CN205718839U - Callosity detection device - Google Patents
Callosity detection device Download PDFInfo
- Publication number
- CN205718839U CN205718839U CN201620406562.0U CN201620406562U CN205718839U CN 205718839 U CN205718839 U CN 205718839U CN 201620406562 U CN201620406562 U CN 201620406562U CN 205718839 U CN205718839 U CN 205718839U
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- callosity
- radium
- detection device
- ccd camera
- shine module
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- 208000003643 Callosities Diseases 0.000 title claims abstract description 86
- 206010020649 Hyperkeratosis Diseases 0.000 title claims abstract description 86
- 238000001514 detection method Methods 0.000 title claims abstract description 74
- 238000009434 installation Methods 0.000 claims abstract description 4
- 239000012780 transparent material Substances 0.000 claims abstract description 4
- 230000013011 mating Effects 0.000 description 7
- 238000004519 manufacturing process Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000015556 catabolic process Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 230000002950 deficient Effects 0.000 description 1
- 238000005259 measurement Methods 0.000 description 1
- 230000002028 premature Effects 0.000 description 1
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Abstract
nullThis utility model provides a kind of callosity detection device,Including the monitor station placing described object under test、It is arranged at the detection zone below described monitor station、The radium-shine module being arranged in described detection zone、The CCD camera that adjacent described radium-shine module is arranged、Described radium-shine module and the CCD camera driving assembly of movement below described monitor station can be driven,And it is electrically connected with described radium-shine module and the processor of CCD camera,Described monitor station has the object under test supporting region being made up of transparent material,Described callosity detection device whole installation is: gathered the foot pad location of object under test by described CCD camera after,Described processor controls described radium-shine module and measures the vertical dimension between each callosity and described supporting region,And then the coplane degree of callosity is obtained according to described vertical dimension,Have easy to operate、Measure accurate and that detection efficiency is high advantage.
Description
Technical field
This utility model belongs to Light Electrical product scope, particularly relates to a kind of measuring equipment utilizing laser measurement product callosity.
Background technology
The bottom of existing electronic product is standing is equipped with callosity, but often there is non-coplanar phenomenon because of manufacturing defect in callosity, cause occurring in use rocking, not only affect experience, it is also easy to cause the deformation of inner body or loosen, causes electronic product premature breakdown, and the most mostly by manual detection electronic product callosity coplane degree, take time and effort, and be not easy to identify callosity on underproof electronic product by naked eyes.It addition, manual detection there is also operation inconvenience, and the shortcoming of inefficiency.
In view of this, it is necessary to provide a kind of callosity detection device to solve the problems referred to above.
Utility model content
The purpose of this utility model be to provide a kind of can the device of automatic discrimination object under test callosity coplane degree, have easy to operate, measure precisely and advantage that detection efficiency is high.
nullFor realizing above-mentioned utility model purpose,This utility model provides a kind of callosity detection device,In order to detect the coplane degree of callosity bottom an object under test,Described callosity detection device includes the monitor station placing described object under test、It is arranged at the detection zone below described monitor station、The radium-shine module being arranged in described detection zone、The CCD camera that adjacent described radium-shine module is arranged、Described radium-shine module and the CCD camera driving assembly of movement below described monitor station can be driven,And it is electrically connected with described radium-shine module and the processor of CCD camera,Described monitor station has the object under test supporting region being made up of transparent material,Described callosity detection device whole installation is: gathered the foot pad location of object under test by described CCD camera after,Described processor controls described radium-shine module and measures the vertical dimension between each callosity and described supporting region,And then the coplane degree of callosity is obtained according to described vertical dimension.
As further improvement of the utility model, described callosity detection device also includes being arranged at the base plate bottom described detection zone, and from the upwardly extending some supporters of described base plate, described monitor station is arranged on the top of some described supporters.
As further improvement of the utility model, described driving assembly includes the slide track component being arranged on described base plate, described slide track component includes two the first slide rails be arrangeding in parallel, the second slide rail being horizontally set with on two described first slide rails and can be slidably matched along described first slide rail, and the slide block being slidably matched with described second slide rail, described radium-shine module and CCD camera are fixedly installed on described slide block, described driving assembly also includes the driving source driving described radium-shine module and CCD camera to move along described first slide rail bearing of trend and/or the second slide rail bearing of trend.
