CN215363581U

CN215363581U - Rotary positioning mechanism

Info

Publication number: CN215363581U
Application number: CN202120442692.0U
Authority: CN
Inventors: 陈光建; 李岳
Original assignee: Dongguan Guanjia Electronic Equipment Co Ltd
Current assignee: Guanjia Technology Co ltd
Priority date: 2021-02-26
Filing date: 2021-02-26
Publication date: 2021-12-31
Anticipated expiration: 2031-02-26

Abstract

The utility model particularly provides a rotary positioning mechanism which comprises a feeding component, a positioning component connected to the discharge end of the feeding component, and a rotary driving component for driving the positioning component to rotate, wherein the positioning component is positioned between the feeding component and the rotary driving component; the positioning assembly comprises a positioning block, and the positioning block is provided with a positioning groove; the rotary driving assembly comprises a bottom frame, a turnover cylinder arranged on the bottom frame and a rotary disc arranged on the turnover cylinder, and the rotary disc is connected with the positioning block and can drive the positioning block to rotate; the feeding assembly is used for feeding the workpiece to the positioning assembly, and the overturning assembly is used for overturning the positioning assembly so as to overturn the workpiece, so that the next working procedure can be conveniently processed; this scheme simple structure has improved machining efficiency, has reduced manufacturing cost.

Description

Rotary positioning mechanism

Technical Field

The utility model relates to the field of mechanical feeding equipment, in particular to a rotary positioning mechanism.

Background

The feeding device in the automatic processing and automatic assembly system of the vibration feeder is widely applied to various machines such as automatic assembly, automatic processing, automatic packaging and the like due to the excellent alignment, orientation performance, feeding efficiency and universality. In industrial production, for small workpieces, the small workpieces need to be fed by a vibrating machine, and the direction of the small workpieces needs to be changed after feeding so as to carry out the next step of work.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a rotary positioning mechanism, a feeding component and a turnover component are arranged together, the feeding component can feed a workpiece onto the turnover component, and then the turnover component fixedly overturns the workpiece, so that the workpiece meets the processing requirement.

The technical scheme adopted by the utility model is as follows: a rotary positioning mechanism comprises a feeding component, a positioning component connected to the discharging end of the feeding component, and a rotary driving component for driving the positioning component to rotate, wherein the positioning component is positioned between the feeding component and the rotary driving component; the positioning assembly comprises a positioning block, and the positioning block is provided with a positioning groove; the rotary driving assembly comprises a bottom frame, a turnover cylinder arranged on the bottom frame, and a rotary disc arranged on the turnover cylinder, wherein the rotary disc is connected with the positioning block and can drive the positioning block to rotate.

The positioning groove comprises a shallow positioning groove and a deep positioning groove, and the length of the shallow positioning groove is greater than the depth of the deep positioning groove.

The technical scheme is further improved in that the positioning block is provided with a suction hole and an air passage, the suction hole is communicated with the air passage, and the suction hole is arranged in the shallow positioning groove; the suction holes are arranged at intervals.

The technical scheme is further improved in that the positioning block is provided with an air tap, and the air tap is installed on the air passage.

The technical scheme is further improved in that the feeding assembly comprises a feeding machine connected with the bottom frame, a cover plate installed on the feeding machine and a fastening piece, and the cover plate is installed on the cover plate through the fastening piece.

The technical scheme is further improved in that the feeding machine is provided with a sensor, and the sensor and the positioning block are correspondingly arranged.

The technical scheme is further improved in that the feeding machine is provided with a feeding channel, the cover plate is located above the feeding channel, the cover plate is provided with a plurality of observation grooves arranged at intervals, and the observation grooves correspond to the feeding channel.

The technical scheme is further improved in that the feeding channel comprises a shallow feeding channel and a deep feeding channel communicated with the shallow feeding channel, and the width of the shallow feeding channel is larger than that of the deep feeding channel.

The technical scheme is further improved in that the fastener is provided with a screwing part, and the outer surface of the screwing part is provided with an anti-skidding groove.

The further improvement of the technical scheme is that the turnover air cylinder further comprises a photoelectric switch, and the photoelectric switch is installed on the turnover air cylinder.

The utility model has the following beneficial effects: in the scheme, the feeding assembly is used for feeding the workpiece to the positioning assembly, and the rotary driving assembly is used for overturning the positioning assembly, so that the workpiece is overturned, and the next process is convenient to process; this scheme simple structure has improved machining efficiency, has reduced manufacturing cost.

Drawings

FIG. 1 is a schematic view of the overall structure of the rotary positioning mechanism of the present invention;

FIG. 2 is a schematic view of a feed assembly of the rotational positioning mechanism of FIG. 1;

FIG. 3 is an enlarged schematic view at A in FIG. 2;

FIG. 4 is a schematic view of a rotary drive assembly of the rotary positioning mechanism of FIG. 1;

FIG. 5 is a schematic view of a positioning assembly of the rotational positioning mechanism of FIG. 4;

fig. 6 is a schematic view of the rotational positioning mechanism of fig. 5 at another angle.

Description of reference numerals: 10-feeding component, 11-feeding machine, 11 a-sensor, 12-cover plate, 12 a-observation groove, 13-fastener, 14-feeding channel, 14 a-shallow feeding channel, 14 b-deep feeding channel, 20-positioning component, 21-positioning block, 22-positioning groove, 22 a-shallow positioning groove, 22 b-deep positioning groove, 23-suction hole, 24-air passage, 25-air nozzle, 30-rotary driving component, 31-bottom frame, 32-turning cylinder, 33-rotary disk and 40-photoelectric switch.

