CN208780155U - A kind of optical fiber ceramic lock pin misalignment measurement calibration machine - Google Patents
A kind of optical fiber ceramic lock pin misalignment measurement calibration machine Download PDFInfo
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- CN208780155U CN208780155U CN201821575599.1U CN201821575599U CN208780155U CN 208780155 U CN208780155 U CN 208780155U CN 201821575599 U CN201821575599 U CN 201821575599U CN 208780155 U CN208780155 U CN 208780155U
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Abstract
The utility model discloses a kind of optical fiber ceramic lock pin misalignment measurement calibration machine, successively by feed table, sensing mechanism, feeding V platform, feeding swing arm, light-source system, detection V platform and survey light camera are formed, feed table, it is connected between sensing mechanism and feeding V platform by feeding track, feeding swing arm is rotatably arranged between feeding V platform and detection V platform, one end of feeding swing arm be equipped with pick up lock pin pick up mechanism, the lock pin on feeding V platform is sent on detection V platform by feeding swing arm, the top of detection V platform is up and down to be provided with swing roller mechanism, swing roller mechanism, which pushes to contact with the lock pin on detection V platform, rotates lock pin, the camera lens and light-source system for surveying light camera are located at the front and rear sides of detection V platform and reciprocal correspondence, light camera is surveyed by continuously imaging during lock pin continuous rotation, pass through continuous hot spot again Trajectory measurement goes out the degree of eccentricity of lock pin.The measurement and mark of the achievable degree of eccentricity of the utility model, and not consumable material, testing cost are low.
Description
Technical field
The utility model relates to the eccentric measurements of optical fiber ceramic lock pin, and in particular to a kind of optical fiber ceramic lock pin bias survey
Measure calibration machine.
Background technique
There is the concentricity that optical fiber ceramic lock pin is measured in such a way that sensor adds contact probe in existing industry equipment,
While having measured the degree of eccentricity, eccentric orientation is found out, and indicate eccentric direction.
Although detection target may be implemented in this kind of mode, but since probe is construction store, testing cost is higher.
Utility model content
The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of not consumable material, reduce detection at
This, the measurement and mark of the same achievable degree of eccentricity meet the optical fiber ceramic lock pin misalignment measurement calibration machine of requirement.
The technical solution of the utility model is as follows:
A kind of optical fiber ceramic lock pin misalignment measurement calibration machine, the optical fiber ceramic lock pin misalignment measurement demarcate machine successively by feeding
Disk, sensing mechanism, feeding V platform, feeding swing arm, light-source system, detection V platform and survey light camera are formed, the feed table, sensing
It is connected between mechanism and feeding V platform by feeding track, the feeding swing arm is rotatably arranged on the feeding V platform and detection V platform
Between, one end of the feeding swing arm be equipped with pick up lock pin pick up mechanism, will be on the feeding V platform by the feeding swing arm
Lock pin be sent on the detection V platform, the top of the detection V platform up and down is provided with swing roller mechanism, the rotation
Idler wheel mechanism, which pushes to contact with the lock pin on the detection V platform, rotates lock pin, the camera lens and light-source system for surveying light camera
The front and rear sides and reciprocal correspondence, the survey light camera for being located at the detection V platform pass through during lock pin continuous rotation
It continuously images, then measures the degree of eccentricity of lock pin by continuous spot tracks.
Further, the survey light camera is electrically connected with industrial PC.
Further, marking machine is provided with above the swing roller mechanism, the marking machine is used for described continuous
Spot tracks on most discrete hot spot direction marking, the marking is electrically connected with the industrial PC.
Further, the bottom for surveying light camera is provided with adjusting screw rod.
Further, it is convexly equipped with baffle towards the side of the camera lens for surveying light camera on the detection V platform, lock pin passes through
When the feeding swing arm is placed on the detection V platform, the front end face of lock pin is towards the baffle.
Further, sorting receiving mechanism is provided with below the detection V platform.
Compared with the existing technology, the utility model has the beneficial effects that: the utility model passes through the continuous rotation in lock pin
It is continuous during turning to image, then the degree of eccentricity of lock pin is measured by continuous spot tracks.The process not consumable material, detection
At low cost, the measurement and mark of the same achievable degree of eccentricity meet requirement.