As further improvement of the utility model, described CCD camera is the most adjustably fixed on described slide block by the first fixation kit, described first fixation kit includes the first fixed plate, and described first fixed plate can be carried out the up-down adjustment mechanism of upper-lower position regulation, described CCD camera is arranged in described first fixed plate.
As further improvement of the utility model, described radium-shine module is fixed in described first fixed plate by the second fixation kit, described second fixation kit includes that, from the extension mechanism that described first fixed plate is extended to side, described radium-shine module is arranged on described extension mechanism.
Being respectively provided with limit switches as further improvement of the utility model, the two ends of described first slide rail and the two ends of the second slide rail, described limit switch is electrically connected with described processor.
As further improvement of the utility model, the lower section of described detection zone is provided with lifting assembly, described lifting assembly includes actuator base, the driver being arranged in described actuator base, the drive mechanism that can move along the vertical direction under the driving of described driver, and the some push rods being arranged on described drive mechanism, conflict on described base plate in the top of described push rod.
As further improvement of the utility model, described callosity detection device also includes being arranged between some described supporters and the some baffle plates perpendicular with described base plate, and one of them described baffle plate is provided with the door-plate of the most described baffle plate Unscrew.
As further improvement of the utility model, described radium-shine module includes laser light emitter, reflection light-receiving lens set, and image-generating unit, and described radium-shine module uses triangulation to measure.
nullThe beneficial effects of the utility model are: this utility model callosity detection device by being provided with the monitor station with supporting region at top,For placing object under test,And the detection zone below described supporting region is provided with the CCD camera of auxiliary positioning、Laser light is utilized to carry out the radium-shine module detected,And drive the driving assembly that described CCD camera and radium-shine module move,When object under test is placed on supporting region,Described in described driving Component driver, CCD camera and radium-shine module move,Position by described CCD camera assisted acquisition object under test callosity,The transmitting terminal making described radium-shine module is positioned at the lower section of object under test callosity,And measured the vertical dimension of each described callosity and described supporting region to described callosity transmitting laser light by radium-shine module,Described processor judges that whether this vertical dimension is less than preset value,And then judge that the callosity of object under test is the most qualified,This utility model callosity detection device can identify the callosity coplane degree of object under test automatically,Have easy to operate、Detection efficiency advantages of higher.
Accompanying drawing explanation
Fig. 1 is the front view of this utility model callosity detection device.
Fig. 2 is the top view of this utility model callosity detection device.
Fig. 3 is the axonometric chart of the detection housing of this utility model callosity detection device.
Fig. 4 is the side view of the detection housing of this utility model callosity detection device.
Fig. 5 is the opposite side view of the detection housing of this utility model callosity detection device.
Fig. 6 is this utility model callosity detection CCD camera of device, the first fixation kit and the axonometric chart of the second fixation kit.
Fig. 7 is this utility model callosity detection CCD camera of device, the first fixation kit and the side view of the second fixation kit.
Fig. 8 is the axonometric chart of this utility model callosity detection device lifting assembly.
Fig. 9 is the front view of this utility model callosity detection device lifting assembly.
Detailed description of the invention
Below with reference to each embodiment shown in the drawings, this utility model is described in detail, is below this utility model one better embodiment.
Referring to Fig. 1 ~ Fig. 9, this utility model relates to a kind of callosity detection device 100, in order to detect the coplane degree of callosity (non-label) bottom an object under test 200.Described callosity detection device 100 include one for the monitor station 10 placing described object under test 200, be arranged at the detection zone 20 below described monitor station 10, CCD camera 30 that the radium-shine module 40 being arranged in described detection zone 20, adjacent described radium-shine module 40 are arranged, can drive described CCD camera 30 and radium-shine module 40 below described monitor station 10 the driving assembly 50 of movement, be positioned at the lifting assembly 60 below described detection zone 20, and be electrically connected with the processor 70 of described radium-shine module 40 and CCD camera 30.
