CN210913022U - Automatic positioning mechanism for carrier tape - Google Patents
Automatic positioning mechanism for carrier tape Download PDFInfo
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- CN210913022U CN210913022U CN201920906716.6U CN201920906716U CN210913022U CN 210913022 U CN210913022 U CN 210913022U CN 201920906716 U CN201920906716 U CN 201920906716U CN 210913022 U CN210913022 U CN 210913022U
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Abstract
The utility model provides a carrier band automatic positioning mechanism, including motor (10), motor supporting shoe (11), shaft coupling (12), positioning mechanism (20), press pivot mechanism (30) and carrier band base mechanism (40), motor (10) are connected through shaft coupling (12) with positioning mechanism (20), be equipped with motor supporting shoe (11) between motor (10) and positioning mechanism (20), be used for supporting motor (10), motor (10) pass through screw A fixed connection with motor supporting shoe (11), positioning mechanism (20) are connected with pressure pivot mechanism (30), positioning mechanism (20) pass through screw D fixed connection with carrier band base mechanism (40). The utility model provides a current production mode improve production efficiency to artificial reliance, practice thrift the cost of labor.
Description
Technical Field
The utility model relates to a carrier band automatic packaging machine equipment especially indicates the carrier band automatic positioning mechanism of this equipment core.
Technical Field
With the continuous updating and upgrading of power supply products and the rapid popularization of automation in the electronic technology industry, the SMT technology is mature day by day, the current SMT feeding mode is that the flying objects of the material tray to be filled are installed on SMT paster equipment, therefore, various SMD components need to be distinguished in direction and packaged into the material tray, the prior art utilizes manual work to identify the direction of the SMD components and packages the material tray through semi-automatic equipment, the operation mode needs to manually and repeatedly place the SMD components and confirm the direction infinitely, the production efficiency is low, the labor cost is high, and the production automation is difficult to achieve completely.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a carrier band automatic positioning mechanism, this mechanism can realize the same carrier band location pitch-row, the automatic positioning of different width carrier bands.
In order to realize the purpose, the utility model discloses the technical scheme who adopts is:
the utility model provides a carrier band automatic positioning mechanism, be applied to carrier band packagine machine, including motor (10), motor supporting shoe (11), shaft coupling (12), positioning mechanism (20), press pivot mechanism (30) and carrier band base mechanism (40), motor (10) are connected through shaft coupling (12) with positioning mechanism (20), be equipped with motor supporting shoe (11) between motor (10) and positioning mechanism (20), be used for supporting motor (10), motor (10) pass through screw A fixed connection with motor supporting shoe (11), positioning mechanism (20) are connected with pressure pivot mechanism (30), positioning mechanism (20) pass through screw D fixed connection with carrier band base mechanism (40).
Preferably, the positioning mechanism (20) comprises a connecting shaft (21), a front adjusting block (22), a rear adjusting block (23), two adjusting fixing pieces (24) and a handle piece (27), wherein the front fixing piece (25) is provided with a through hole A, the rear fixing piece (26) is provided with a through hole B, N positioning pins (28), a bearing A and a bearing B are arranged in the through hole A and the through hole B respectively, the front adjusting block (22) and one adjusting fixing piece (24) are fixedly connected through a screw B to form a front positioning block, the rear adjusting block (23) and the other adjusting fixing piece (24) are fixedly connected through a screw B to form a rear positioning block, the connecting shaft (21) penetrates through the front positioning block and the rear positioning block, the front fixing block and the rear fixing block are respectively and fixedly connected with the connecting shaft (21) through screws C, one end of the connecting shaft (21) penetrates through the bearing A and is connected with the handle piece (, the other end of the connecting shaft (21) penetrates through the bearing B and is fixedly connected with the motor (10) through the coupler (12), the front fixing piece (25) and the rear fixing piece (26) are fixedly connected with the carrier band base mechanism (40) through screws D, and the rear fixing piece (26) is fixedly connected with the pressing rotating shaft mechanism (30) through a through hole C.
Preferably, the positioning pins (28) are arranged on the side surface of the rear adjusting block (23) at equal intervals and used for accurately positioning the carrier tape holes, and N is an integer greater than or equal to 1.
