CN204286388U - A kind of self-calibration system of articulated arm coordinate measuring machine - Google Patents
A kind of self-calibration system of articulated arm coordinate measuring machine Download PDFInfo
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- CN204286388U CN204286388U CN201420712471.0U CN201420712471U CN204286388U CN 204286388 U CN204286388 U CN 204286388U CN 201420712471 U CN201420712471 U CN 201420712471U CN 204286388 U CN204286388 U CN 204286388U
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Abstract
The utility model relates to a kind of self-calibration system of articulated arm coordinate measuring machine, belongs to self-calibration field.The utility model comprises self-calibration device, articulated arm coordinate measuring machine, computing machine, self-calibration device cable, articulated arm coordinate measuring machine cable, and described computing machine contains data collecting card; Wherein self-calibration device is by self-calibration device cable and computing machine connecting communication, and articulated arm coordinate measuring machine is by articulated arm coordinate measuring machine cable and computing machine connecting communication; The effective length of self-calibration device and the corner of articulated arm coordinate measuring machine is gathered by Computercontrolled data acquisition card; The effective length of described self-calibration device is the distance of the reference sphere centre of sphere and the steel ball gauge head centre of sphere.The utility model is that structural parameters resolve and provide the stronger Data support of robustness; Improve reliability and precision that structural parameters resolve; Proving operation is light more flexibly.
Description
Technical field
The utility model relates to a kind of self-calibration system of articulated arm coordinate measuring machine, belongs to self-calibration field.
Background technology
Articulated arm coordinate measuring machine is a kind of multiple degrees of freedom coordinate measurment instrument, now multiplex in fields such as industry spot measurement, product reverse engineer.Articulated arm coordinate measuring machine adopts the space fisher's formula structure of similar articulated robot, this structure makes articulated arm coordinate measuring machine have, and volume is little, measurement range greatly, light flexibly feature, but there is the shortcoming that error accumulation is amplified in this version, the structural parameters error in joint at different levels can be amplified step by step, thus causes the precision of measuring machine to reduce.
Kinematic Calibration is the effective ways eliminating articulated arm coordinate measuring machine structural parameters error, but due to the greatest differences of version, the scaling method of traditional normal coordinates measuring machine cannot directly apply on articulated arm coordinate measuring machine, and the scaling method of robot field generally all will by the fine measuring instrument of the costliness such as laser tracker, laser interferometer, and proving operation complex steps, nominal time are long, therefore also application cost is very high.The scaling method based on single-point that current research is more, because the space of articulated arm coordinate measuring machine is limited, partial joint motion is insufficient, therefore the data similarity collected is higher, easily local minimizers number is absorbed in when structural parameters resolve, the structural parameters precision obtained is lower, thus effectively cannot improve the precision of articulated arm coordinate measuring machine.
Summary of the invention
The utility model provides a kind of self-calibration system of articulated arm coordinate measuring machine, by the space in each joint during increase proving operation, make the data that collect extensively and without dead angle, thus improve the robustness resolved of structural parameters and precision, and improve the precision of articulated arm coordinate measuring machine.
The technical solution of the utility model is: a kind of self-calibration system of articulated arm coordinate measuring machine, comprise self-calibration device, articulated arm coordinate measuring machine 12, computing machine 15, self-calibration device cable 16, articulated arm coordinate measuring machine cable 17, described computing machine 15 is containing data collecting card; Wherein self-calibration device is by self-calibration device cable 16 and computing machine 15 connecting communication, and articulated arm coordinate measuring machine 12 is by articulated arm coordinate measuring machine cable 17 and computing machine 15 connecting communication; The effective length of self-calibration device and the corner of articulated arm coordinate measuring machine 12 is gathered by computing machine 15 control data capture card; The effective length of described self-calibration device is the distance of reference sphere 3 centre of sphere and steel ball gauge head 11 centre of sphere.
