CN215036899U - Positioning mechanism of bilateral benchmark - Google Patents
Positioning mechanism of bilateral benchmark Download PDFInfo
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- CN215036899U CN215036899U CN202121688492.XU CN202121688492U CN215036899U CN 215036899 U CN215036899 U CN 215036899U CN 202121688492 U CN202121688492 U CN 202121688492U CN 215036899 U CN215036899 U CN 215036899U
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- push pedal
- synchronous
- positioning mechanism
- linear guide
- pedal device
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Abstract
The utility model discloses a positioning mechanism of bilateral benchmark, including location platform, regulation mount pad, motor, left side push pedal device, right side push pedal device, transmission positioning mechanism, be equipped with on the location platform and adjust the mount pad, be equipped with the motor on adjusting the mount pad, it is equipped with left side push pedal device to adjust the mount pad left side, left side push pedal device right side is equipped with right side push pedal device, left side push pedal device with be equipped with transmission positioning mechanism between the push pedal device of right side, the utility model discloses beneficial effect: the positioning mechanism with the bilateral reference has accurate positioning and small structure; the synchronous action and clamping of the stop blocks at the two sides can be realized; the adjustment is convenient, and the product replacement and positioning are fast; the transmission positioning mechanism adopts a motor as power, and can realize quick positioning of products with different sizes.
Description
[ technical field ] A method for producing a semiconductor device
The utility model relates to a positioning mechanism technical field especially relates to a positioning mechanism of bilateral benchmark.
[ background of the invention ]
The mechanical design is very important and a key link for positioning the product. Product positioning directly affects subsequent stations. The guide rod cylinder and a push plate are commonly used in mechanical design to realize positioning. The mechanism is large in design volume, the two cylinders are different in simultaneous action speed, the problem of product extrusion is caused, the problem that positioning time is increased or not is caused by independent action, the stroke of the cylinders is fixed, adjustment is difficult, and time and labor are wasted during product replacement.
[ Utility model ] content
The utility model aims to solve the mechanism design bulky, two cylinders action speed difference simultaneously leads to the product extrusion problem, will be or not be the independent action, increases positioning time scheduling problem, and the stroke of cylinder is fixed, adjusts the difficulty, wastes time and energy when changing the product not enough and a neotype bilateral benchmark positioning mechanism that provides.
The utility model discloses a realize through following technical scheme:
the utility model provides a positioning mechanism of bilateral benchmark, includes positioning platform, regulation mount pad, motor, left side push pedal device, right side push pedal device, transmission positioning mechanism, the last regulation mount pad that is equipped with of positioning platform, be equipped with the motor on the regulation mount pad, it is equipped with left side push pedal device to adjust the mount pad left side, left side push pedal device right side is equipped with right side push pedal device, left side push pedal device with be equipped with transmission positioning mechanism between the right side push pedal device.
Furthermore, the positioning platform is provided with a mounting seat hole, one side of the mounting seat hole is provided with a left fixed stop dog, one side of the left fixed stop dog is provided with a rear fixed stop dog, one side of the left fixed stop dog is provided with a left push plate mounting hole, and one side of the rear fixed stop dog is provided with a right push plate mounting hole.
Further, left side push pedal device includes left side activity push pedal, slider fixing base, left side belt connecting block, linear guide fixed block, left side activity push pedal is installed on the push pedal mounting hole of left side, left side activity push pedal below is equipped with the slider fixing base, be equipped with the linear guide fixed block on the slider fixing base, be equipped with linear guide on the linear guide fixed block, left side belt connecting block is installed on the slider fixing base, left side activity push pedal can control on the linear guide and move.
Further, right side push pedal device includes right side activity push pedal, right side belt connecting block, response mount pad, response photoelectricity piece, photoelectric sensing board, linear guide fixed block, right side activity push pedal is installed on the push pedal mounting hole of right side, right side activity push pedal below is equipped with right side belt connecting block, the response mount pad is installed on the back fixed dog, the response mount pad below is equipped with response photoelectricity piece, the linear guide fixed block is installed on the belt connecting block of right side, be equipped with linear guide on the linear guide fixed block, linear guide one side is equipped with photoelectric sensing board, photoelectric sensing board aligns response photoelectricity piece, right side activity push pedal can remove on the linear guide and control.
Furthermore, the transmission positioning mechanism comprises a first synchronous idler, a second synchronous idler, a synchronous belt, a bolt, a synchronous wheel and a belt pressing wheel, wherein the first synchronous idler and the second synchronous idler are mounted on the positioning platform through the bolt, the synchronous wheel is mounted on an output shaft of the motor, one end of the synchronous belt is sleeved on the first synchronous idler, the other end of the synchronous belt penetrates through the second synchronous idler and then is connected with the synchronous wheel, and the belt pressing wheel is located on one side of the second synchronous idler and presses the synchronous belt.
Furthermore, the first synchronous idler wheel, the second synchronous idler wheel, the synchronous belt, the synchronous wheel and the pinch roller form an L-path transmission mechanism.
