fixed leg 25 of the 4th mechanical arm 23 both sides is provided with the measuring mechanism of measuring for to cylinder sleeve class part 6 28, described measuring mechanism includes the level and vertical moving structure that is supported on fixed leg 25 tops, with the main shaft 26 that level links to each other with vertical moving structure, be fixedly connected on the contactless gauge head 27 that the surfaces externally and internally of cylinder sleeve class part 6 is measured of being used for of main shaft 26 bottoms.

As shown in Figure 4, described level and vertical moving structure 28 include the X-axis guide rail 281 on fixed leg 25 tops that are arranged on the 4th mechanical arm 23 both sides, be fixed on measurement guide rail outer cover 280 and the balladeur train 282 that is arranged on the X-axis guide rail 281 on the X-axis guide rail 281, one side of described X-axis guide rail 281 is equipped with X-axis cog belt 284 by the X-axis pulley 283 that is arranged on two ends, described X-axis cog belt 284 is fixedlyed connected with described balladeur train 282, also be provided with the X-axis motor 285 that drives X-axis cog belt 284 on the described X-axis guide rail 281, X-axis motor 285 can drive balladeur train 282 by X-axis cog belt 284 and be free to slide along X-axis guide rail 281, outer being formed with of protruding of a side direction that described balladeur train 282 is positioned at travelling belt 5 can be run through main shaft 26 and be driven the last orienting sleeve 286 that main shaft 26 moves with balladeur train 282, be fixedly connected with Z axle cog belt 288 on the described main shaft 26, described Z axle cog belt 288 rotates by the Z spindle motor 289 that is separately fixed at two Z axle pulleys 283 on balladeur train 282 and the measurement guide rail outer cover 280 and be fixed on the balladeur train 282.Z spindle motor 28 can move freely along Z-direction by Z axle cog belt 288 drive shaft 26.

Described main shaft 26 is provided with Z axle grating 291, and described X-axis guide rail 281 is provided with X-axis grating 292.

The lower end of described X-axis guide rail 281 is provided with and the described corresponding following orienting sleeve 287 that can run through main shaft 26 of orienting sleeve 286 of going up.

As shown in Figure 5, described contactless gauge head 27 includes and is positioned at the middle part and can be inserted into the cylinder sleeve class part suspension rod 271 in 6 weeks when this contactless gauge head 27 moves down, with described in suspension rod 271 parallel be evenly distributed in suspension rod 271 periphery and when this contactless gauge head 27 moves down, be positioned at suspension rod 272 outside four of periphery of cylinder sleeve class part 6, wherein, the end of described four outer suspension rods 272 respectively arranges a sensor 273 that is used for the periphery wall of cylinder sleeve class part 6 is carried out signals collecting, and described interior suspension rod 271 ends are provided with four sensors 273 that carry out signals collecting for the internal perisporium to cylinder sleeve class part 6.

As Fig. 6, shown in Figure 7, described second measures station 3 includes: second worktable 31 with automatic feed mechanism 1 one sides that is arranged on travelling belt 5 be arranged on travelling belt 5 opposite sides and five mechanical arm 32 corresponding with described second worktable 31, on described second worktable 31 and be positioned at the perpendicular direction of described travelling belt 5 and be provided with mechanical arm guide rail 36, described mechanical arm guide rail 36 is provided with robot drives motor 37 away from that end of travelling belt 5, mechanical arm guide rail 36 is provided with first leading screw 38 that is connected with the output shaft of robot drives motor 37, described mechanical arm guide rail 36 is provided with the slide block 35 that can move along mechanical arm guide rail 36 by described first leading screw 38, the top of described mechanical arm guide rail 36 is provided with the 6th mechanical arm 33 that the mechanical arm 332 that linked to each other with mechanical arm 331 by mechanical arm 331 and an end constitutes, described mechanical arm 331 is corresponding with the cylinder sleeve class part of being shifted onto on second worktable 31 by the 5th mechanical arm 32 6, the other end of described mechanical arm 332 is fixedly connected on the slide block 35, be provided with on second the worktable 31 and front that is positioned at the 6th mechanical arm 33 for to shifted onto the second V-type locating piece 34 that the cylinder sleeve class part 6 on second worktable 31 positions by the 5th mechanical arm 32, also be provided with the vision frame that parallels with described mechanical arm guide rail 36 on described second worktable 31 and adjust guide rail 39, vision frame adjustment guide rail 39 is provided with vision frame adjustment motor 310 away from that end of travelling belt 5, the vision frame is adjusted guide rail 39 and is provided with second leading screw 311 that is connected with the output shaft of vision frame adjustment motor 310, described vision frame is adjusted and also is vertically installed with on the guide rail 39 and can adjusts vertical vision frame 312 that guide rail 39 moves along the vision frame by described second leading screw 311, one end of described vertical vision frame 312 is provided with vision frame motor (not shown), on described vertical vision frame 312 and longitudinally the length direction of vision frame 312 is provided with the 3rd leading screw 316 that links to each other with the output shaft of described vision frame motor, also being provided with on described vertical vision frame 312 can be by the 3rd leading screw 316 Lateral vision frame 313 that moves up and down of vision frame 312 longitudinally, is respectively arranged with for the lighting source dorsad 314 that cylinder sleeve class part 6 is thrown light on the described Lateral vision frame 313 and is used for gathering the CCD vision sensor 315 of cylinder sleeve class part 6 image informations.

