CN201772858U - Position replicating system - Google Patents
Position replicating system Download PDFInfo
- Publication number
- CN201772858U CN201772858U CN2010200014567U CN201020001456U CN201772858U CN 201772858 U CN201772858 U CN 201772858U CN 2010200014567 U CN2010200014567 U CN 2010200014567U CN 201020001456 U CN201020001456 U CN 201020001456U CN 201772858 U CN201772858 U CN 201772858U
- Authority
- CN
- China
- Prior art keywords
- sway brace
- workpiece
- location guide
- dubbing system
- drilling equipment
- 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.)
- Expired - Fee Related
Links
Images
Landscapes
- Length Measuring Devices With Unspecified Measuring Means (AREA)
Abstract
The utility model provides a position replicating system. The position replicating system comprises a platform, a first support arm, a second support arm, a positioning guide rod and a drilling device. The positioning guide rod is arranged on the second support arm and used for positioning the measuring positions of a workpiece; and the drilling device is arranged on the second support arm and is separated from the positioning guide rod at a preset distance. When the first support arm moves in the horizontal direction and the second support arm moves in the vertical direction so as to enable the positioning guide rod to position the measuring positions, the drilling device moves synchronously with the positioning guide rod, so that a plurality of holes are correspondingly formed in a jig plate according to the measuring positions of the workpiece, and each measuring position can be replicated to each corresponding hole.
Description
Technical field
The utility model relates to a kind of dubbing system, particularly about a kind of position dubbing system, is applicable to electromagnetic interference shielding (Electromagnetic Interference, resistance probing needle plate EMI).
Background technology
The vacuum splashing and plating metal procedure replaces gradually in recent years and sprays paint and electroplating process, is widely used in all kinds of electronic product shell and is coated with and loads onto, for example the shell of the shell of notebook computer and mobile phone.After the shell sputter forms the layer of metal film, must detect this metallic film, whether even to confirm film thickness, the main mode of detection is the uniformity coefficient that the resistance value of measurement film detects thickness.Prior art is to utilize the many probes of burying underground in the probe card, make the corresponding contact of measurement point of this probe card and this workpiece shell (for example computer casing), then press down this probe card to these measurement points, by the resistance value of corresponding each measurement point of each probe measurement, determine the homogeneity of thickness.
Prior art is to make this probe card according to the drawing of this workpiece shell, yet this workpiece shell is sample usually, do not have detailed coordinate drawing and size, or obtaining of drawing is not easy, so must measure the coordinate and the size of each gauge point on this workpiece shell, produce coordinate drawing and size, so that make this probe card.Prior art normally utilizes manual mode to measure this workpiece shell producing drawing, but labor intensive, measuring value are also not accurate enough like this.Another prior art then is to utilize three-dimensional (three dimension 3D) amount bed to carry out the coordinate measure of gauge point, then utilize this coordinate measure value to make this probe card in computer-aided manufacturing (CAM) mode, but the measurement cost of this method and manufacturing cost is higher and comparatively complicated.Therefore need a kind of novel position dubbing system of research and development to overcome above-mentioned problem.
The utility model content
The purpose of this utility model is to provide a kind of position dubbing system, with the accuracy to size between the measurement position of improving, increase this workpiece and this tool plate relative hole location of (or being called the probe tool), and makes this tool plate fast, the saving manpower.
Another purpose of the utility model is to provide a kind of position dubbing system, forms the relative hole location of this tool plate according to the measurement position synchronous of this workpiece, to simplify the production stage of this tool plate, reduces the production cost of this tool plate.
For achieving the above object, the utility model provides a kind of position dubbing system, and this position dubbing system is used to duplicate several and measures the position, and this position dubbing system comprises platform, first sway brace, second sway brace, location guide and drilling equipment.This platform is used for fixing workpiece and tool plate, and this workpiece has several and measures the position.This first sway brace is arranged at least one first slide rail of this platform, and this first sway brace is moved along a horizontal direction on this at least one first slide rail.This second sway brace is arranged on second slide rail of this first sway brace, and this second sway brace is moved along a vertical direction on this second slide rail.This location guide is arranged on this second sway brace, is used to locate each measurement position of this workpiece.This drilling equipment is arranged on this second sway brace, and this drilling equipment and the spaced apart preset distance of this location guide.When this first sway brace moves and this second sway brace moves along this vertical direction along this horizontal direction, so that this location guide is positioned to each when measuring position, this drilling equipment and this location guide move along horizontal direction synchronously, each measurement position corresponding several holes that form on this tool plate with according to this workpiece measure position to corresponding each hole to duplicate each.