Preferably, the pressing rotating shaft mechanism (30) comprises a pressing block (31), a rotating shaft (32), two check rings (33), a pressing shaft (34), a pressing rotating shaft (35), a tension spring (36), a gasket A, a bearing C, two bearings D, a screw E, a screw F and a screw G, wherein the pressing rotating shaft (35) is a hollow cylinder, the pressing shaft (34) penetrates through the pressing rotating shaft (35), the bearing C is installed in the check rings (33) and penetrates through the pressing shaft (34) to be fixed at two ends of the pressing rotating shaft (35) through the screw G, and the pressing shaft (34) is fixedly installed on the pressing block (31) through a through hole E; one end of the pressing block (31) is provided with a through hole D, the bearing D is arranged in the through hole D, and the rotating shaft sequentially penetrates through the gasket A and the bearing D to be arranged in the through hole C and is fixedly connected with the rear fixing piece (26); one end of the tension spring (36) is fixed on the pressing block (31) through a screw E, and the other end of the tension spring (36) is fixed on the rear fixing piece (26) through a screw F.
Preferably, the pressing block (31) rotates around the rotating shaft (32) to make the outer surface of the pressing rotating shaft (35) tangent to the outer surfaces of the front adjusting block (22) and the rear adjusting block (23).
Preferably, the carrier tape base mechanism (40) comprises a carrier tape base plate (41), two positioning blocks (42), two spring guide pieces (43), a pressing sheet (44), two springs (45), two gaskets B and a screw H, wherein the positioning blocks (42) are of a stepped structure, a first step is used for fixing the carrier tape base plate (41) and the positioning blocks (42) through the screw H, a second step is used for placing a carrier tape, the two spring guide pieces (43) are fixed on two sides of the two positioning blocks (42), the two springs (45) penetrate through two ends of the pressing sheet (44) and are fixed on the two spring guide pieces (43), and the gaskets B are installed at the top ends of the springs (45).
The beneficial effects of the utility model reside in that: the SMD components of good direction will unify are carried to the fixed position of carrier band top, drive the accurate location of carrier band through motor (10), realize that a SMD component is put to the interior pendulum of a carrier band check, have solved current production mode and to artificial reliance, improve production efficiency, practice thrift the cost of labor.
Drawings
Fig. 1 is a front perspective view of the carrier tape automatic positioning mechanism of the present invention;
FIG. 2 is a front side exploded view of the automatic positioning mechanism for carrier tape of the present invention;
fig. 3 is a schematic view of the positioning mechanism of the present invention;
fig. 4 is a partial schematic view of the positioning mechanism of the present invention;
fig. 5 is a schematic view of the rotating shaft pressing mechanism of the present invention;
fig. 6 is a schematic diagram of the carrier tape base mechanism of the present invention.
Detailed Description
In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution of the present invention will be described in detail below with reference to the accompanying drawings and the detailed description.
Fig. 1 is a front side perspective view of the automatic positioning mechanism for a carrier tape in this embodiment, fig. 2 is a front side exploded schematic view of the automatic positioning mechanism for a carrier tape in this embodiment, as shown in the figure, the automatic positioning mechanism for a carrier tape includes a motor (10), a motor support block (11), a coupler (12), a positioning mechanism (20), a pressing spindle mechanism (30) and a carrier tape base mechanism (40), the motor (10) is connected with the positioning mechanism (20) through the coupler (12), the motor support block (11) is disposed between the motor (10) and the positioning mechanism (20) and is used for supporting the motor (10), the motor (10) is fixedly connected with the motor support block (11) through a screw a, the positioning mechanism (20) is connected with the pressing spindle mechanism (30), and the positioning mechanism (20) is fixedly connected with the carrier tape base mechanism (40) through.
FIG. 3 is a schematic view of a positioning mechanism of this embodiment, FIG. 4 is a partial schematic view of the positioning mechanism of this embodiment, the positioning mechanism (20) includes a connecting shaft (21), a front adjusting block (22), a rear adjusting block (23), two adjusting fixing members (24) and a handle member (27), a front fixing member (25) with a through hole A, a rear fixing member (26) with a through hole B, a plurality of positioning pins (28) installed at equal intervals on the side of the rear adjusting block (23), a bearing A and a bearing B, the bearing A and the bearing B are installed in the through hole A and the through hole B respectively, the front adjusting block (22) and one adjusting fixing member (24) are fixedly connected by a screw B to form a front positioning block, the rear adjusting block (23) and the other adjusting fixing member (24) are fixedly connected by a screw B to form a rear positioning block, the connecting shaft (21) passes through the front positioning, preceding fixed block and back fixed block pass through screw C fixed connection with connecting axle (21) respectively, and bearing A is passed and handle spare (27) is connected to connecting axle (21) one end, and bearing B is passed and shaft coupling (12) and motor (10) fixed connection are passed to the connecting axle (21) other end, and preceding mounting (25) and back mounting (26) pass through screw D fixed connection with carrier band base mechanism (40), and back mounting (26) pass through hole C fixed connection and press pivot mechanism (30).