Described lighting source dorsad 314 and CCD vision sensor 315 are coaxial and all be parallel to the X' axle, and lighting source 314 is imaged in the CCD vision sensor 315 clear-cut of revolving body workpieces dorsad, and the two is fixed on Lateral vision frame 313 two ends.The axis of rotation of the second V-type locating piece 34 is perpendicular to XOY plane; And can lighting source 314 and CCD vision sensor 315 make the centre of gyration of the second V-type locating piece 34 be on CCD vision sensor 315 focal planes in the position on the Lateral vision frame 313 by regulating dorsad.

As shown in Figure 1, described automatic fraction collector structure 4 include be positioned at travelling belt 5 one sides be used for to promote from the travelling belt 5 detection of in-migration qualified/the 7th mechanical arm 42 of underproof cylinder sleeve class part 6, be positioned at travelling belt 5 opposite sides and corresponding with the 7th mechanical arm 42 be provided with for receive the detection that is promoted by the 7th mechanical arm 42 qualified/first acceptance division 42 of underproof cylinder sleeve class part 6, be positioned at travelling belt 5 terminals be used for receiving from the travelling belt 5 detection of in-migration defective/second acceptance division of qualified cylinder sleeve class part 6.

Automatic fraction collector structure 4 be host computer according to testing result, and then by control mechanical arm, defective workpiece is pushed on the travelling belt 5, qualified workpiece is sent by another connecting gear.

Multiparameter of the present utility model is on-the-spot to be measured and separation system automatically, is noted that in whole automatic measurement process:

At first, because cylinder sleeve class part belongs to high-accuracy class part, therefore transmission system of the present utility model has good stability, stationarity, to guarantee that cylinder sleeve class part is in transport process, can be owing to sharp pounding or some other unexpected factor, the damage or the destruction that cause part.So, all adopt marble material at first worktable 21 described in the utility model, second worktable 31 and fixed leg 25.

Secondly, in order to give full play to the measuring ability of system, make system works under higher work efficiency, require two distances between the adjacent workpiece will control at two and measure station apart from d, be in continual measurement state simultaneously to guarantee two stations.In the measuring process, two stations are in the measurement state simultaneously, and this moment, travelling belt was in the wait run-stopping status, after the measurement of two stations of wait is all finished, travelling belt move again two measure station apart from d, make two to measure stations and enter simultaneously next time and measure.Measuring Time is the maximal value of two station Measuring Time.

Again, high-precision clamping is effective assurance of high-acruracy survey, therefore requires two clamping mechanisms of measuring station to have very high precision, and the utility model adopts v type piece location, has good bearing accuracy.

Moreover working environment of the present utility model is industry spot, so measuring system is subjected to Effect of Environmental bigger.The utility model is measured station to two and has been carried out the environment shielding by the test cabinet, reduces the rugged surroundings of industry spot acute variation to the direct influence of system, and has carried out certain ambient compensation on this basis, and system is reduced greatly to the dependence of environment.

At last, the automatic fraction collector structure has certain dirigibility, can expand according to user's request, thereby carry out the automatic clustering of the cylinder sleeve class part of various criterion, different size.