Described self-calibration device comprises magnetic cone seat 1, stationary platform 2, reference sphere 3, supporting rail 4, connecting link 5, slip rail 6, containment vessel 7, grating scale 8, grating reading head 9, magnetic taper hole bar 10, steel ball gauge head 11, containment vessel set bolt 13, read head erection bolt 14, wherein magnetic cone seat 1 is arranged in stationary platform 2 by bolt, reference sphere 3 relies on magnetic force and magnetic to bore seat 1 to be connected, reference sphere 3 is linked together by connecting link 5 with the supporting rail 4 of guiding pair, guiding pair is by supporting rail 4, slip rail 6 and containment vessel 7 form, supporting rail 4 is provided with grating scale 8, slip rail 6 is provided with grating reading head 9 by read head erection bolt 14, containment vessel 7 is arranged on supporting rail 4 in order to protect grating scale 8 and grating reading head 9 by containment vessel set bolt 13, read out by the effective length of grating reading head 9 by current self-calibration device, calculate for Identification of Structural Parameters, one end of magnetic taper hole bar 10 is connected with slip rail 6 by screw thread, the taper hole of the other end of magnetic taper hole bar 10 is connected by magnetic force with steel ball gauge head 11, steel ball gauge head 11 is arranged on articulated arm coordinate measuring machine 12.
Described reference sphere 3 is steel reference sphere.
Principle of work of the present utility model is: be connected by magnetic force with the magnetic taper hole bar 10 of self-calibration device by the steel ball gauge head 11 of articulated arm coordinate measuring machine, distance between steel ball gauge head 11 and reference sphere 3 is read by the grating scale 8 being arranged on self-calibration device inside, according to the joint rotation angle data of the Distance geometry articulated arm coordinate measuring machine 12 between the steel ball gauge head 11 collected and reference sphere 3, by the kinematical equation equation that to obtain with measuring machine structural parameters be unknown quantity, a series of equation can be obtained according to joint rotation angle order change, the equation that simultaneous obtains can obtain Identification of Structural Parameters system of equations, solve the structural parameters that Identification of Structural Parameters system of equations can obtain measuring machine, realize the demarcation of measuring machine.
Concrete steps are as follows:
Step1, to power on, open self-calibration device and articulated arm coordinate measuring machine 12;
Step2, by self-calibration device and articulated arm coordinate measuring machine 12 back to zero, and by steel ball gauge head 11 and the adhesive of magnetic taper hole bar 10, then realize self-calibration device and articulated arm coordinate measuring machine 12 links together;
Step3, articulated arm coordinate measuring machine 12 moved to initial pose and meets count initialized variable i=0;
Step4, judge whether to complete nominal data acquisition operations:
If not yet complete, go to step Step5; If completed nominal data acquisition operations, go to step Step8;
Step5, counting variable are from increasing 1:i=i+1;
Step6, gathered the effective length l of i-th group of self-calibration device by data collecting card
iwith the corner data of articulated arm coordinate measuring machine 12;
The pose of Step7, conversion articulated arm coordinate measuring machine 12, the principle of conversion is: the corner converting each joint according to the size of joint order successively; Wherein all joints number of transitions sum be n and each joint conversion number of times be more than 5 times (comprising 5 times); Just turn back to step Step4 after often converting once to judge;
Step8, complete nominal data gather after, make n=i;
Step9, utilize the kinematical equation of the data that collect and articulated arm coordinate measuring machine to list n equation, the form of each equation is:
Wherein:
The coordinate figure of steel ball gauge head 11 when representing jth pose, θ
1, j, θ
2, j..., θ
k,jrepresent k corner during articulated arm coordinate measuring machine 12 jth pose; (x
0, y
0, z
0) be the coordinate figure of reference sphere 3; l
jfor a jth effective length of self-calibration device;
Step10, solve the system of equations be made up of n equation:
…
The structure parameter vectors p of measuring machine can be obtained;
Step11, by structure parameter vectors p substitute into articulated arm coordinate measuring machine 12 kinematical equation in, checking calibration result validity, complete the demarcation of measuring machine.
The beneficial effects of the utility model are:
1, adopt the guideway of vary in length, thus the space of measuring machine gauge head becomes large when image data, the motion in each joint of measuring machine is more abundant, provides the stronger Data support of robustness for structural parameters resolve.
2, the effective length of self-calibration device accurately can be read by grating scale system, improves reliability and precision that structural parameters resolve.
3, during self-calibration, reference sphere and steel ball gauge head freely can rotate in respective taper hole, and because this increasing the degree of freedom of whole articulated arm coordinate measuring machine self-calibration system, proving operation is light more flexibly.
Accompanying drawing explanation
Fig. 1 is the structural representation of self-calibration device in the utility model;
Fig. 2 is the outside drawing of self-calibration device in the utility model;
Fig. 3 is the pose figure of the utility model device in self-calibration process during image data;
In figure: 1-magnetic cone seat, 2-stationary platform, 3-reference sphere, 4-supporting rail, 5-connecting link, 6-slip rail, 7-containment vessel, 8-grating scale, 9-grating reading head, 10-magnetic taper hole bar, 11-steel ball gauge head, 12-articulated arm coordinate measuring machine, 13-containment vessel set bolt, 14-read head erection bolt, 15-computing machine, 16-self-calibration device cable, 17-articulated arm coordinate measuring machine cable.