Fig. 5 is a schematic view of the pressing and rotating shaft mechanism in this embodiment, the pressing and rotating shaft mechanism (30) includes a pressing block (31), a rotating shaft (32), two retainer rings (33), a pressing shaft (34), a pressing rotating shaft (35), a tension spring (36), a gasket a, a bearing C, two bearings D, a screw E, a screw F, and a screw G, the pressing rotating shaft (35) is a hollow cylinder, the pressing shaft (34) penetrates through the pressing rotating shaft (35), the bearing C is installed in the retainer rings (33), penetrates through the pressing shaft (34), and is fixed at two ends of the pressing rotating shaft (35) through the screw G, and the pressing shaft (34) is fixedly installed on the pressing block (31) through a through hole E; one end of the pressing block (31) is provided with a through hole D, the bearing D is arranged in the through hole D, and the rotating shaft sequentially penetrates through the gasket A and the bearing D to be arranged in the through hole C and is fixedly connected with the rear fixing piece (26); one end of a tension spring (36) is fixed on the pressing block (31) through a screw E, the other end of the tension spring (36) is fixed on the rear fixing piece (26) through a screw F, and the pressing block (31) rotates around the rotating shaft (32) to enable the outer surface of the pressing rotating shaft (35) to be tangent to the outer surfaces of the front adjusting block (22) and the rear adjusting block (23).
Fig. 6 is a schematic diagram of the carrier tape base mechanism of this embodiment, the carrier tape base mechanism (40) includes a carrier tape base plate (41), two positioning blocks (42), two spring guide members (43), a pressing plate (44), two springs (45), two gaskets B and a screw H, the two positioning blocks (42) are fixed on the carrier tape base plate (41) along the length direction through the screw H, the two spring guide members (43) are fixed on two sides of the two positioning blocks (42), the two springs (45) penetrate through two ends of the pressing plate (44) and are fixed on the two spring guide members (43), and the gasket B is installed on the top end of the spring (45).
The working process of the automatic carrier tape positioning mechanism is as follows:
1. the automatic carrier tape positioning mechanism is fixed on a carrier tape packaging machine through a carrier tape base plate (41), the carrier tape is enabled to move smoothly between two positioning blocks (42) by adjusting the width between the two positioning blocks (42), the carrier tape is placed on the second step surface of the positioning blocks (42) and penetrates through the lower surface of a pressing sheet (44), and the carrier tape is tightly attached to the carrier tape base plate (41) through the force generated by a gasket B, a spring guide piece (43) and a spring (45);
2. adjusting the distance between the front positioning block and the rear positioning block to be suitable for the width of the carrier tape, pulling the carrier tape, correspondingly sleeving the positioning holes of the carrier tape into the positioning needles (28) to realize accurate positioning, and ensuring that the clinging parts of the carrier tape and the outer surfaces of the front adjusting block (22) and the rear adjusting block (23) exceed the 1/4 outer circumferences of the front adjusting block (22) and the rear adjusting block (23) so as to ensure that the carrier tape is not damaged in the accurate carrier tape moving process;
3. rapidly moving the carrier tape to a standard position by rotating the handle member (27);
4. after the carrier tape is accurately positioned, the SMD components with uniform direction are placed in the corresponding carrier tape grids;
5. the motor (10) rotates to pull the SMD element carrier tape to pass through the lower surface of the pressing rotating shaft (35), and then the SMD element carrier tape continuously moves forwards and is packaged by the carrier tape packaging machine;
6. and finally, rolling the carrier tape to form a material tray.
The above embodiments are only used to help understand the method and core idea of the present invention, and it will be obvious to those skilled in the art that the present invention can be naturally applied by the above description and examples without departing from the principle of the present invention, and that several modifications and improvements of the present invention are possible within the protection scope of the claims of the present invention.
Claims (6)
1. The utility model provides a carrier band automatic positioning mechanism, is applied to carrier band packagine machine, its characterized in that: the motor carrier tape loading device comprises a motor (10), a motor supporting block (11), a coupler (12), a positioning mechanism (20), a pressure rotating shaft mechanism (30) and a carrier tape base mechanism (40), wherein the motor (10) is connected with the positioning mechanism (20) through the coupler (12), the motor supporting block (11) is arranged between the motor (10) and the positioning mechanism (20) and used for supporting the motor (10), the motor (10) is fixedly connected with the motor supporting block (11) through a screw A, the positioning mechanism (20) is connected with the pressure rotating shaft mechanism (30), and the positioning mechanism (20) is fixedly connected with the carrier tape base mechanism (40) through a screw D.