The on-the-spot measurement automatically of multiparameter of the present utility model may further comprise the steps with the specific implementation process of separation system:

1) before measuring, cylinder sleeve class part is at first separated by automatic feed mechanism, make two distances between the adjacent cylinder sleeve class part be roughly two measure between the stations apart from d.

2) cylinder sleeve class part is measured station by first by automatic feed mechanism at interval according to fixed range, when a cylinder sleeve class part is measured station by first, being installed in first photoelectric sensor of measuring station is triggered, output signal to the overhead control cabinet, indication has cylinder sleeve class part by this station.At this moment, the overhead control cabinet sends control signal, makes travelling belt stop motion, and controls corresponding manipulator behavior, and workpiece shift to the first is measured the measuring position of station, and by the first V-type locating piece measured workpiece is accurately located, for measurement is prepared.Then, overhead control cabinet indication measurement machine begins first measurement of measuring station, the sequence number of host computer record measurement data and mark measuring workpieces.

3) wait to finish first measure the measurement of station after, the overhead control cabinet is controlled this first mechanical arm of measuring station the displacement of cylinder sleeve class part is got back on the travelling belt.At this moment, whether the overhead control cabinet detects the second cylinder sleeve class part of measuring station and is put back on the travelling belt, have only two stations all to measure to finish and cylinder sleeve class part all also has been returned on the travelling belt, at this moment, the overhead control cabinet is just controlled travelling belt and is restarted motion, travelling belt will continue mobile two distances of measuring station, and two stations enter next time simultaneously to be measured.When cylinder sleeve class part is measured station by second, be installed in second photoelectric sensor of measuring station and be triggered, output signal to the overhead control cabinet, indication has cylinder sleeve class part by this station.At this moment, the overhead control cabinet sends control signal, makes travelling belt stop motion, and control corresponding manipulator behavior, cylinder sleeve class part is displaced to second measuring position of measuring station, and by the second V-type locating piece tested cylinder sleeve class part is accurately located, for measurement is prepared.Then, overhead control cabinet indication measurement machine begins second measurement of measuring station, and host computer record measurement data and mark are measured the sequence number of cylinder sleeve class part.Need to prove, measure that station always measures synchronously for two.

4) after cylinder sleeve class part was finished the measurement of two stations, host computer had just obtained the key parameter of cylinder sleeve class part, and cylinder sleeve class part enters the automatic fraction collector structure then.Automatic fraction collector structure and the second measurement station also are d along the distance of travelling belt, and when cylinder sleeve class part was being measured, the automatic fraction collector structure was worked simultaneously, and cylinder sleeve class part is screened.The automatic fraction collector structure can be expanded flexibly according to user's needs.The automatic fraction collector structure is classified the cylinder sleeve class part that measurement finishes according to user's setting according to user's standard, finishing of classification is Collaborative Control by a plurality of stations.

In the utility model, described first mechanical arm 11, second mechanical arm, 12 structures are identical, the 3rd mechanical arm 22, the 4th mechanical arm 23, the 5th mechanical arm 32 all are identical with the 6th mechanical arm 33 structures, just the mechanical arm pushing hands difference that is used for promoting cylinder sleeve class part of front end.

Automatically measuring and separation system because multiparameter of the present utility model is on-the-spot, be a kind of universal test method at the internal combustion engine cylinder jacket class, and system has certain dirigibility and extensibility.Below, measure at the class part with inside/outside diameter size and chamfering information, and the supposition automatic sorting system only need isolate underproof part, provide specific implementation process.

A) at first be the preceding preparatory stage that powers on.Because what coordinate measuring machine adopted is air-float guide rail, therefore, at first opens source of the gas, reaches until air pressure and set numerical value.Detect following each sensor and whether be in normal operating conditions, comprise whether the CCD vision sensor can normally gather image, and whether the lighting source of CCD vision sensor is in normal operating conditions, whether laser is working properly etc. from mixing gauge head.

B) open computing machine and control system, system enters to be measured the preparatory stage, and the measurement preparatory stage comprises that material loading is prepared and measurement is prepared.It mainly is the porch (can combine with automatic production line, also can manually place) that batch part to be measured is put into automatic feed mechanism that material loading is prepared; Measure preparation and be back that mainly zero prepares: returning of the first measurement station mechanism is zero, and what comprise X-direction motor-driven balladeur train and Z-direction motor-driven main shaft returns zero, and the contactless gauge head that these two axles drive returns zero; Comprise that also Y' is zero to returning of these two axles of motor to motor and Z', these two axles drive CCD vision sensors and return zero.

