CN104251686A - Flatness detecting machine - Google Patents
Flatness detecting machine Download PDFInfo
- Publication number
- CN104251686A CN104251686A CN201310268467.XA CN201310268467A CN104251686A CN 104251686 A CN104251686 A CN 104251686A CN 201310268467 A CN201310268467 A CN 201310268467A CN 104251686 A CN104251686 A CN 104251686A
- Authority
- CN
- China
- Prior art keywords
- product
- sliding panel
- measuring device
- probe
- flatness measuring
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- A Measuring Device Byusing Mechanical Method (AREA)
Abstract
A flatness detecting machine used for detecting the flatness of the detected position of a product comprises a moving component, a test component and a loading component. The product is mounted on the loading component, and the moving component comprises a sliding plate, a guide post and an adjusting post; the test component comprises a probe and a clamping plate, the probe is movably mounted on the clamping plate, the clamping plate is fixed to the sliding plate, and the sliding plate moves along the guide post to allow the probe to get close or far from the product. The loading component comprises a fixture, the product is placed on the fixture, the sliding plate is pressed against the adjusting post in a reciprocating manner and is perpendicular to the adjusting post, and the probe is allowed to contact with the product stably. By the aid of the flatness detecting machine, the testing efficiency of the product is improved effectively.
Description
[technical field]
The present invention relates to a kind of flatness measuring device, particularly relating to a kind of flatness measuring device for measuring die casting surface.
[background technology]
Electronic product in process of production, usually need to produce multiple frame-type die casting, this die casting and outward appearance housing are assembled into this electronic product, by the measurement of die casting flatness is judged this die casting whether can and the fit structure such as outward appearance housing be assembled into one, the accuracy of therefore measurement of planeness value is particularly important.Traditional test mode is measured with the gap each test position and detection platform between of feeler gauge to die casting by operator.But due to the most complicated structure of die casting, test position is difficult to be fixed on test platform, and gap between test position and detection platform is less, is unfavorable for manual measurement.
[summary of the invention]
In view of this, be necessary to provide a kind of testing efficiency high and the flatness measuring device that measuring accuracy is high.
A kind of flatness measuring device, for the flatness of the position to be measured of testing product, this flatness measuring device comprises moving assembly, test suite and bearing assembly.This product is arranged on this bearing assembly, this moving assembly comprises sliding panel, guidepost and debugging post, this test suite comprises probe and fixes plate, this probe is arranged on movably and fixes on plate, this fixing board is solid on this sliding panel, this sliding panel moves along this guidepost, make this probe near and away from this product.This bearing assembly comprises tool, and product is positioned on tool, and this sliding panel back and forth compresses this debugging post, make this sliding panel and this debugging post orthogonal, and then make that this probe and this product are stable to be contacted.
Sliding panel of the present invention back and forth compresses this debugging post, and this probe back and forth compresses the debug process of this debugging tool, ensure that the accuracy of test process.Use probe to test product position to be measured, effectively improve product test efficiency, and the course of work robotization of this flatness measuring device, avoid the error that artificial test exists, effectively save human cost.
[accompanying drawing explanation]
Fig. 1 is the assembling schematic diagram of the flatness measuring device of better embodiment of the present invention.
Fig. 2 is the decomposing schematic representation of the moving assembly of the flatness measuring device shown in Fig. 1, test suite and bearing assembly.
Fig. 3 is the decomposition enlarged diagram of the test suite of the flatness measuring device shown in Fig. 2.
Fig. 4 is the decomposition enlarged diagram of the bearing assembly of the flatness measuring device shown in Fig. 2.
