CN202118458U - Abutting joint structure of tester - Google Patents
Abutting joint structure of tester Download PDFInfo
- Publication number
- CN202118458U CN202118458U CN201120235371XU CN201120235371U CN202118458U CN 202118458 U CN202118458 U CN 202118458U CN 201120235371X U CN201120235371X U CN 201120235371XU CN 201120235371 U CN201120235371 U CN 201120235371U CN 202118458 U CN202118458 U CN 202118458U
- Authority
- CN
- China
- Prior art keywords
- fixed support
- rotating shaft
- guide rail
- rail plate
- testing instrument
- 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
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- Testing Of Devices, Machine Parts, Or Other Structures Thereof (AREA)
Abstract
The utility model discloses an abutting structure of a tester, which comprises a fixed support and the tester arranged on the upper surface of the fixed support. The fixed support is further provided with a cylinder, a shaft and a guide rail plate vertically and movably arranged on the upper surface of the fixed support and capable of moving vertically relative to the fixed support. The shaft is flexibly fixed on the fixed support in a horizontal direction and capable of rotating relative to the axis of the shaft exactly. The cylinder is fixed on the fixed support and just capable of driving the shaft to rotate around the axis of the shaft relative to the fixed support, the rotation of the shaft can exactly drive the guide rail plate to move vertically relative to the fixed support, and the vertical movement of the guide rail plate can exactly drive the tester to move horizontally. The abutting structure is not only convenient in use and easy to operate but also capable of greatly improving accuracy of alignment.
Description
Technical field
The utility model relates to a kind of testing instrument docking structure.
Background technique
The artificial butt joint of the general employing of testing instrument butt joint at present not only is difficult to control accuracy, and inconvenient operation.
Summary of the invention
In order to overcome above-mentioned defective, the utility model provides a kind of testing instrument docking structure, and this docking structure is not only easy to use, and is simple to operate, and can improve alignment precision greatly.
The utility model for the technological scheme that solves its technical problem and adopt is: a kind of testing instrument docking structure; Comprise fixed support and the testing instrument of being located at this fixed support upper surface; On said fixed support, also be provided with cylinder, rotating shaft and guide rail plate; The vertical activity of said guide rail plate is located on the said fixed support upper surface, and said guide rail plate just can move up and down by said relatively fixed support; The activity of said rotating shaft along continuous straight runs is fixedly arranged on the said fixed support, and said rotating shaft its rotational just relatively; Said cylinder is fixedly arranged on the said fixed support, and this cylinder just can drive the said relatively fixed support of said rotating shaft around its rotational; The rotation of said rotating shaft just can drive said guide rail plate relative fixed support and move up and down; Moving up and down of said guide rail plate just can drive said testing instrument along continuous straight runs motion.Like this, drive rotating shaft through cylinder and rotate, rotating shaft is rotated drive guide rail plate and is moved up and down; The guide rail plate moves up and down and drives the motion of testing instrument along continuous straight runs; Thereby realize the casing of testing instrument and docking of pinboard, control not only easy to use, easy, and also merging precision improves greatly.
Further improvement as the utility model; The activity of said rotating shaft along continuous straight runs is fixedly arranged on the said fixed support; And the said rotating shaft structure of its rotational just relatively is: on said fixed support, be installed with the rotating shaft fitting seat; On said rotating shaft fitting seat, be provided with through hole, said rotating shaft be slidingly connected just with this through hole in.
As the further improvement of the utility model, said rotating shaft fitting seat is at least two, and is provided with at interval.
Further improvement as the utility model; Said cylinder is fixedly arranged on the said fixed support; And this cylinder just can drive the said relatively fixed support of said rotating shaft: an end of said cylinder is fixedly arranged on the said fixed support, and the other end of said cylinder is its piston first connecting rod one end that is connected, and other is provided with first crank; The said first connecting rod the other end and this first crank, one end flexibly connect (promptly hinged), and the said first crank the other end and said rotating shaft are connected.Like this, the back and forth movement of cylinder piston drives the first connecting rod back and forth movement, and the back and forth movement of first connecting rod drives rotating shaft through first crank and rotates.
Further improvement as the utility model; The rotation of said rotating shaft just can drive the structure that said guide rail plate relative fixed support moves up and down: be respectively equipped with second crank at the two ends of said rotating shaft; Also be respectively equipped with second connecting rod in addition; One end of said second crank and an end of said rotating shaft are connected, and the other end of said second crank flexibly connects (promptly hinged) in said second connecting rod one end, and the other end of said second connecting rod and said guide rail plate bottom flexibly connect.Like this, the rotation of rotating shaft drives second connecting rod through second crank and moves up and down, and second connecting rod moves up and down and drives the guide rail plate and move up and down.