C) open measuring software system, be written into the error compensation tables of each kinematic axis of measuring instrument, start the software function panel and manually choose workpiece model and measurement scheme to be measured, measurement scheme is the scheme that the whole projects to be measured of this model workpiece are detected, and comprises project sequence number to be checked, title, positional information, standard size and margin tolerance.

D) measuring phases is clicked and is measured button, and total system brings into operation.Automatically automatic feed mechanism is by the microseismic activity of shaking table 13, make part from sliding to the position of mechanical arm 11 slowly on the shaking table 13, mechanical arm 11 is under the effect of control system, at interval per two adjacent parts are pushed on the travelling belt 5 according to certain hour, make two adjacent part distances be spaced apart two distances of measuring station.

E) when a cylinder sleeve class part is measured station by first, be installed in first photoelectric sensor of measuring the station place and be triggered, the notice control system has part arrival first to measure station.Control system at first makes travelling belt stop motion, then orders the 3rd mechanical arm that workpiece shift to the first is measured the measuring position of station, treat 24 pairs of parts of the first V-type locating piece position finish after, measuring machine begins to carry out the measurement of external diameter in the part.Move under the contactless gauge head 27 of hybrid technology is axial along Z based on laser, the measurement of external diameter in finishing, and will measure dash number.Then, under the control of control system, 23 actions of the 4th mechanical arm return to cylinder sleeve class part on the travelling belt 5.

F) then, control system is sent instruction, and travelling belt two distances of measuring station of moving again are about to be sent to second at first part of measuring station and measure station, and second part of measuring the station place is sent to the automatic fraction collector structure.When part arrives the second measurement station, be positioned at second photoelectric sensor of measuring the station place and be triggered, the notice control system has part to reach the second measurement station.Control system at first makes travelling belt stop motion, then orders the 5th mechanical arm that workpiece shift to the second is measured the measuring position of station, treat 34 pairs of parts of the second V-type locating piece position finish after, measuring machine begins to carry out the measurement of part chamfering.Then, Y' to motor and Z' to the vertical vision frame of motor-driven and Lateral vision frame, thereby drive the CCD vision sensor moves to vision measurement according to the setting in the measurement scheme Initial fix, the CCD photographic images also is uploaded to host computer, finish the measurement of part chamfering, and will measure dash number.Then, under the control of control system, manipulator behavior returns to part on the travelling belt 5.

G) obtain result of calculation after, program outputs to user interface with the result with the form of figure and data, whether standard size that should the measurement project and measurement result that margin tolerance is judged this project be qualified according to being stored in advance in the database, and qualification result will output to the interface.

H) after part returns on the travelling belt, travelling belt two distances of measuring between the station of under the effect of control system, moving again.When part arrived sorting mechanism, the photoelectric sensor that is positioned at the sorting mechanism place was triggered, and sent signal and gave control system, and control system inquiry host computer should be numbered the information (acceptance or rejection) of part, and part is carried out sorting process.

Measuring process explained above just has the detection step of the cylinder sleeve class part of inside/outside diameter size and chamfering information at certain, for the cylinder sleeve of measuring other different size, different surfaces feature, need size difference, the feature difference of detection, the step of measuring route and detection may need to adjust accordingly.

Claims (10)

1. a multiparameter scene is measured and separation system automatically, include for the travelling belt (5) that transmits each cylinder sleeve class part to be measured (6), it is characterized in that, be disposed with in a side of travelling belt (5) and along the length direction of travelling belt (5): be used for each cylinder sleeve class part to be measured (6) automatic transport automatic feed mechanism (1) to the travelling belt (5), for the first measurement station (2) that physical dimension and the morpheme error of cylinder sleeve class part to be measured (6) are carried out high-acruracy survey, for the second measurement station (3) of the profile information that obtains cylinder sleeve class part (6) and for the automatic fraction collector structure (4) of the cylinder sleeve class part (6) of various criterion being classified automatically and selecting according to the measurement result of front.

2. multiparameter according to claim 1 is on-the-spot measures and separation system automatically, it is characterized in that, travelling belt (5) go up between each cylinder sleeve class part (2) distance for set apart from d, described apart from d for guaranteeing that first measures station (2) and the second measurement station (3) enters surveying work next time simultaneously.