[main element symbol description]
Flatness measuring device | 100 |
Product | 200 |
Base | 10 |
Moving assembly | 20 |
Test suite | 30 |
Bearing assembly | 40 |
Operating portion | 12 |
Start button | 121 |
Testing button | 122 |
Stop button | 123 |
First pilot lamp | 124 |
Second pilot lamp | 125 |
First web joint | 21 |
Second web joint | 22 |
Sliding panel | 23 |
Guidepost | 24 |
Cylinder | 25 |
3rd web joint | 26 |
Debugging post | 27 |
Impact damper | 28 |
Back up pad | 222 |
Groove | 231 |
Through hole | 233 |
First spacing ring | 241 |
Second spacing ring | 242 |
Host cavity | 251 |
Expansion link | 252 |
Counterpart | 253 |
Probe | 31 |
Fixture | 32 |
Fix plate | 33 |
Fixed block | 321 |
Projection | 322 |
Cover apertured | 3211 |
Mating holes | 331 |
Loading plate | 41 |
Limitting casing | 42 |
Tool | 43 |
Propelling piece | 44 |
Web member | 45 |
Debugging tool | 46 |
First support column | 431 |
Second support column | 432 |
Substrate | 461 |
Support column | 462 |
Following embodiment will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.
[embodiment]
Refer to Fig. 1, the flatness measuring device 100 of better embodiment of the present invention comprises base 10, moving assembly 20, test suite 30 and bearing assembly 40.This bearing assembly 40 loads product 200 to be measured, this moving assembly 20 drive this test suite 30 near and away from this product 200.
Accommodating electric control element (not shown) and industrial PC (not shown) in this base 10, to pass through this electric control element control plane degree test machine 100.Setting operation portion 12 on the periphery wall of this base 10, in the present embodiment, this operating portion 12 comprises the start button 121, testing button 122, stop button 123, first pilot lamp 124 and the second pilot lamp 125 that are all electrically connected with electric control element.In present embodiment, the quantity of this testing button 122 is two, this two testing button 122 need be pressed during test simultaneously, this two testing button 122 is fool-proof design, operator is effectively avoided only to occur potential safety hazard by a wherein testing button 122, this first pilot lamp 124 is product plane degree test passes pilot lamp, and this second pilot lamp 125 is product plane degree test failure pilot lamp.
Incorporated by reference to consulting Fig. 2, this moving assembly 20 comprises the first web joint 21, second web joint 22, sliding panel 23, guidepost 24, cylinder 25, the 3rd web joint 26, debugging post 27 and impact damper 28.This second web joint 22 2 opposite end difference vertically affixed back up pad 222.Offer groove 231 in the middle part of this sliding panel 23, four corners of this sliding panel 23 offer through hole 233 respectively, and this back up pad 222 is vertically fixed on this sliding panel 23.
Sheathed first spacing ring 241 and the second spacing ring 242 in interval on this guidepost 24, this the first spacing ring 241 and this second spacing ring 242 are the right cylinder of hollow, this first spacing ring 241 is sheathed on this guidepost 24 slidably, and this second spacing ring is fixed on this guidepost.In present embodiment, the quantity of this guidepost 24 is four.Each guidepost 24 through a through hole 233, and is movably arranged on this sliding panel 23 by this first spacing ring 241.This guidepost 24 one end is fixed on this first web joint 21, and the other end is fixed on the 3rd web joint 26.
This cylinder is connected with the electric control element in this base 10, and after pressing testing button 122, the electric control element of this base 10 controls this cylinder 25 and works.This cylinder 25 comprises host cavity 251, expansion link 252 and counterpart 253.This host cavity 251 partially passes through this first web joint 21 and is fixed on this first web joint 21.This expansion link 252 part exposes to outside this host cavity 251, and this counterpart 253 one end is connected with expansion link 252, and the other end is fixed on this second web joint 22.The to-and-fro movement in this host cavity 251 of this expansion link 252, thus drive this second web joint 22 and back up pad 222 by counterpart 253, sliding panel 23 is moved along this guidepost 24, and this second spacing ring 242 limits the shift motion of this sliding panel 23.
In present embodiment, the quantity of this debugging post 27 is four, and this debugging post 27 is evenly arranged on the 3rd web joint 26.In present embodiment, this impact damper 28 is oil buffer, and its quantity is two, and this two impact damper 28 is mounted opposite on the 3rd web joint 26.This sliding panel 23 is when this impact damper 28, and this impact damper 28 provides cushion effect to make this sliding panel 23 slowly movement.