In one embodiment, these measure the position can be the projection or the salient point of workpiece enclosure, and sputter forms the layer of metal film on these projections or salient point.This tool plate can be to be used for an electromagnetic interference (EMI) (Electromagnetic Interference, EMI) Fang Hu resistance probing needle plate.This first sway brace can be to be arranged on two first slide rails of this platform, to increase the stability that this first sway brace moves along horizontal direction.It should be noted that this first sway brace also can be arranged on one first slide rail of this platform.
In one embodiment, position of the present utility model dubbing system utilizes clamping device that this workpiece and this tool plate are fixed on this platform, for example respectively this workpiece and this tool plate is positioned on this platform with a pair of axle clamp pawl mechanism or two twin shaft clip claw mechanisms.
Particularly, this location guide can be adjusted with respect to the preset distance of this drilling equipment, and after adjusting, this location guide is fixed in this second sway brace.Position of the present utility model dubbing system utilizes this first sway brace and this second sway brace, makes this location guide be moved into the top of this workpiece.In addition, position of the present utility model dubbing system utilizes this first sway brace and this second sway brace, makes this drilling equipment move to the zone, a location of this tool plate top.
After this location guide was aimed at each measurement position, this location guide moved down and is used for the location and measures position with each contacting.Then, when this location guide was positioned to each measurement position of this workpiece, this drilling equipment pressed on this tool plate synchronously, to get out each hole.After this drilling equipment got out each hole, this location guide moved up measuring the position away from each, and this drilling equipment is simultaneously away from each hole.
In other words, after this location guide is aimed at each measurement position, this location guide and this drilling equipment can press to synchronously and form these holes on workpiece and this tool plate, perhaps this location guide is positioned to after each measurement position of this workpiece, and this drilling equipment then presses to and forms these holes on this tool plate.Because the measurement position that position of the present utility model dubbing system measures this workpiece is a synchronous operation with the hole location that forms this tool plate, the accuracy to size between the measurement position that therefore can improve, increase this workpiece and the relative hole location of this tool plate.And position of the present utility model dubbing system forms the relative hole location of this tool plate according to the measurement position synchronous of this workpiece, can effectively shorten the production stage of this tool plate, reduces the production cost of this tool plate.
Below in conjunction with accompanying drawing and embodiment the utility model is further described.
Description of drawings
Fig. 1 is the side view according to the position dubbing system of the utility model embodiment.
Fig. 2 is the vertical view according to this position dubbing system of the utility model embodiment.
Embodiment
Relevant detailed description of the present utility model and technology contents, existing as follows with regard to accompanying drawings:
With reference to figure 1 and Fig. 2, Fig. 1 is the side view according to the position dubbing system 100 of the utility model one embodiment, and Fig. 2 is the vertical view according to this position dubbing system 100 of the utility model embodiment.This position dubbing system 100 is used to duplicate several and measures position (116a, 116b), and this position dubbing system 100 comprises platform 102, first sway brace 104, second sway brace 106, location guide 108 and drilling equipment 110.
This platform 102 is used for fixing workpiece 112 and tool plate 114, and this workpiece 112 has several and measures position (116a, 116b).In one embodiment, these measure position (116a, 116b) can be the projection or the salient point of workpiece 112 enclosure, and sputter is formed with layer of metal film (not shown) on these projections or salient point, it is example that present embodiment measures position (116a, 116b) with two, also applicable to the more position that measures.This tool plate 114 can be to be used for an electromagnetic interference (EMI) (Electromagnetic Interference, EMI) Fang Hu resistance probing needle plate.This first sway brace 104 is arranged at least one first slide rail 118 of this platform 102, and this first sway brace 104 is moved along a horizontal direction 120 on this at least one first slide rail 118, and this first sway brace 104 can be a ㄇ type sway brace.In the present embodiment, this first sway brace 104 is arranged on two first slide rails 118 of this platform 102, to increase the stability that this first sway brace 104 moves along horizontal direction 120.It should be noted that this first sway brace 104 also can be arranged on one first slide rail 118 of this platform 102, to simplify the framework of this position dubbing system 100.This second sway brace 106 is arranged on second slide rail 122 of this first sway brace 104, and this second sway brace 106 is moved along a vertical direction 124 on this second slide rail 122.In one embodiment, position of the present utility model dubbing system 100 utilizes clamping device (not shown) that this workpiece 112 and this tool plate 114 are fixed on this platform 102, for example locatees this workpiece 112 and this tool plate 114 respectively on this platform 102 with a pair of axle clamp pawl mechanism or two twin shaft clip claw mechanisms.