Further, the left movable push plate is T-shaped.
Further, the right movable push plate is T-shaped.
Further, left side belt connecting block one end is installed on the slider fixing base, the left side belt connecting block other end embedding is on the synchronous belt.
Further, right side belt connecting block one end is installed on the movable push pedal of right side, the embedding of right side belt connecting block other end is on the hold-in range.
The beneficial effects of the utility model reside in that:
(1) the method utilizes two positioning stop blocks as a reference and adopts a motor driving mode; the transmission positioning mechanism adopts a mode of a synchronous wheel and a synchronous belt, and the stop blocks are fixed on the linear guide rail, so that 2 stop blocks in different directions move simultaneously, and a product is accurately positioned;
(2) the transmission positioning mechanism adopts a motor as power, so that products with different sizes can be quickly positioned;
(3) the positioning mechanism with the bilateral reference has accurate positioning and small structure; the synchronous action and clamping of the stop blocks at the two sides can be realized; the adjustment is convenient, and the product replacement and positioning are fast.
[ description of the drawings ]
Fig. 1 is a schematic view of a top view structure of a positioning mechanism of the bilateral reference of the present invention;
fig. 2 is a schematic view of the positioning mechanism of the double-sided reference of the present invention;
FIG. 3 is an exploded view of the positioning mechanism of the dual-side datum of the present invention;
reference numerals: 1. positioning the platform; 11. mounting seat holes; 12. a left fixed stop block; 13. a rear fixed stop block; 14. a left push plate mounting hole; 15. a right push plate mounting hole; 2. adjusting the mounting seat; 3. a motor; 4. a left push plate device; 41. a left movable push plate; 42. a slide block fixing seat; 43. a left belt connecting block; 44. a linear guide rail; 45. a linear guide rail fixing block; 5. a right push plate device; 51. a right movable push plate; 52. a right belt connecting block; 53. an induction mounting base; 54. an induction photoelectric block; 55. a photoelectric sensing plate; 56. a linear guide rail; 57. a linear guide rail fixing block; 6. a transmission positioning mechanism; 61. a first synchronous idler; 62. a second synchronous idler; 63. a synchronous belt; 64. a bolt; 65. a synchronizing wheel; 66. a pinch roller.
[ detailed description ] embodiments
The invention will be further described with reference to the accompanying drawings and specific embodiments:
as shown in fig. 1, fig. 2 and fig. 3, the positioning mechanism with the bilateral reference comprises a positioning platform, an adjusting mounting seat, a motor, a left side push plate device, a right side push plate device and a transmission positioning mechanism, wherein the adjusting mounting seat is arranged on the positioning platform, the motor is arranged on the adjusting mounting seat, the left side of the adjusting mounting seat is provided with the left side push plate device, the right side of the left side push plate device is provided with the right side push plate device, and the transmission positioning mechanism is arranged between the left side push plate device and the right side push plate device.
Preferably, the positioning platform is provided with a mounting seat hole, one side of the mounting seat hole is provided with a left fixed stop dog, one side of the left fixed stop dog is provided with a rear fixed stop dog, one side of the left fixed stop dog is provided with a left push plate mounting hole, and one side of the rear fixed stop dog is provided with a right push plate mounting hole.
Preferably, left side push pedal device includes left side activity push pedal, slider fixing base, left side belt connecting block, linear guide fixed block, left side activity push pedal is installed on the push pedal mounting hole of left side, left side activity push pedal below is equipped with the slider fixing base, be equipped with the linear guide fixed block on the slider fixing base, be equipped with linear guide on the linear guide fixed block, left side belt connecting block installs on the slider fixing base, left side activity push pedal can control on the linear guide.
Preferably, right side push pedal device includes right side activity push pedal, right side belt connecting block, response mount pad, response photoelectricity piece, photoelectric sensing board, linear guide fixed block, right side activity push pedal is installed on the push pedal mounting hole of right side, right side activity push pedal below is equipped with right side belt connecting block, the response mount pad is installed on the back fixed stop dog, the response mount pad below is equipped with response photoelectricity piece, the linear guide fixed block is installed on the belt connecting block of right side, be equipped with linear guide on the linear guide fixed block, linear guide one side is equipped with photoelectric sensing board, photoelectric sensing board aligns response photoelectricity piece, right side activity push pedal can remove on the linear guide and control.
Preferably, the transmission positioning mechanism comprises a first synchronous idler, a second synchronous idler, a synchronous belt, a bolt, a synchronous wheel and a pinch roller, the first synchronous idler and the second synchronous idler are mounted on the positioning platform through the bolt, the synchronous wheel is mounted on an output shaft of the motor, one end of the synchronous belt is sleeved on the first synchronous idler, the other end of the synchronous belt penetrates through the second synchronous idler and then is connected with the synchronous wheel, and the pinch roller is located on one side of the second synchronous idler and presses the synchronous belt.