Detailed description of the invention
Fig. 1 is the structural schematic diagram that a kind of optical fiber ceramic lock pin misalignment measurement provided by the utility model demarcates machine;
Fig. 2 is spot tracks figure described in the utility model.
Specific embodiment
Below in conjunction with the drawings and specific embodiments, the utility model is described in detail.
Referring to Fig. 1, the utility model provides a kind of optical fiber ceramic lock pin misalignment measurement calibration machine, the optical fiber ceramic lock pin
Misalignment measurement demarcates machine successively by feed table 1, sensing mechanism 2, feeding V platform 3, feeding swing arm 4, light-source system 5, detection 6 and of V platform
It surveys light camera 7 to be formed, be connected between feed table 1, sensing mechanism 2 and feeding V platform 3 by feeding track 11,4 turns of feeding swing arm
Between feeding V platform 3 and detection V platform 6, one end of feeding swing arm 4 is equipped with the mechanism that picks up for picking up lock pin for dynamic setting, detects V platform 3
Top it is up and down be provided with swing roller mechanism 8, the camera lens 71 and light-source system 5 for surveying light camera 7 are located at detection V platform
6 front and rear sides and reciprocal correspondence detect and are convexly equipped with baffle 61 towards the side for the camera lens 71 for surveying light camera 7 on V platform 6, survey light
The bottom of camera 7, which is provided with, adjusts screw rod 72, accurately to focus and be imaged, surveys light camera 7 and is electrically connected with industrial PC 9, rotate
The top of idler wheel mechanism 8 is provided with marking machine 10, and marking 10 is electrically connected with industrial PC 9, and the lower section of detection V platform 6 is provided with
Sort receiving mechanism 20.
Working principle: feed table 1 by lock pin 30 by being successively sent to sensing mechanism 2, before lock pin 30 is differentiated by sensing mechanism 2
After rear end face, lock pin 30 is sent to feeding V platform 3, the mechanism that picks up of feeding swing arm 4 picks up 30 back spin turnback of lock pin, by lock pin
30 be sent to detection V platform 3, at this time lock pin 30 front end face towards detection 6 side of V platform baffle 61, swing roller mechanism 8 push with
The contact of lock pin 30 on detection V platform 3 rotates lock pin 30, by the swing roller mechanism 8 of the driving lock pin rotation of motor form, presses
System command drives lock pin to rotate to the eccentric direction i.e. direction of marking, and light-source system 5 opens light, and light is worn from 30 hole of lock pin
It crosses, in front end face observation, there are a small light spot, i.e. 30 inner hole of lock pin in 30 end face of lock pin, surveys light camera 7 and is put by the intake of camera lens 71
Big hot spot continuously images during 30 continuous rotation of lock pin, and the degree of eccentricity of continuous spot tracks and lock pin 30 is being just at this time
Correlation, as shown in Fig. 2, spot center A, B, C, D for rotating to different directions are coupled into a circle, this diameter of a circle is slotting
The concentricity of core 30, spot center A is due to more discrete, is exactly lock pin with coupling circle center distance f outside Coupled Circle
30 degree of eccentricity, software analyzes most discrete hot spot and in this direction by 10 marking of marking machine when detection, measures the hot spot
Center and coupling circle center distance f, that is, degree of eccentricity, after indicating and being measured, sorting receiving mechanism 20 is by classifying rules point
Class.
System detection be lock pin centre bore discrete or eccentric direction, discrete or eccentric degree.
The utility model can measure the eccentricity in lock pin hole, and indicate corresponding position.It in another embodiment, can be with
It is changing into measurement and indicates minimum eccentricity and position or the position of a certain specified eccentricity, such as measure and mark mark eccentricity is
The position of 1UM greatly reduces dislocation docking in this way in classification or in pairs in use, actual apertures center is substantially aligned with.It can be used
The scaling method of its show hole center relative position, takes corresponding relative position, reaches the docking dislocation of hole center and reduces or reduce.Such as
Using the mark of erasable, corresponding mark is transferred on corresponding correlated parts part.