Incorporated by reference to consulting Fig. 2 and Fig. 3, this test suite 30 comprises probe 31, fixture 32 and fixes plate 33.This probe 31 is a kind of testing apparatus, and it is electrically connected by wire (not shown) and industrial PC.The projection 322 that this fixture 32 comprises fixed block 321 and is vertically fixed on this fixed block 321, offer cover apertured 3211 in the middle part of this fixed block 321, this cover apertured 3211 runs through this projection 322, and this probe 31 part is fastened in this cover apertured 3211.
Mating holes 331 offered by this fixing plate 33, and this projection 322 is placed in this mating holes 331, is fixed on this fixing plate 33 by this fixture 32 by this fixed block 321.This cover apertured 3211 is corresponding with this mating holes 331, makes probe 31 fix in the groove 231 on this sliding panel 23 through this fixing plate 33 of this mating holes 331, this sliding panel 23 move make this probe 31 near and away from the test position of this product 200.In this present embodiment, this probe 31 is corresponding with the quantity of this fixture 32, and this number of probes is 11, tests the point of 11 on product 200.
Incorporated by reference to consulting Fig. 2 and Fig. 4, this bearing assembly 40 comprises loading plate 41, limitting casing 42, tool 43, propelling piece 44, web member 45 and debugging tool 46.This loading plate 41 is rectangular panel body, and limitting casing 42 is fixed on loading plate 41.This tool 43 is vertically arranged some first support columns 431 and some second support columns 432, the free end of some first support columns 431 is pointed, and the free end of some second support columns 432 is plane.This product 200 exists pilot hole (not shown), and described some first support columns 431 are through pilot hole, and described some second support columns 432 support the planimetric position on this product 200, and then are assemblied on this tool 43 by this product 200.The setting position of described some first support columns 431 and some second support columns 432 determines according to the structure of product 200.This propelling piece 44 is fixed on the side of this tool 43, and this tool 43 is placed in this limitting casing 42, makes this tool 43 be drawn out and be fed through in this limitting casing 42 by this propelling piece 44.This web member 45 one end is fixed on this loading plate 41, and the other end is fixed on the 3rd web joint 26, and this bearing assembly 40 is mounted on the 3rd web joint 26.This debugging tool 46 comprises substrate 461 and some support columns 462, this some support column 462 is vertically fixed on this substrate 461, this debugging tool 46 is the profiling tools manufactured according to the structure of product 200, this substrate 461 is held on some first support columns 431 and some second support columns 432, and then is assemblied on this tool 43 by this debugging tool 46.
Before this flatness measuring device 100 of use, need to regulate according to the position of test position to probe 31 of product 200.This cylinder 25 moves and then drives this sliding panel 23 close and support on this debugging post 27, user presses after this sliding panel 23 stays for some time on this debugging post 27 and unclamps, this sliding panel 23 is away from this debugging post 27, operate and so forth to guarantee that this sliding panel 23 is orthogonal with this debugging post 27, after debugging terminates, take off this debugging post 27.This debugging tool 46 is arranged on this tool 43, this support column 462 is determined according to the position to be measured on this product 200, when this sliding panel 23 move to support on this second spacing ring 242 time, regulate probe 31 to the distance of this support column 462, this probe 31 is made to be pressed on this support column 462, the test position good contact on this product 200 carrying out and so forth guaranteeing that all probes 31 are all corresponding with it.After debugging terminates, take off this debugging tool 46.
During work, be mounted on tool 43 by product 200, press this start button 121, this flatness measuring device 100 starts, and presses this testing button 122, and this cylinder 25 drives this second web joint 22 to move, and then this sliding panel 23 is moved along this guidepost 24.When this sliding panel 23 move to support on this second spacing ring 242 time, this probe 31 reads data after contacting the test position on this product 200 and sends data to industrial PC, if this first pilot lamp 124 is bright, then represent the flatness test passes of this product 200; If this second pilot lamp 125 is bright, then represent the flatness test failure of this product 200.This industrial PC shows the test data of each test point, by checking that each data obtain underproof concrete test point to revise.Thereafter, sliding panel 23 drives this probe 31 away from this product 200, takes off product 200, presses stop button 123 and tests end.