3. multiparameter according to claim 1 is on-the-spot measures and separation system automatically, it is characterized in that, described automatic feed mechanism (1) includes first mechanical arm (11), second mechanical arm (12), shaking table (13) and Vib. (14), described Vib. (14) is connected the bottom of shaking table (13), described first mechanical arm (11), a side that is arranged on travelling belt (5) that is connected by conveying trough (15) between second mechanical arm (12) and the shaking table (13), and, the setting that described first mechanical arm (11) parallels with travelling belt (5), the setting that described second mechanical arm (12) and shaking table (13) and travelling belt (5) are perpendicular.

4. multiparameter according to claim 3 is on-the-spot measures and separation system automatically, it is characterized in that, described conveying trough (15) is T type structure, described first mechanical arm (11) and second mechanical arm (12) correspondence respectively are arranged on the two ends of the translot of T type structure conveying trough (15), described this translot parallels with described travelling belt (5), and, second mechanical arm (12) wherein is to link to each other with described conveying trough (15) with the perpendicular straight trough (16) of described travelling belt (5) by one, the outlet correspondence of described shaking table (13) that be arranged on T type structure conveying trough (15) with the bottom perpendicular pod of described translot.

5. multiparameter according to claim 1 is on-the-spot measures and separation system automatically, it is characterized in that, described first measures station (2) includes: first worktable (21) with automatic feed mechanism (1) one side that is arranged on travelling belt (5) be arranged on travelling belt (5) opposite side and three mechanical arm (22) corresponding with described first worktable (21), described first worktable (21) is gone up and is positioned at the perpendicular direction of described travelling belt (5) and is provided with by mechanical arm guide rail (231), be arranged on the 4th mechanical arm (23) that mechanical arm pushing hands (232) on the mechanical arm guide rail (231) and driving device hand push hand (232) constitute along the mobile robot drives motor (233) of mechanical arm guide rail (231), go up and the front that is positioned at the 4th mechanical arm (23) is provided with the first V-type locating piece (24) that positions for to the cylinder sleeve class part of being shifted onto by the 3rd mechanical arm (22) on first worktable (21) (6) at first worktable (21), first worktable (21) go up and be positioned at the both sides of the 4th mechanical arm (23) symmetrical respectively be provided with a fixed leg (25), the top of the fixed leg (25) of the 4th mechanical arm (23) both sides is provided with for the measuring mechanism (28) that cylinder sleeve class part (6) is measured, described measuring mechanism includes the level and vertical moving structure that is supported on fixed leg (25) top, with the main shaft (26) that level links to each other with vertical moving structure, be fixedly connected on the contactless gauge head (27) that the surfaces externally and internally of cylinder sleeve class part (6) is measured of being used for of main shaft (26) bottom.

6. multiparameter according to claim 5 is on-the-spot measures and separation system automatically, it is characterized in that, described level and vertical moving structure (28) include the X-axis guide rail (281) on fixed leg (25) top that is arranged on the 4th mechanical arm (23) both sides, be fixed on the measurement guide rail outer cover (280) on the X-axis guide rail (281) and be arranged on balladeur train (282) on the X-axis guide rail (281), one side of described X-axis guide rail (281) is equipped with X-axis cog belt (284) by the X-axis pulley (283) that is arranged on two ends, described X-axis cog belt (284) is fixedlyed connected with described balladeur train (282), also be provided with the X-axis motor (285) that drives X-axis cog belt (284) on the described X-axis guide rail (281), outer being formed with of protruding of a side direction that described balladeur train (282) is positioned at travelling belt (5) can be run through main shaft (26) and be driven main shaft (26) with the mobile last orienting sleeve (286) of balladeur train (282), be fixedly connected with Z axle cog belt (288) on the described main shaft (26), described Z axle cog belt (288) rotates by the Z spindle motor (289) that is separately fixed at two the Z axle pulleys (283) on balladeur train (282) and the measurement guide rail outer cover (280) and be fixed on the balladeur train (282).

7. multiparameter according to claim 6 is on-the-spot measures and separation system automatically, it is characterized in that the lower end of described X-axis guide rail (281) is provided with and the described corresponding following orienting sleeve (287) that can run through main shaft (26) of orienting sleeve (286) of going up.