The measurement and mark of the achievable degree of eccentricity of the utility model, meet requirement, and not consumable material in the process, inspection
It surveys at low cost.
The above is only the preferred embodiments of the present utility model only, is not intended to limit the utility model, all practical at this
Made any modifications, equivalent replacements, and improvements etc., should be included in the guarantor of the utility model within novel spirit and principle
Within the scope of shield.
Claims (6)
1. a kind of optical fiber ceramic lock pin misalignment measurement demarcates machine, it is characterised in that: the optical fiber ceramic lock pin misalignment measurement demarcates machine
Successively it is made of feed table, sensing mechanism, feeding V platform, feeding swing arm, light-source system, detection V platform and survey light camera, it is described
It is connected between feed table, sensing mechanism and feeding V platform by feeding track, the feeding swing arm is rotatably arranged on the feeding V
Between platform and detection V platform, one end of the feeding swing arm be equipped with pick up lock pin pick up mechanism, by the feeding swing arm by institute
It states the lock pin on feeding V platform to be sent on the detection V platform, the top of the detection V platform is up and down to be provided with swing roller machine
Structure, the swing roller mechanism, which pushes to contact with the lock pin on the detection V platform, rotates lock pin, the camera lens for surveying light camera
And light-source system is located at the front and rear sides of the detection V platform and reciprocal correspondence, the survey light camera pass through continuous in lock pin
It is continuously imaged in rotary course, then measures the degree of eccentricity of lock pin by continuous spot tracks.
2. a kind of optical fiber ceramic lock pin misalignment measurement according to claim 1 demarcates machine, it is characterised in that: the survey light phase
Mechatronics have industrial PC.
3. a kind of optical fiber ceramic lock pin misalignment measurement according to claim 2 demarcates machine, it is characterised in that: the rotation rolling
Marking machine is provided with above wheel mechanism, the marking machine is used for hot spot direction most discrete in the continuous spot tracks
Marking, the marking are electrically connected with the industrial PC.
4. a kind of optical fiber ceramic lock pin misalignment measurement according to claim 1 demarcates machine, it is characterised in that: the survey light phase
The bottom of machine is provided with adjusting screw rod.
5. a kind of optical fiber ceramic lock pin misalignment measurement according to claim 1 demarcates machine, it is characterised in that: the detection V
It is convexly equipped with baffle towards the side of the camera lens for surveying light camera on platform, lock pin is placed on the detection by the feeding swing arm
When on V platform, the front end face of lock pin is towards the baffle.
6. a kind of optical fiber ceramic lock pin misalignment measurement according to claim 1 demarcates machine, it is characterised in that: the detection V
Sorting receiving mechanism is provided with below platform.
Priority Applications (1)
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CN201821575599.1U CN208780155U (en) | 2018-09-27 | 2018-09-27 | A kind of optical fiber ceramic lock pin misalignment measurement calibration machine |
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CN201821575599.1U CN208780155U (en) | 2018-09-27 | 2018-09-27 | A kind of optical fiber ceramic lock pin misalignment measurement calibration machine |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112254680A (en) * | 2020-10-15 | 2021-01-22 | 天目爱视(北京)科技有限公司 | Multi freedom's intelligent vision 3D information acquisition equipment |
CN116893045A (en) * | 2023-07-21 | 2023-10-17 | 武汉楚星光纤应用技术有限公司 | Test method and test device for optical fiber mechanical anisotropy/isotropy |
-
2018
- 2018-09-27 CN CN201821575599.1U patent/CN208780155U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112254680A (en) * | 2020-10-15 | 2021-01-22 | 天目爱视(北京)科技有限公司 | Multi freedom's intelligent vision 3D information acquisition equipment |
CN112254680B (en) * | 2020-10-15 | 2022-08-12 | 天目爱视(北京)科技有限公司 | Multi freedom's intelligent vision 3D information acquisition equipment |
CN116893045A (en) * | 2023-07-21 | 2023-10-17 | 武汉楚星光纤应用技术有限公司 | Test method and test device for optical fiber mechanical anisotropy/isotropy |
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