Sliding panel 23 of the present invention back and forth compresses this debugging post 27, and probe 31 back and forth compresses the debug process of this debugging tool 46, ensure that this sliding panel 23 is orthogonal with this guidepost 24, and then ensure that the good contact of this probe 31 and this product 200.This start button 121, testing button 122, stop button 123 control the course of work of this flatness measuring device 100, judge the test result of product 200, achieve the robotization of test process according to the display of this first pilot lamp 124 and the second pilot lamp 125.Flatness measuring device 100 of the present invention improves the accuracy of product plane degree test, ensure that the quality of production.
Claims (10)
1. a flatness measuring device, for the flatness of testing product position to be measured, is characterized in that: this flatness measuring device comprises moving assembly, test suite and bearing assembly; This product is arranged on this bearing assembly, this moving assembly comprises sliding panel, guidepost and debugging post, this test suite comprises probe and fixes plate, be arranged on this probe activity and fix on plate, this fixing board is solid on this sliding panel, this sliding panel moves along this guidepost, make this probe near and away from this product, this bearing assembly comprises tool, product is positioned on tool, this sliding panel back and forth compresses this debugging post, make this sliding panel and this debugging post orthogonal, and then make that this probe and this product are stable to be contacted.
2. flatness measuring device as claimed in claim 1, it is characterized in that: this moving assembly also comprises the first web joint, the second web joint and cylinder, this cylinder is fixedly mounted on the first web joint, and be connected with this second web joint, a two opposite ends difference vertically affixed back up pad of this second web joint, this back up pad is fixed on this sliding panel, and this cylinder drives this sliding panel to move.
3. flatness measuring device as claimed in claim 2, it is characterized in that: sheathed first spacing ring in interval and the second spacing ring on this guidepost, this guidepost quantity is four, four corners of this sliding panel offer through hole respectively, each guidepost is through a through hole, and being arranged on this sliding panel actively by this first spacing ring, when this sliding panel moves this product close along this guidepost, this second spacing ring is for limiting the stroke of this sliding panel.
4. flatness measuring device as claimed in claim 3, it is characterized in that: this moving assembly also comprises the 3rd web joint and impact damper, this guidepost one end is fixed on this first web joint, the other end is fixed on the 3rd web joint, this debugging post and impact damper are all fixed on the 3rd web joint, this sliding panel along this guidepost near product time, this impact damper provides cushion effect to make this probe slowly contact this product.
5. flatness measuring device as claimed in claim 1, it is characterized in that: this test suite also comprises fixture, this fixture comprises fixed block and is vertically fixed on the projection on this fixed block, cover apertured is offered in the middle part of this fixed block, this cover apertured runs through this projection, and this probe portion is fastened in this cover apertured.
6. flatness measuring device as claimed in claim 5, it is characterized in that: mating holes offered by this fixing plate, this projection is placed in this mating holes, this fixture is fixed on this fixing plate, make probe pass this mating holes, offer groove in the middle part of this sliding panel, this fixing board is solid in this groove.
7. flatness measuring device as claimed in claim 1, it is characterized in that: this bearing assembly comprises loading plate, limitting casing, debugging tool and propelling piece, this limitting casing is fixed on this loading plate, this tool is placed in this limitting casing, this propelling piece is arranged on this tool side, debugging tool is installed on tool, makes this tool be drawn out and be fed through in this limitting casing by this propelling piece.
8. flatness measuring device as claimed in claim 4, it is characterized in that: this flatness measuring device also comprises base, 3rd web joint is fixing on the base, accommodating electric control element in this base, setting operation portion on the periphery wall of this base, this operating portion is all electrically connected with electric control element, controls this flatness measuring device by this operating portion.
9. flatness measuring device as claimed in claim 8, it is characterized in that: this operating portion comprises the first pilot lamp and the second pilot lamp, if this first pilot lamp is bright, represent the flatness test passes of this product, if this second pilot lamp is bright, represent the flatness test failure of this product.