8. multiparameter according to claim 5 is on-the-spot measures and separation system automatically, it is characterized in that, described contactless gauge head (27) includes and is positioned at the middle part and can be inserted into cylinder sleeve class part (6) suspension rod (271) in week when moving down at this contactless gauge head (27), with described in suspension rod (271) parallel be evenly distributed in interior suspension rod (271) periphery and suspension rod (272) this contactless gauge head (27) is positioned at four of periphery of cylinder sleeve class part (6) when moving down outside, wherein, the end of described four outer suspension rods (272) respectively arranges a sensor (273) that is used for the periphery wall of cylinder sleeve class part (6) is carried out signals collecting, and described interior suspension rod (271) end is provided with four sensors (273) that carry out signals collecting for the internal perisporium to cylinder sleeve class part (6).

9. multiparameter according to claim 1 is on-the-spot measures and separation system automatically, it is characterized in that, described second measures station (3) includes: second worktable (31) with automatic feed mechanism (1) one side that is arranged on travelling belt (5) be arranged on travelling belt (5) opposite side and five mechanical arm (32) corresponding with described second worktable (31), described second worktable (31) is gone up and is positioned at the perpendicular direction of described travelling belt (5) and is provided with mechanical arm guide rail (36), described mechanical arm guide rail (36) is provided with robot drives motor (37) away from that end of travelling belt (5), mechanical arm guide rail (36) is provided with first leading screw (38) that is connected with the output shaft of robot drives motor (37), described mechanical arm guide rail (36) is provided with can be by described first leading screw (38) along the mobile slide block (35) of mechanical arm guide rail (36), the top of described mechanical arm guide rail (36) is provided with the 6th mechanical arm (33) of mechanical arm (332) formation that is linked to each other with mechanical arm pushing hands (331) by mechanical arm pushing hands (331) and an end, described mechanical arm pushing hands (331) is corresponding with the cylinder sleeve class part of being shifted onto on second worktable (31) by the 5th mechanical arm (32) (6), the other end of described mechanical arm (332) is fixedly connected on the slide block (35), go up and the front that is positioned at the 6th mechanical arm (33) is provided with the second V-type locating piece (34) that positions for to the cylinder sleeve class part of being shifted onto by the 5th mechanical arm (32) on second worktable (31) (6) at second worktable (31), also be provided with the vision frame that parallels with described mechanical arm guide rail (36) on described second worktable (31) and adjust guide rail (39), vision frame adjustment guide rail (39) is provided with vision frame adjustment motor (310) away from that end of travelling belt (5), the vision frame is adjusted guide rail (39) and is provided with second leading screw (311) that is connected with the output shaft of vision frame adjustment motor (310), described vision frame is adjusted and also is vertically installed with on the guide rail (39) and can adjusts the mobile vertical vision frame (312) of guide rail (39) along the vision frame by described second leading screw (311), one end of described vertical vision frame (312) is provided with vision frame motor, described vertical vision frame (312) is gone up also longitudinally, and the length direction of vision frame (312) is provided with the 3rd leading screw (316) that links to each other with the output shaft of described vision frame motor, also being provided with on described vertical vision frame (312) can be by the 3rd leading screw (316) the Lateral vision frame (313) that moves up and down of vision frame (312) longitudinally, be respectively arranged with for the lighting source dorsad (314) that cylinder sleeve class part (6) is thrown light on the described Lateral vision frame (313) and be used for gather the CCD vision sensor (315) of cylinder sleeve class part (6) image information, described lighting source dorsad (314) and CCD vision sensor (315) are coaxial and all be parallel to X-axis.

10. multiparameter according to claim 1 is on-the-spot measures and separation system automatically, it is characterized in that, described automatic fraction collector structure (4) include be positioned at travelling belt (5) one sides be used for to promote go up from travelling belt (5) detection of in-migration qualified/the 7th mechanical arm (42) of underproof cylinder sleeve class part (6), be positioned at travelling belt (5) opposite side and corresponding with the 7th mechanical arm (42) be provided with for receive the detection that is promoted by the 7th mechanical arm (42) qualified/first acceptance division (41) of underproof cylinder sleeve class part (6), be positioned at travelling belt (5) terminal be used for receiving from travelling belt (5) go up the detection of in-migration defective/second acceptance division of qualified cylinder sleeve class part (6).

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