Preferably, the first synchronous idler, the second synchronous idler, the synchronous belt, the synchronous wheel and the pinch roller form an L-path transmission mechanism.
Preferably, the left movable push plate is T-shaped.
Preferably, the right movable push plate is T-shaped.
Preferably, left side belt connecting block one end is installed on the slider fixing base, the left side belt connecting block other end embedding is on the synchronous belt.
Preferably, right side belt connecting block one end is installed on the movable push pedal of right side, the embedding of right side belt connecting block other end is on the synchronizing band.
Appropriate changes and modifications to the embodiments described above will become apparent to those skilled in the art from the disclosure and teachings of the foregoing description. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.
Claims (10)
1. The utility model provides a positioning mechanism of bilateral benchmark which characterized in that: including locating platform, regulation mount pad, motor, left side push pedal device, right side push pedal device, transmission positioning mechanism, the last regulation mount pad that is equipped with of locating platform, be equipped with the motor on the regulation mount pad, it is equipped with left side push pedal device to adjust the mount pad left side, left side push pedal device right side is equipped with right side push pedal device, left side push pedal device with be equipped with transmission positioning mechanism between the right side push pedal device.
2. The bilateral datum positioning mechanism of claim 1 wherein: the positioning platform is provided with a mounting seat hole, a left fixed stop block is arranged on one side of the mounting seat hole, a rear fixed stop block is arranged on one side of the left fixed stop block, a left push plate mounting hole is formed in one side of the left fixed stop block, and a right push plate mounting hole is formed in one side of the rear fixed stop block.
3. The bilateral datum positioning mechanism of claim 2 wherein: the left side push pedal device includes left side activity push pedal, slider fixing base, left side belt connecting block, linear guide fixed block, left side activity push pedal is installed on the push pedal mounting hole of left side, left side activity push pedal below is equipped with the slider fixing base, be equipped with the linear guide fixed block on the slider fixing base, be equipped with linear guide on the linear guide fixed block, left side belt connecting block installs on the slider fixing base, left side activity push pedal can control on the linear guide and move.
4. The bilateral datum positioning mechanism of claim 2 wherein: right side push pedal device includes right side activity push pedal, right side belt connecting block, response mount pad, response photoelectricity piece, photoelectric sensing board, linear guide fixed block, right side activity push pedal is installed on the push pedal mounting hole of right side, right side activity push pedal below is equipped with right side belt connecting block, the response mount pad is installed on the after-fixing dog, the response mount pad below is equipped with response photoelectricity piece, the linear guide fixed block is installed on the belt connecting block of right side, be equipped with linear guide on the linear guide fixed block, linear guide one side is equipped with photoelectric sensing board, photoelectric sensing board is aimed at response photoelectric block, right side activity push pedal can remove on the linear guide and control.
5. The bilateral datum positioning mechanism of claim 1 wherein: the transmission positioning mechanism comprises a first synchronous idler, a second synchronous idler, a synchronous belt, a bolt, a synchronous wheel and a pinch roller, wherein the first synchronous idler and the second synchronous idler are installed on the positioning platform through the bolt, the synchronous wheel is installed on an output shaft of the motor, one end of the synchronous belt is sleeved on the first synchronous idler, the other end of the synchronous belt penetrates through the second synchronous idler and then is connected with the synchronous wheel, and the pinch roller is located on one side of the second synchronous idler and presses the synchronous belt.
6. The bilateral datum positioning mechanism of claim 5 wherein: the first synchronous idler wheel, the second synchronous idler wheel, the synchronous belt, the synchronous wheel and the pinch roller form an L-path transmission mechanism.
7. The bilateral datum positioning mechanism of claim 3 wherein: the left movable push plate is T-shaped.
8. The bilateral datum positioning mechanism of claim 4 wherein: the right movable push plate is T-shaped.
9. The bilateral datum positioning mechanism of claim 3 wherein: left side belt connecting block one end is installed on the slider fixing base, the embedding of left side belt connecting block other end is on the synchronous belt.
10. The bilateral datum positioning mechanism of claim 4 wherein: and one end of the right belt connecting block is arranged on the right movable push plate, and the other end of the right belt connecting block is embedded into the synchronous belt.
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CN202121688492.XU CN215036899U (en) | 2021-07-23 | 2021-07-23 | Positioning mechanism of bilateral benchmark |
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CN202121688492.XU CN215036899U (en) | 2021-07-23 | 2021-07-23 | Positioning mechanism of bilateral benchmark |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114536247A (en) * | 2022-02-28 | 2022-05-27 | 歌尔股份有限公司 | Product side-pushing positioning mechanism |
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2021
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114536247A (en) * | 2022-02-28 | 2022-05-27 | 歌尔股份有限公司 | Product side-pushing positioning mechanism |
CN114536247B (en) * | 2022-02-28 | 2024-02-02 | 歌尔股份有限公司 | Product side pushing and positioning mechanism |
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