Embodiment
Embodiment 1: as Figure 1-3, a kind of self-calibration system of articulated arm coordinate measuring machine, comprise self-calibration device, articulated arm coordinate measuring machine 12, computing machine 15, self-calibration device cable 16, articulated arm coordinate measuring machine cable 17, described computing machine 15 is containing data collecting card; Wherein self-calibration device is by self-calibration device cable 16 and computing machine 15 connecting communication, and articulated arm coordinate measuring machine 12 is by articulated arm coordinate measuring machine cable 17 and computing machine 15 connecting communication; The effective length of self-calibration device and the corner of articulated arm coordinate measuring machine 12 is gathered by computing machine 15 control data capture card; The effective length of described self-calibration device is the distance of reference sphere 3 centre of sphere and steel ball gauge head 11 centre of sphere.
Described self-calibration device comprises magnetic cone seat 1, stationary platform 2, reference sphere 3, supporting rail 4, connecting link 5, slip rail 6, containment vessel 7, grating scale 8, grating reading head 9, magnetic taper hole bar 10, steel ball gauge head 11, containment vessel set bolt 13, read head erection bolt 14, wherein magnetic cone seat 1 is arranged in stationary platform 2 by bolt, reference sphere 3 relies on magnetic force and magnetic to bore seat 1 to be connected, reference sphere 3 is linked together by connecting link 5 with the supporting rail 4 of guiding pair, guiding pair is by supporting rail 4, slip rail 6 and containment vessel 7 form, supporting rail 4 is provided with grating scale 8, slip rail 6 is provided with grating reading head 9 by read head erection bolt 14, containment vessel 7 is arranged on supporting rail 4 in order to protect grating scale 8 and grating reading head 9 by containment vessel set bolt 13, read out by the effective length of grating reading head 9 by current self-calibration device, calculate for Identification of Structural Parameters, one end of magnetic taper hole bar 10 is connected with slip rail 6 by screw thread, the taper hole of the other end of magnetic taper hole bar 10 is connected by magnetic force with steel ball gauge head 11, steel ball gauge head 11 is arranged on articulated arm coordinate measuring machine 12.
Described reference sphere 3 is steel reference sphere.
Embodiment 2: as Figure 1-3, a kind of self-calibration system of articulated arm coordinate measuring machine, comprise self-calibration device, articulated arm coordinate measuring machine 12, computing machine 15, self-calibration device cable 16, articulated arm coordinate measuring machine cable 17, described computing machine 15 is containing data collecting card; Wherein self-calibration device is by self-calibration device cable 16 and computing machine 15 connecting communication, and articulated arm coordinate measuring machine 12 is by articulated arm coordinate measuring machine cable 17 and computing machine 15 connecting communication; The effective length of self-calibration device and the corner of articulated arm coordinate measuring machine 12 is gathered by computing machine 15 control data capture card; The effective length of described self-calibration device is the distance of reference sphere 3 centre of sphere and steel ball gauge head 11 centre of sphere.
Described self-calibration device comprises magnetic cone seat 1, stationary platform 2, reference sphere 3, supporting rail 4, connecting link 5, slip rail 6, containment vessel 7, grating scale 8, grating reading head 9, magnetic taper hole bar 10, steel ball gauge head 11, containment vessel set bolt 13, read head erection bolt 14, wherein magnetic cone seat 1 is arranged in stationary platform 2 by bolt, reference sphere 3 relies on magnetic force and magnetic to bore seat 1 to be connected, reference sphere 3 is linked together by connecting link 5 with the supporting rail 4 of guiding pair, guiding pair is by supporting rail 4, slip rail 6 and containment vessel 7 form, supporting rail 4 is provided with grating scale 8, slip rail 6 is provided with grating reading head 9 by read head erection bolt 14, containment vessel 7 is arranged on supporting rail 4 in order to protect grating scale 8 and grating reading head 9 by containment vessel set bolt 13, read out by the effective length of grating reading head 9 by current self-calibration device, calculate for Identification of Structural Parameters, one end of magnetic taper hole bar 10 is connected with slip rail 6 by screw thread, the taper hole of the other end of magnetic taper hole bar 10 is connected by magnetic force with steel ball gauge head 11, steel ball gauge head 11 is arranged on articulated arm coordinate measuring machine 12.