2. The carrier tape automatic positioning mechanism of claim 1, characterized in that: the positioning mechanism (20) comprises a connecting shaft (21), a front adjusting block (22), a rear adjusting block (23), two adjusting fixing pieces (24) and a handle piece (27), wherein the front fixing piece (25) with a through hole A, the rear fixing piece (26) with a through hole B, N positioning needles (28), a bearing A and a bearing B are arranged in the through hole A and the through hole B respectively, the front adjusting block (22) and the adjusting fixing piece (24) are fixedly connected through a screw B to form a front positioning block, the rear adjusting block (23) and the other adjusting fixing piece (24) are fixedly connected through a screw B to form a rear positioning block, the connecting shaft (21) penetrates through the front positioning block and the rear positioning block, the front fixing block and the rear fixing block are fixedly connected with the connecting shaft (21) through a screw C respectively, one end of the connecting shaft (21) penetrates through the bearing A and is connected with the handle piece (27), the other end of the connecting shaft (21) penetrates through the bearing B and is fixedly connected with the motor (10) through the coupler (12), the front fixing piece (25) and the rear fixing piece (26) are fixedly connected with the carrier band base mechanism (40) through screws D, and the rear fixing piece (26) is fixedly connected with the pressing rotating shaft mechanism (30) through a through hole C.
3. The carrier tape automatic positioning mechanism of claim 2, characterized in that: the positioning needles (28) are arranged on the side surface of the rear adjusting block (23) at equal intervals and used for accurately positioning the belt carrying holes, and N is an integer greater than or equal to 1.
4. The carrier tape automatic positioning mechanism of claim 1, characterized in that: the pressing rotating shaft mechanism (30) comprises a pressing block (31), a rotating shaft (32), two check rings (33), a pressing shaft (34), a pressing rotating shaft (35), a tension spring (36), a gasket A, a bearing C, two bearings D, a screw E, a screw F and a screw G, wherein the pressing rotating shaft (35) is a hollow cylinder, the pressing shaft (34) penetrates through the pressing rotating shaft (35), the bearing C is installed in the check rings (33) and penetrates through the pressing shaft (34) to be fixed at two ends of the pressing rotating shaft (35) through the screw G, and the pressing shaft (34) is fixedly installed on the pressing block (31) through a through hole E; one end of the pressing block (31) is provided with a through hole D, the bearing D is arranged in the through hole D, and the rotating shaft sequentially penetrates through the gasket A and the bearing D to be arranged in the through hole C and is fixedly connected with the rear fixing piece (26); one end of the tension spring (36) is fixed on the pressing block (31) through a screw E, and the other end of the tension spring (36) is fixed on the rear fixing piece (26) through a screw F.
5. The carrier tape automatic positioning mechanism of claim 1, characterized in that: the pressing block (31) rotates around the rotating shaft (32) to make the outer surface of the pressing rotating shaft (35) tangent with the outer surfaces of the front adjusting block (22) and the rear adjusting block (23).
6. The carrier tape automatic positioning mechanism of claim 1, characterized in that: the carrier band base mechanism (40) comprises a carrier band base plate (41), two positioning blocks (42), two spring guide pieces (43), a pressing sheet (44), two springs (45), two gaskets B and a screw H, wherein the positioning blocks (42) are of a stepped structure, a first step is used for fixing the carrier band base plate (41) and the positioning blocks (42) through the screw H, a second step is used for placing a carrier band, the two spring guide pieces (43) are fixed on two sides of the two positioning blocks (42), two springs (45) penetrate through two ends of the pressing sheet (44) and are fixed on the two spring guide pieces (43), and the gaskets B are installed at the top ends of the springs (45).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920906716.6U CN210913022U (en) | 2019-06-17 | 2019-06-17 | Automatic positioning mechanism for carrier tape |
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CN201920906716.6U CN210913022U (en) | 2019-06-17 | 2019-06-17 | Automatic positioning mechanism for carrier tape |
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CN210913022U true CN210913022U (en) | 2020-07-03 |
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CN201920906716.6U Active CN210913022U (en) | 2019-06-17 | 2019-06-17 | Automatic positioning mechanism for carrier tape |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112319896A (en) * | 2020-12-04 | 2021-02-05 | 重庆机电职业技术大学 | Sealing braider of chip packaging machine |
CN115196077A (en) * | 2022-08-16 | 2022-10-18 | 深圳市华力宇电子科技有限公司 | Chip braiding device and chip braiding method |
-
2019
- 2019-06-17 CN CN201920906716.6U patent/CN210913022U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112319896A (en) * | 2020-12-04 | 2021-02-05 | 重庆机电职业技术大学 | Sealing braider of chip packaging machine |
CN115196077A (en) * | 2022-08-16 | 2022-10-18 | 深圳市华力宇电子科技有限公司 | Chip braiding device and chip braiding method |
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