Further improvement as the utility model; The structure that just can drive said testing instrument along continuous straight runs motion that moves up and down of said guide rail plate is: on said guide rail plate, be provided with an inclined guide rails; The angle that this inclined guide rails and vertical direction was is an acute angle; On said testing instrument, be installed with third connecting rod, this third connecting rod the other end just can be placed in the said inclined guide rails.Like this, when guide rail moves up and down, drive third connecting rod and in inclined guide rails, move, thereby drive the horizontal back and forth movement of testing instrument.
As the further improvement of the utility model, said guide rail plate is two, and is fixedly arranged on the position, both sides of the testing instrument on the said fixed support respectively.
The beneficial effect of the utility model is: realize that through the conversion of motion of cylinder, rotating shaft and guide rail plate cylinder drives the back and forth movement of testing instrument on fixed support, not only operation is with easy to use, and laborsaving, efficient is high, the while alignment precision is also high.
Description of drawings
Fig. 1 is the utility model structural representation;
Fig. 2 is said testing instrument of the utility model and fixed support decomposition texture schematic representation.
In conjunction with accompanying drawing, explanation below doing:
10---fixed support 20---testing instrument
1---cylinder 5---rotating shaft
8---guide rail plate 4---rotating shaft fitting seat
41---through hole 2---first connecting rod
3---first cranks 6---, second crank
7---second connecting rod 8---inclined guide rails
9---third connecting rod
Embodiment
A kind of testing instrument docking structure; Comprise fixed support 10 and the testing instrument 20 of being located at this fixed support upper surface; On said fixed support, also be provided with cylinder 1, rotating shaft 5 and guide rail plate 8; The vertical activity of said guide rail plate is located on the said fixed support upper surface, and said guide rail plate just can move up and down by said relatively fixed support; The activity of said rotating shaft along continuous straight runs is fixedly arranged on the said fixed support, and said rotating shaft its rotational just relatively; Said cylinder is fixedly arranged on the said fixed support, and this cylinder just can drive the said relatively fixed support of said rotating shaft around its rotational; The rotation of said rotating shaft just can drive said guide rail plate relative fixed support and move up and down; Moving up and down of said guide rail plate just can drive said testing instrument along continuous straight runs motion.Like this, drive rotating shaft through cylinder and rotate, rotating shaft is rotated drive guide rail plate and is moved up and down; The guide rail plate moves up and down and drives the motion of testing instrument along continuous straight runs; Thereby realize the casing of testing instrument and docking of pinboard, control not only easy to use, easy, and also merging precision improves greatly.
The activity of above-mentioned rotating shaft along continuous straight runs is fixedly arranged on the said fixed support; And the said rotating shaft structure of its rotational just relatively is: on said fixed support, be installed with rotating shaft fitting seat 4; On said rotating shaft fitting seat, be provided with through hole 41, said rotating shaft be slidingly connected just with this through hole in.
Above-mentioned rotating shaft fitting seat is two, and is provided with at interval.
Above-mentioned cylinder is fixedly arranged on the said fixed support; And this cylinder just can drive the said relatively fixed support of said rotating shaft: an end of said cylinder is fixedly arranged on the said fixed support; The other end of said cylinder is its piston first connecting rod 2 one ends that are connected; Other is provided with first crank 3, and the said first connecting rod the other end and this first crank, one end flexibly connect (promptly hinged), and the said first crank the other end and said rotating shaft are connected.Like this, the back and forth movement of cylinder piston drives the first connecting rod back and forth movement, and the back and forth movement of first connecting rod drives rotating shaft through first crank and rotates.
The rotation of above-mentioned rotating shaft just can drive the structure that said guide rail plate relative fixed support moves up and down: be respectively equipped with second crank 6 at the two ends of said rotating shaft; Also be respectively equipped with second connecting rod 7 in addition; One end of said second crank and an end of said rotating shaft are connected; The other end of said second crank flexibly connects (promptly hinged) in said second connecting rod one end, and the other end of said second connecting rod and said guide rail plate bottom flexibly connect.Like this, the rotation of rotating shaft drives second connecting rod through second crank and moves up and down, and second connecting rod moves up and down and drives the guide rail plate and move up and down.