10. a flatness measuring device, for the flatness of testing product position to be measured, is characterized in that: this flatness measuring device comprises moving assembly, test suite and bearing assembly; This product is arranged on this bearing assembly, this moving assembly comprises sliding panel and guidepost, this test suite comprises probe, be arranged on this sliding panel this probe activity, this bearing assembly comprises tool, product is positioned on tool, and this sliding panel moves along this guidepost, drive this probe near and away from the position to be measured of this product.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201310268467.XA CN104251686A (en) | 2013-06-28 | 2013-06-28 | Flatness detecting machine |
TW102123991A TW201500719A (en) | 2013-06-28 | 2013-07-04 | Flatness test device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201310268467.XA CN104251686A (en) | 2013-06-28 | 2013-06-28 | Flatness detecting machine |
Publications (1)
Publication Number | Publication Date |
---|---|
CN104251686A true CN104251686A (en) | 2014-12-31 |
Family
ID=52186803
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201310268467.XA Pending CN104251686A (en) | 2013-06-28 | 2013-06-28 | Flatness detecting machine |
Country Status (2)
Country | Link |
---|---|
CN (1) | CN104251686A (en) |
TW (1) | TW201500719A (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106908682A (en) * | 2015-12-22 | 2017-06-30 | 昆山万盛电子有限公司 | Slidingtype probe tester and method |
CN113028980A (en) * | 2021-03-29 | 2021-06-25 | 中国计量大学 | Flatness detection device and method |
CN115900534A (en) * | 2023-03-13 | 2023-04-04 | 山东省三鼎汽车配件有限公司 | Brake disc roughness detection device |
-
2013
- 2013-06-28 CN CN201310268467.XA patent/CN104251686A/en active Pending
- 2013-07-04 TW TW102123991A patent/TW201500719A/en unknown
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106908682A (en) * | 2015-12-22 | 2017-06-30 | 昆山万盛电子有限公司 | Slidingtype probe tester and method |
CN106908682B (en) * | 2015-12-22 | 2023-08-04 | 昆山万盛电子有限公司 | Sliding type probe testing device and method |
CN113028980A (en) * | 2021-03-29 | 2021-06-25 | 中国计量大学 | Flatness detection device and method |
CN115900534A (en) * | 2023-03-13 | 2023-04-04 | 山东省三鼎汽车配件有限公司 | Brake disc roughness detection device |
Also Published As
Publication number | Publication date |
---|---|
TW201500719A (en) | 2015-01-01 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN203595786U (en) | Pneumatic test tool general workbench | |
CN106441170B (en) | Keyboard testing flatness machine | |
CN203595732U (en) | Test probe stand | |
WO2015081835A1 (en) | Isolator switch comprehensive tester | |
CN111735400B (en) | Gear detection table | |
JP2013238554A (en) | Inspection device | |
CN104251686A (en) | Flatness detecting machine | |
CN208092197U (en) | A kind of PCBA automatization test systems | |
CN109541436A (en) | A kind of circuit board detecting tooling | |
CN103954260A (en) | Automobile radiator detecting device | |
TWM493038U (en) | Dimension measuring device | |
JP2006250557A (en) | Hardness tester | |
KR101160911B1 (en) | Apparatus of testing pad | |
CN204461331U (en) | A kind of cross plate deformation Simple measurement device | |
CN203479218U (en) | Fixed point width inspection device for dovetail-shaped blade tenon | |
CN108760539A (en) | Printed circuit board deformation test equipment | |
CN219201843U (en) | Device for testing and checking circuit board | |
CN107015058A (en) | Automatic test device | |
CN103851983A (en) | Locating pin length detection machine | |
CN202216679U (en) | Linear displacement measuring head and sensor detecting and debugging device | |
CN203561709U (en) | Function tester for conductive rubber strip connector | |
JP2001221719A (en) | Inspection of automobile panel switch | |
CN215930730U (en) | Detection tool structure applied to automobile part | |
KR20150079178A (en) | A durability tester for key pad | |
CN212433328U (en) | High efficiency ICT test fixture |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C02 | Deemed withdrawal of patent application after publication (patent law 2001) | ||
WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20141231 |