Embodiment 3: as Figure 1-3, a kind of self-calibration system of articulated arm coordinate measuring machine, comprise self-calibration device, articulated arm coordinate measuring machine 12, computing machine 15, self-calibration device cable 16, articulated arm coordinate measuring machine cable 17, described computing machine 15 is containing data collecting card; Wherein self-calibration device is by self-calibration device cable 16 and computing machine 15 connecting communication, and articulated arm coordinate measuring machine 12 is by articulated arm coordinate measuring machine cable 17 and computing machine 15 connecting communication; The effective length of self-calibration device and the corner of articulated arm coordinate measuring machine 12 is gathered by computing machine 15 control data capture card; The effective length of described self-calibration device is the distance of reference sphere 3 centre of sphere and steel ball gauge head 11 centre of sphere.
By reference to the accompanying drawings embodiment of the present utility model is explained in detail above, but the utility model is not limited to above-mentioned embodiment, in the ken that those of ordinary skill in the art possess, various change can also be made under the prerequisite not departing from the utility model aim.
Claims (3)
1. the self-calibration system of an articulated arm coordinate measuring machine, it is characterized in that: comprise self-calibration device, articulated arm coordinate measuring machine (12), computing machine (15), self-calibration device cable (16), articulated arm coordinate measuring machine cable (17), described computing machine (15) is containing data collecting card; Wherein self-calibration device is by self-calibration device cable (16) and computing machine (15) connecting communication, and articulated arm coordinate measuring machine (12) is by articulated arm coordinate measuring machine cable (17) and computing machine (15) connecting communication; The effective length of self-calibration device and the corner of articulated arm coordinate measuring machine (12) is gathered by computing machine (15) control data capture card; The effective length of described self-calibration device is the distance of reference sphere (3) centre of sphere and steel ball gauge head (11) centre of sphere.
2. the self-calibration system of articulated arm coordinate measuring machine according to claim 1, is characterized in that: described self-calibration device comprises magnetic cone seat (1), stationary platform (2), reference sphere (3), supporting rail (4), connecting link (5), slip rail (6), containment vessel (7), grating scale (8), grating reading head (9), magnetic taper hole bar (10), steel ball gauge head (11), containment vessel set bolt (13), read head erection bolt (14), wherein magnetic cone seat (1) is arranged in stationary platform (2) by bolt, reference sphere (3) dependence magnetic force is bored seat (1) with magnetic and is connected, reference sphere (3) is linked together by connecting link (5) with the supporting rail (4) of guiding pair, guiding pair is by supporting rail (4), slip rail (6) and containment vessel (7) composition, supporting rail (4) is provided with grating scale (8), slip rail (6) is provided with grating reading head (9) by read head erection bolt (14), containment vessel (7) is arranged on supporting rail (4) in order to protect grating scale (8) and grating reading head (9) by containment vessel set bolt (13), read out by the effective length of grating reading head (9) by current self-calibration device, calculate for Identification of Structural Parameters, one end of magnetic taper hole bar (10) is connected with slip rail (6) by screw thread, the taper hole of the other end of magnetic taper hole bar (10) is connected by magnetic force with steel ball gauge head (11), steel ball gauge head (11) is arranged on articulated arm coordinate measuring machine (12).
3. the self-calibration system of articulated arm coordinate measuring machine according to claim 2, is characterized in that: described reference sphere (3) is steel reference sphere.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104390615B (en) * | 2014-11-24 | 2017-02-22 | 昆明理工大学 | Self-calibration system and method for articulated arm type coordinate measuring machine |
CN109631813A (en) * | 2019-01-22 | 2019-04-16 | 安徽工业大学 | A kind of scaling method of large scale articulated arm coordinate measuring machine |
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2014
- 2014-11-24 CN CN201420712471.0U patent/CN204286388U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104390615B (en) * | 2014-11-24 | 2017-02-22 | 昆明理工大学 | Self-calibration system and method for articulated arm type coordinate measuring machine |
CN109631813A (en) * | 2019-01-22 | 2019-04-16 | 安徽工业大学 | A kind of scaling method of large scale articulated arm coordinate measuring machine |
CN109631813B (en) * | 2019-01-22 | 2020-11-03 | 安徽工业大学 | Calibration method of large-size articulated arm type coordinate measuring machine |
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Granted publication date: 20150422 Termination date: 20161124 |