Detailed Description

In order that the utility model may be more fully understood, reference will now be made to the following description. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

As shown in fig. 1 to 6, the present invention provides a rotary positioning mechanism, which includes a feeding assembly 10, a positioning assembly 20 connected to a discharging end of the feeding assembly 10, and a rotary driving assembly 30 for driving the positioning assembly 20 to rotate, wherein the positioning assembly 20 is located between the feeding assembly 10 and the rotary driving assembly 30; the feeding assembly 10 is used for feeding a workpiece to the positioning assembly 20, and the rotary driving assembly 30 is used for overturning the positioning assembly 20, so that the workpiece is overturned to facilitate the processing of the next procedure; this scheme simple structure has improved machining efficiency, has reduced manufacturing cost.

The feeding assembly 10 comprises a feeding machine 11 connected with the bottom frame 31, a cover plate 12 installed on the feeding machine 11, and a fastener 13, wherein the cover plate 12 is installed on the cover plate 12 through the fastener 13; the feeder 11 is provided with a sensor 11a, and the sensor 11a is arranged corresponding to the positioning block; the feeder 11 is provided with a feeding channel 14, the cover plate 12 is positioned above the feeding channel 14, the cover plate 12 is provided with a plurality of observation grooves 12a arranged at intervals, and the observation grooves 12a are arranged corresponding to the feeding channel 14; the feeding channel 14 comprises a shallow feeding channel 14a and a deep feeding channel 14b communicated with the shallow feeding channel 14a, and the width of the shallow feeding channel 14a is larger than that of the deep feeding channel 14 b; the fastener 13 has a driving portion (not shown) with an anti-slip groove (not shown) on the outer surface thereof.

The positioning component 20 comprises a positioning block, and the positioning block is provided with a positioning groove 22; the positioning grooves 22 comprise shallow positioning grooves 22a and deep positioning grooves 22b, and the length of the shallow positioning grooves 22a is greater than the depth of the deep positioning grooves 22 b; the positioning block is provided with a suction hole 23 and an air passage 24, the suction hole 23 is communicated with the air passage 24, and the suction hole 23 is arranged in a shallow positioning groove; the two suction holes 23 are arranged at intervals; the positioning block has an air nozzle 25, and the air nozzle 25 is mounted on the air passage 24.

The rotation driving assembly 30 includes a bottom frame 31, a flipping cylinder 32 installed on the bottom frame 31, and a rotation disc 33 installed on the flipping cylinder 32, wherein the rotation disc 33 is connected to the positioning block and can drive the positioning block to rotate.

The turnover cylinder is characterized by further comprising a photoelectric switch 40, wherein the photoelectric switch 40 is arranged on the turnover cylinder; the photoelectric switch 40 can receive the information sent by the sensor 11a to start the turnover cylinder 32 to work, so that the rotating disc 33 rotates, the positioning block 21 is turned over, the purpose of turning over the workpiece is achieved, and the next process is facilitated to process.

The working principle of the utility model is as follows: when the positioning device works, a workpiece enters the feeding channel 14 from the feeding hole of the feeding machine 11, the workpiece is conveyed to the discharging hole of the feeding machine 11 through the feeding channel 14 and then conveyed to the positioning groove 22 of the positioning block 21 through the discharging hole, at the moment, the workpiece is adsorbed in the positioning groove 22 by the operation of the air nozzle 25, and then the photoelectric switch 40 drives the overturning cylinder 32 to work, so that the positioning block 21 is overturned, the purpose of overturning the workpiece is achieved, and the next working procedure is convenient to process; this scheme simple structure has improved machining efficiency, has reduced manufacturing cost.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A rotary positioning mechanism is characterized by comprising a feeding component, a positioning component connected to the discharge end of the feeding component, and a rotary driving component for driving the positioning component to rotate, wherein the positioning component is positioned between the feeding component and the rotary driving component; the positioning assembly comprises a positioning block, and the positioning block is provided with a positioning groove; the rotary driving assembly comprises a bottom frame, a turnover cylinder arranged on the bottom frame, and a rotary disc arranged on the turnover cylinder, wherein the rotary disc is connected with the positioning block and can drive the positioning block to rotate.

2. The rotary positioning mechanism of claim 1 wherein the positioning slot comprises a shallow positioning slot and a deep positioning slot, the shallow positioning slot having a length greater than a depth of the deep positioning slot.

3. The rotary positioning mechanism as claimed in claim 2, wherein the positioning block is provided with a suction hole and an air passage, the suction hole is communicated with the air passage, and the suction hole is arranged in the shallow positioning groove; the suction holes are arranged at intervals.

4. The rotational positioning mechanism of claim 1, wherein the positioning block has an air tap, the air tap being mounted to the air passage.

5. The rotary positioning mechanism of claim 1 wherein the feed assembly includes a feeder connected to the base frame, a cover plate mounted to the feeder, and a fastener by which the cover plate is mounted to the cover plate.

6. The rotary positioning mechanism as claimed in claim 5, wherein the feeder is provided with a sensor, and the sensor is provided corresponding to the positioning block.

7. The rotary positioning mechanism as claimed in claim 5, wherein the feeder is provided with a feeding channel, the cover plate is located above the feeding channel, the cover plate is provided with a plurality of observation slots arranged at intervals, and the observation slots are arranged corresponding to the feeding channel.

8. The rotary positioning mechanism of claim 7 wherein the feed channel comprises a shallow feed channel and a deep feed channel in communication with the shallow feed channel, the shallow feed channel having a width greater than a width of the deep feed channel.

9. The rotational positioning mechanism of claim 5, wherein the fastener has a driving portion with an outer surface provided with anti-slip grooves.

10. The rotational positioning mechanism of claim 1, further comprising an opto-electronic switch mounted to the tumble cylinder.