Described monitor station 10 has the object under test supporting region 11 being made up of transparent material.Described detection zone 20 is formed in a detection housing 21, described detection housing 21 includes being positioned at the base plate 211 bottom described detection zone 20, from the upwardly extending some supporters 212 of described base plate 211, the described monitor station 10 that is arranged on described supporter 212 top, and be arranged between some described supporters 212 and the baffle plate 213 perpendicular with described base plate 211.The side of described monitor station 10 is provided with control button 12, for controlling the start and stop of described callosity detection device 100.The door-plate 214 of the most described baffle plate 213 Unscrew it is provided with on one of them described baffle plate 213.
nullDescribed CCD camera 30 is fixed on described driving assembly 50 by the first fixation kit 31,Described first fixation kit 31 includes the first fixed plate 315 and described first fixed plate 315 carries out the up-down adjustment mechanism (non-label) of upper-lower position regulation,Described up-down adjustment mechanism includes the fixed block 311 being fixed on described driving assembly 50、It is disposed on the projection block 312 of described fixed block 311 side up and down、It is arranged on the first mating holes 313 of described projection block 312、It is arranged on described projection block 312 and is positioned at two the first through holes 316 of described first mating holes 313 both sides、The first guide rod 314 matched with described first mating holes 313 on upper and lower described projection block 312,And the second guide rod 318 matched with described first through hole 316 on upper and lower described projection block 312.The bottom of described first guide rod 314 is connected with rotating part 319, and described rotating part 319 is positioned at the lower section of the described projection block 312 in downside.
Described first fixed plate 315 is arranged on described first guide rod 314 and the second guide rod 318, and has the sliding part 317 matched with described first guide rod 314 and the second guide rod 318 in described first fixed plate 315.Described sliding part 317 is provided with second mating holes (non-label) corresponding with described first mating holes 313, and is positioned at described second mating holes side and two second through holes (non-label) corresponding with described first through hole 316.Described first guide rod 314 is screw rod, and described mating holes is the screwed hole matched with described screw rod.Described CCD camera 30 is arranged in described first fixed plate 315, when rotating described first guide rod 314 by described rotating part 319, described first fixed plate 315 can move up and down along described first guide rod 314 and the second guide rod 318, and then drives described CCD camera 30 to move up and down.
Described radium-shine module 40 includes laser light emitter (non-label), reflection light-receiving lens set (non-label), and image-generating unit (non-label).Described radium-shine module 40 uses triangulation to measure.Described radium-shine module 40 is fixed in described first fixed plate 315 by the second fixation kit 41, and described second fixation kit 41 includes that extension mechanism (non-label), described radium-shine module 40 are arranged on described extension mechanism.Described extension mechanism includes that the extension block 411 extended to side from described first fixed plate 315 and described extension block 411 extend vertically the second fixed plate 412 of setting, and be arranged on the 3rd fixed plate 413 in described second fixed plate 412, and described radium-shine module 40 is arranged in described 3rd fixed plate 413.
Described driving assembly 50 includes the slide track component 51 being arranged on described base plate 211, and drives source 52.Described slide track component 51 includes be arranged in parallel two the first slide rails 511, the second slide rail 512 being horizontally set with on two described first slide rails 511 and can being slidably matched along described first slide rail 511, and the slide block 513 being slidably matched with described second slide rail 512.The bottom of described second slide rail 512 has the first chute 514 matched with described first slide rail 511.Described fixed block 311 is arranged on described slide block 513 side.Described fixed block 311 is arranged on described slide block 513.
Described driving source 52 can drive described radium-shine module 40 and CCD camera 30 to move along described first slide rail 511 bearing of trend and/or the second slide rail 512 bearing of trend.The two ends of described first slide rail 511 and the two ends of the second slide rail 512 are respectively provided with limit switches (non-label), and described limit switch is electrically connected with described processor 70.
Described lifting assembly 60 includes actuator base 61, the driver 62 being arranged in described actuator base 61, the drive mechanism 63 that can move along the vertical direction under the driving of described driver 62, and it is arranged on the some push rods 64 on described drive mechanism 63, conflict on described base plate 211 in the top of described push rod 64, described lifting assembly 60 can drive described detection housing 21 to move up and down, and adapts to the production line of multiple height.Described processor 70 is arranged in described actuator base 61.