This location guide 108 is arranged on this second sway brace 106, is used to locate each measurement position (116a, 116b) of this workpiece 112.In one embodiment, this location guide 108 can be arranged in the slit 117 of this second sway brace 106, after being adjusted to the appropriate location, utilizes this location guide 108 of thread locking on this second sway brace 106.Among another embodiment, control this location guide 108 by automatically controlled mode in the motor-driven screw mode and do upper and lower move, also promptly away from or near this workpiece 112.The setting accuracy of this location guide 108 can be between between the 0.01mm to 0.1mm, or higher setting accuracy.This drilling equipment 110 is arranged on this second sway brace 106, and this drilling equipment 110 and these location guide 108 spaced apart preset distances 126.This drilling equipment 110 and this location guide 108 can be arranged at respectively near the both sides of this second sway brace 106.When this first sway brace 104 moves and this second sway brace 106 moves along this vertical direction 124 along this horizontal direction 120, so that this location guide 108 is positioned to each when measuring position (116a, 116b), this drilling equipment 110 moves along horizontal direction 120 synchronously with this location guide 108, measuring position (116a, 116b) corresponding several holes (116a ', 116b ') that form on this tool plate 114 according to each of this workpiece 112, to measure position (116a, 116b) corresponding to each hole (116a ', 116b ') to duplicate each.In one embodiment, each hole (116a ', 116b ') can be used to bury underground a probe (not shown), be used to measure the resistance value of the measurement position (116a, 116b) on another workpiece for measurement, this workpiece for measurement has identical measurement position with this workpiece 112.Can do upper and lower moving by the cutter that automatically controlled mode is controlled this drilling equipment 110 with motor-driven screw, also promptly away from or near this tool plate 114, to get out each hole (116a ', 116b ').
Particularly, this location guide 108 can be adjusted with respect to the preset distance 126 of this drilling equipment 110, and this location guide 108 is moved along horizontal direction 120, and after adjusting, this location guide 108 is fixed in this second sway brace 106.Position of the present utility model dubbing system 100 utilizes this first sway brace 104 and this second sway brace 106, this location guide 108 is moved to the top of this workpiece 112.In addition, position of the present utility model dubbing system 100 utilizes this first sway brace 104 and this second sway brace 106, this drilling equipment 110 is moved to the zone, a location of these tool plate 114 tops.It should be noted that after this location guide 108 was positioned these measurement positions (116a, 116b), this first sway brace 104 and this second sway brace 106 can stably be fixed on respectively on this platform 102.
After this location guide 108 was aimed at each measurement position (116a, 116b), this location guide 108 moved down, and was used for the location and measures position (116a, 116b) with each contacting.Then, when each that is positioned to this workpiece 112 when this location guide 108 measured position (116a, 116b), this drilling equipment 110 pressed on this tool plate 114 synchronously, to get out each hole (116a ', 116b ').After this drilling equipment 110 got out each hole (116a ', 116b '), this location guide 108 moved up measuring position (116a, 116b) away from each, and this drilling equipment 110 is simultaneously away from each hole (116a ', 116b ').
In other words, after this location guide 108 is aimed at each measurement position (116a, 116b), this location guide 108 and this drilling equipment 110 can press to respectively on workpiece 112 and this tool plate 114 synchronously to form these holes (116a ', 116b '), or this location guide 108 be positioned to this workpiece 112 each measure position (116a, 116b) afterwards, then this drilling equipment 110 presses on this tool plate 114 to form these holes (116a ', 116b ').Therefore the synchronous operation of (116a ', 116b ') position because the measurement position (116a, 116b) that position of the present utility model dubbing system 100 measures these workpiece 112 and the hole that forms this tool plate 114 can improve, increase the accuracy to size between the measurement position (116a, 116b) of this workpiece 114 and the relative hole of this tool plate 114 (116a ', the 116b ') position.And, position of the present utility model dubbing system 100 forms relative hole (116a ', the 116b ') position of this tool plate 114 synchronously according to the measurement position (116a, 116b) of this workpiece 112, can effectively shorten the production stage of this tool plate 114, reduce the production cost of this tool plate 114.
In sum, compared with prior art, the accuracy to size between the measurement position that position replicating system of the present utility model can improve, increase this workpiece and the relative hole location of this jig plate, and can make fast this jig plate. In addition, position replicating system of the present utility model forms the relative hole location of this jig plate synchronously according to the measurement position of this workpiece, can shorten the production stage of this jig plate, reduces the production cost of probe card.
Claims (10)
1. a position dubbing system is used to duplicate several and measures the position, it is characterized in that this position dubbing system comprises:
One platform is used for fixing a workpiece and a tool plate, and this workpiece has several and measures the position;
One first sway brace is arranged at least one first slide rail of this platform, and this first sway brace is moved along a horizontal direction on this at least one first slide rail;
One second sway brace is arranged on one second slide rail of this first sway brace, and this second sway brace is moved along a vertical direction on this second slide rail;
One location guide rod is arranged on this second sway brace, is used to locate each measurement position of this workpiece; And
One drilling equipment, be arranged on this second sway brace, and the spaced apart preset distance of this drilling equipment and this location guide, when this first sway brace moves and this second sway brace moves along this vertical direction along this horizontal direction, so that this location guide is positioned to each when measuring position, this drilling equipment and the same moved further of this location guide, each measurement position corresponding several holes that form on this tool plate with according to this workpiece measure position to corresponding each hole to duplicate each.