The structure that just can drive said testing instrument along continuous straight runs motion that moves up and down of above-mentioned guide rail plate is: on said guide rail plate, be provided with an inclined guide rails 81; The angle that this inclined guide rails and vertical direction was is an acute angle; On said testing instrument, be installed with third connecting rod 9, this third connecting rod the other end just can be placed in the said inclined guide rails.Like this, when guide rail moves up and down, drive third connecting rod and in inclined guide rails, move, thereby drive the horizontal back and forth movement of testing instrument.
Above-mentioned guide rail plate is two, and is fixedly arranged on the position, both sides of the testing instrument on the said fixed support respectively.
Claims (7)
1. testing instrument docking structure; Comprise fixed support (10) and be located at the testing instrument (20) of this fixed support upper surface; It is characterized in that: on said fixed support, also be provided with cylinder (1), rotating shaft (5) and guide rail plate (8); The vertical activity of said guide rail plate is located on the said fixed support upper surface, and said guide rail plate just can move up and down by said relatively fixed support; The activity of said rotating shaft along continuous straight runs is fixedly arranged on the said fixed support, and said rotating shaft its rotational just relatively; Said cylinder is fixedly arranged on the said fixed support, and this cylinder just can drive the said relatively fixed support of said rotating shaft around its rotational; The rotation of said rotating shaft just can drive said guide rail plate relative fixed support and move up and down; Moving up and down of said guide rail plate just can drive said testing instrument along continuous straight runs motion.
2. testing instrument docking structure according to claim 1; It is characterized in that: the activity of said rotating shaft along continuous straight runs is fixedly arranged on the said fixed support; And the said rotating shaft structure of its rotational just relatively is: on said fixed support, be installed with rotating shaft fitting seat (4); On said rotating shaft fitting seat, be provided with through hole (41), said rotating shaft be slidingly connected just with this through hole in.
3. testing instrument docking structure according to claim 2 is characterized in that: said rotating shaft fitting seat is at least two, and is provided with at interval.
4. testing instrument docking structure according to claim 1; It is characterized in that: said cylinder is fixedly arranged on the said fixed support; And this cylinder just can drive the said relatively fixed support of said rotating shaft: an end of said cylinder is fixedly arranged on the said fixed support; The other end of said cylinder is its piston first connecting rod (2) one ends that are connected; Other is provided with first crank (3), and the said first connecting rod the other end and this first crank, one end flexibly connect, and the said first crank the other end and said rotating shaft are connected.
5. testing instrument docking structure according to claim 1; It is characterized in that: the rotation of said rotating shaft just can drive the structure that said guide rail plate relative fixed support moves up and down and be: be respectively equipped with second crank (6) at the two ends of said rotating shaft; Also be respectively equipped with second connecting rod (7) in addition; One end of said second crank and an end of said rotating shaft are connected; The other end of said second crank flexibly connects in said second connecting rod one end, and the other end of said second connecting rod and said guide rail plate bottom flexibly connect.
6. testing instrument docking structure according to claim 1; It is characterized in that: the structure that just can drive said testing instrument along continuous straight runs motion that moves up and down of said guide rail plate is: on said guide rail plate, be provided with an inclined guide rails (81); The angle that this inclined guide rails and vertical direction was is an acute angle; On said testing instrument, be installed with third connecting rod (9), this third connecting rod the other end just can be placed in the said inclined guide rails.
7. testing instrument docking structure according to claim 6 is characterized in that: said guide rail plate is two, and is fixedly arranged on the position, both sides of the testing instrument on the said fixed support respectively.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201120235371XU CN202118458U (en) | 2011-07-06 | 2011-07-06 | Abutting joint structure of tester |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201120235371XU CN202118458U (en) | 2011-07-06 | 2011-07-06 | Abutting joint structure of tester |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN202118458U true CN202118458U (en) | 2012-01-18 |
Family
ID=45459524
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201120235371XU Expired - Fee Related CN202118458U (en) | 2011-07-06 | 2011-07-06 | Abutting joint structure of tester |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN202118458U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104747877A (en) * | 2015-04-14 | 2015-07-01 | 网云(武汉)三维打印科技有限公司 | Holder for camera to shoot automatically |
-
2011
- 2011-07-06 CN CN201120235371XU patent/CN202118458U/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104747877A (en) * | 2015-04-14 | 2015-07-01 | 网云(武汉)三维打印科技有限公司 | Holder for camera to shoot automatically |
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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: 20120118 Termination date: 20150706 |
|
| EXPY | Termination of patent right or utility model |