Described callosity detection device 100 whole installation is: after the foot pad location by object under test 200 described in described CCD camera 30 assisted acquisition, control signal is sent to described processor 70, described processor 70 controls the lower section that the transmitting terminal of described driving assembly 50 is positioned at the callosity of described object under test 200, the most described radium-shine module 40 launches laser light upwardly toward described callosity 200, utilize principle of triangulation to measure the vertical dimension between each callosity and described supporting region 11, and then obtain the coplane degree of callosity 200 according to described vertical dimension.
Hereinafter describe described callosity detection device 100 and detect the concrete steps of described object under test 200, in the present embodiment, described object under test 200 is notebook computer, the most in other embodiments, described object under test 200 can also have the electronic product of callosity for all, such as keyboard, telephone set etc..Described callosity detection device 100 detects concretely comprising the following steps of described object under test 200:
Described object under test 200 is placed on described supporting region 11, start described callosity detection device 100, described driving assembly 50 drives described CCD camera 30 and described radium-shine module 40 to move in the lower section of described object under test 200, utilize the foot pad location of object under test 200 described in described CCD camera 30 auxiliary positioning, the transmitting terminal making described radium-shine module 40 is positioned at the lower section of one of them callosity on described object under test 200, described processor 70 controls described radium-shine module 40 and utilizes triangulation to measure the callosity of described object under test 200 and the vertical dimension of described supporting region 11 by launching laser light.
Employing said method obtains the vertical dimension of remaining callosity to be measured on described object under test 200 and described supporting region 11 respectively.
Each callosity of described processor 70 relatively described object under test 200 and the vertical dimension of described supporting region 11 whether less than preset value, the most then judge that the coplane degree of the callosity of described object under test 200 is qualified;If it is not, then judge that the callosity coplane degree of described object under test 200 is defective.
When object under test 200 is notebook computer, and make the angle between upper cover and the lower cover of described notebook computer 200 be in 90 degree ~ 170 degree, in order to simulate described notebook computer 200 situation in a state of use, and then described callosity coplane degree problem can be focused on described object under test and cover for 200 times, avoid described object under test 200 at upper cover by pressure, affect the callosity coplane degree of described notebook computer 200.Optimal way is, the angle between upper cover and the lower cover of described notebook computer 200 is 120 degree.
nullIn sum,This utility model callosity detection device 100 by arranging the monitor station 10 with supporting region 11 at top,And in the detection zone below described supporting region 11, it is provided with the CCD camera 30 of auxiliary positioning、Utilize and launch the radium-shine module 40 that laser light carries out detecting,And drive the driving assembly 50 that described CCD camera 30 and radium-shine module 40 move,When being placed with the object under test 200 with some callosities on supporting region 11,Described driving assembly 50 drives described CCD camera 30 and radium-shine module 40 to move,Described CCD camera 30 collects the position of described callosity,And make the laser light transmitting terminal of described radium-shine module 40 be positioned at the lower section of described callosity,Laser light is launched to described callosity by radium-shine module 40,Principle of triangulation is utilized to measure the vertical dimension of each described callosity and described supporting region 11,Described processor 70 judges that whether this vertical dimension is less than preset value,Judge that the coplane degree of described callosity is the most qualified,This utility model callosity detection device 100 can identify the coplane degree of object under test callosity automatically,Have easy to operate、Detection efficiency advantages of higher.
This utility model additionally provides the method utilizing the carrying out of this callosity detection device 100 measuring targets to detect, in present embodiment, described object under test is notebook computer 200, by by the Angle ambiguity between upper cover and the lower cover of described notebook computer 200 at 90 degree ~ 170 degree, cover under notebook computer for the coplane degree problem of the callosity of described notebook computer 200 is focused on, avoid being affected by described notebook computer upper cover weight, there is the advantage that accuracy of detection is high.
It is to be understood that, although this specification is been described by according to embodiment, but the most each embodiment only comprises an independent technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should be using description as an entirety, technical scheme in each embodiment can also form, through appropriately combined, other embodiments that it will be appreciated by those skilled in the art that.