2. position as claimed in claim 1 dubbing system is characterized in that this location guide can adjust with respect to this preset distance of this drilling equipment, and after adjusting, this location guide is fixed in this second sway brace.
3. position as claimed in claim 1 dubbing system is characterized in that this location guide can be moved into the top of this workpiece by this first sway brace and this second sway brace.
4. position as claimed in claim 1 dubbing system is characterized in that utilizing this first sway brace and this second sway brace, and this drilling equipment can be moved into the zone, a location of this tool plate top.
5. position as claimed in claim 1 dubbing system is characterized in that after this location guide was aimed at each measurement position, this location guide moved down to be positioned each and measures position.
6. position as claimed in claim 5 dubbing system is characterized in that this drilling equipment presses on this tool plate synchronously, to get out each hole when this location guide is positioned to each measurement position of this workpiece.
7. position as claimed in claim 6 dubbing system is characterized in that after this drilling equipment gets out each hole, and this location guide moves up measuring the position away from each, and this drilling equipment is also away from each hole.
8. position as claimed in claim 1 dubbing system is characterized in that each hole is used to bury underground a probe, to carry out the measurement of resistance value.
9. position as claimed in claim 1 dubbing system is characterized in that this tool plate is used for the resistance probing needle plate of an electromagnetic interference shielding.
10. position as claimed in claim 1 dubbing system is characterized in that this workpiece and this tool plate utilize two twin shaft clip claw mechanisms to be positioned respectively on this platform.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010200014567U CN201772858U (en) | 2010-01-05 | 2010-01-05 | Position replicating system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010200014567U CN201772858U (en) | 2010-01-05 | 2010-01-05 | Position replicating system |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN201772858U true CN201772858U (en) | 2011-03-23 |
Family
ID=43752706
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2010200014567U Expired - Fee Related CN201772858U (en) | 2010-01-05 | 2010-01-05 | Position replicating system |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN201772858U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104913802A (en) * | 2015-06-17 | 2015-09-16 | 核工业理化工程研究院 | Test-used marker |
-
2010
- 2010-01-05 CN CN2010200014567U patent/CN201772858U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104913802A (en) * | 2015-06-17 | 2015-09-16 | 核工业理化工程研究院 | Test-used marker |
| CN104913802B (en) * | 2015-06-17 | 2017-06-13 | 核工业理化工程研究院 | Experiment marking device |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN103604337B (en) | Automobile hemming assembly cubing and detection method that many positioning datums system is compound | |
| CN203534443U (en) | Measurement detection tool for vehicle front door assembly | |
| CN205383961U (en) | Flexible detection device | |
| CN206609720U (en) | A kind of cement quality detection means for building | |
| CN103575996B (en) | Antenna detection device | |
| CN103557813B (en) | The on-line measuring device of axial workpiece | |
| CN203535124U (en) | Scanning mechanism of electromagnetic compatible scanner | |
| CN112414263A (en) | Alarm type ship bottom plate electroplated layer thickness detection device | |
| CN201772858U (en) | Position replicating system | |
| CN205301431U (en) | Little resistance measurement equipment | |
| CN106403850A (en) | Flatness detection method | |
| CN204555910U (en) | Quick plane degree detects tool | |
| CN203385351U (en) | All-in-one device for detecting size of inductor | |
| CN202648606U (en) | Straightness measuring device for washing machine control panel | |
| CN207019572U (en) | Automobile A column inner panel cubing | |
| CN202470969U (en) | Device for rapidly detecting PCB aperture | |
| CN205066624U (en) | A frustum of a cone part resilience value measuring device for single -point takes shape step by step | |
| CN201615857U (en) | Fatigue tester with reading microscope | |
| CN204882473U (en) | Interrupted intermediate layer defect ultrasonic detection precise and quantitative device of steel sheet | |
| CN203611148U (en) | Support test tooling | |
| CN205879058U (en) | Utensil is examined to hinge | |
| CN205228360U (en) | Elevator frame curb plate measurement straightness instrument that hangs down | |
| CN210614378U (en) | FPC reinforcement heavy-sticking detection device | |
| CN110986825A (en) | Casing automatic measurement detection device for cell-phone shell | |
| CN207231336U (en) | The cubing of automotive window guide rail |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20110323 Termination date: 20130105 |
|
| CF01 | Termination of patent right due to non-payment of annual fee |