The a series of detailed description of those listed above is only for illustrating of feasibility embodiment of the present utility model; they are also not used to limit protection domain of the present utility model, within all equivalent implementations made without departing from this utility model skill spirit or change should be included in protection domain of the present utility model.
Claims (9)
- null1. a callosity detection device,In order to detect the coplane degree of callosity bottom an object under test,It is characterized in that: described callosity detection device includes placing the monitor station of described object under test、It is arranged at the detection zone below described monitor station、The radium-shine module being arranged in described detection zone、The CCD camera that adjacent described radium-shine module is arranged、Described radium-shine module and the CCD camera driving assembly of movement below described monitor station can be driven,And it is electrically connected with described radium-shine module and the processor of CCD camera,Described monitor station has the object under test supporting region being made up of transparent material,Described callosity detection device whole installation is: gathered the foot pad location of object under test by described CCD camera after,Described processor controls described radium-shine module and measures the vertical dimension between each callosity and described supporting region,And then the coplane degree of callosity is obtained according to described vertical dimension.
- Callosity the most according to claim 1 detection device, it is characterized in that: described callosity detection device also includes being arranged at the base plate bottom described detection zone, and from the upwardly extending some supporters of described base plate, described monitor station is arranged on the top of some described supporters.
- Callosity the most according to claim 2 detection device, it is characterized in that: described driving assembly includes the slide track component being arranged on described base plate, described slide track component includes two the first slide rails be arrangeding in parallel, the second slide rail being horizontally set with on two described first slide rails and can be slidably matched along described first slide rail, and the slide block being slidably matched with described second slide rail, described radium-shine module and CCD camera are fixedly installed on described slide block, described driving assembly also includes the driving source driving described radium-shine module and CCD camera to move along described first slide rail bearing of trend and/or the second slide rail bearing of trend.
- Callosity the most according to claim 3 detection device, it is characterized in that: described CCD camera is the most adjustably fixed on described slide block by the first fixation kit, described first fixation kit includes the first fixed plate, and described first fixed plate can be carried out the up-down adjustment mechanism of upper-lower position regulation, described CCD camera is arranged in described first fixed plate.
- Callosity the most according to claim 4 detection device, it is characterized in that: described radium-shine module is fixed in described first fixed plate by the second fixation kit, described second fixation kit includes that, from the extension mechanism that described first fixed plate is extended to side, described radium-shine module is arranged on described extension mechanism.
- Callosity the most according to claim 3 detection device, it is characterised in that: the two ends of described first slide rail and the two ends of the second slide rail are respectively provided with limit switches, and described limit switch is electrically connected with described processor.
- Callosity the most according to claim 2 detection device, it is characterized in that: the lower section of described detection zone is provided with lifting assembly, described lifting assembly includes actuator base, the driver being arranged in described actuator base, the drive mechanism that can move along the vertical direction under the driving of described driver, and the some push rods being arranged on described drive mechanism, conflict on described base plate in the top of described push rod.
- Callosity the most according to claim 2 detection device, it is characterized in that: described callosity detection device also includes being arranged between some described supporters and the some baffle plates perpendicular with described base plate, and one of them described baffle plate is provided with the door-plate of the most described baffle plate Unscrew.
- Callosity the most according to claim 1 detection device, it is characterised in that: described radium-shine module includes laser light emitter, reflection light-receiving lens set, and image-generating unit, and described radium-shine module uses triangulation to measure.
Priority Applications (1)
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CN201620406562.0U CN205718839U (en) | 2016-05-06 | 2016-05-06 | Callosity detection device |
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CN201620406562.0U CN205718839U (en) | 2016-05-06 | 2016-05-06 | Callosity detection device |
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CN205718839U true CN205718839U (en) | 2016-11-23 |
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CN201620406562.0U Expired - Fee Related CN205718839U (en) | 2016-05-06 | 2016-05-06 | Callosity detection device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105783728A (en) * | 2016-05-06 | 2016-07-20 | 汉克科技有限公司 | Foot pad detection device and method |
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2016
- 2016-05-06 CN CN201620406562.0U patent/CN205718839U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105783728A (en) * | 2016-05-06 | 2016-07-20 | 汉克科技有限公司 | Foot pad detection device and method |
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Granted publication date: 20161123 |
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