CN210012249U

CN210012249U - Automatic feeding device for part machining

Info

Publication number: CN210012249U
Application number: CN201920239819.1U
Authority: CN
Inventors: 卢毅
Original assignee: Dongguan City Xin Yuan Electronic Technology Co Ltd
Current assignee: Dongguan City Xin Yuan Electronic Technology Co Ltd
Priority date: 2019-02-26
Filing date: 2019-02-26
Publication date: 2020-02-04
Anticipated expiration: 2029-02-26

Abstract

The utility model relates to the technical field of part feeding, in particular to an automatic feeding device for part processing, which comprises a frame, a conveying track arranged on the frame and used for conveying parts to be processed, a detection component arranged at the tail end of the conveying track and used for detecting the in-place position of the processed parts, a vibration component arranged below the conveying track and used for vibrating the parts to be processed for conveying, and a material taking component arranged on the frame and used for taking materials on the conveying track; the utility model discloses a contact response structure, it is higher to compare the tradition and detect the material loading precision, especially to the aspect of the parts machining, can be more accurate, gets the material precision higher, improves the machining precision greatly.

Description

Automatic feeding device for part machining

Technical Field

The utility model relates to a part material loading technical field especially relates to an automatic feed device for parts machining.

Background

In to the part batch process in the hardware processing trade, generally adopt artifical material loading, will treat the part of processing through the manual work and place the processing equipment in and realize parts machining, need the manual operation undoubtedly through artifical material loading, need put next part to the processing equipment after processing is accomplished again, this mode work efficiency is lower.

Compared with the traditional manual feeding, automatic feeding equipment for hardware processing parts is designed, automatic conveying and feeding are generally adopted, and then the hardware processing parts are grabbed and placed on the equipment through a manipulator for processing, so that the manual operation is saved; however, the existing feeding equipment has the defects that the part with lower precision requirement is well machined, and the induction precision is not enough in the feeding process, so that the feeding precision is not enough; if the optical fiber sensor is adopted, optical fiber detection is realized on the part in the part conveying process, a detection signal is transmitted to the robot through the optical fiber sensor to take the material, but the part is not in the original position after being transmitted to the position, and the position deviation can be directly caused during material discharging; in addition, adopt push type sensor, it is through the part transmission press to the sensor, realizes signal transmission, and its principle is the same with optical fiber sensor, can't realize accurate material of getting, leads to the not enough of material loading accuracy.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an adopt contact response structure, it is higher to compare the tradition and detect the material loading precision, especially to the aspect of the parts machining, can be more accurate, gets the material precision higher, improves the automatic feed device for the parts machining of machining precision greatly.

The utility model adopts the technical proposal that: the utility model provides an automatic feeding device for parts machining, includes the frame, sets up in the frame and is used for treating the delivery track that the part carried, sets up in the delivery track end and is used for detecting the detection subassembly that the processing part targets in place, sets up the vibration subassembly that is used for the vibration to treat the conveying of processing part in the delivery track below, sets up the material subassembly of getting that is used for getting the material in the frame on the delivery track.

The further improvement of the scheme is that the conveying track comprises a support frame and a guide rod arranged on the support frame, and the guide rod is at least provided with two conveying grooves.

The further improvement of the scheme is that the guide rod is arranged obliquely.

The technical scheme is further improved, the detection assembly is a conductive contact type detection sensor and comprises a receiver and an actuator, the receiver is connected with the material taking assembly, the actuator is connected with the receiver and the guide rod, and the processing part is conveyed to the actuator through the conveying track to transmit detection information to the material taking assembly through the receiver.

In a further improvement of the above solution, the actuator is provided as a conductive plate.

The further improvement of the scheme is that the vibration component is a vibrator which is arranged below the conveying track and connected with the rack.

The further improvement to the above scheme is that the material taking assembly is arranged as a manipulator and is electrically connected with the detection assembly.

The further improvement of the scheme is that the automatic feeding device further comprises a blanking guide rail, and the blanking guide rail is arranged on one side, located on the conveying track, of the rack.

The utility model has the advantages that:

the machine frame is arranged for integral supporting, so that the machine frame is convenient to mount and use, the conveying track is arranged for conveying the machined parts, specifically, the machined parts are placed on the conveying track and conveyed to the tail end of the conveying track, the transportation of the machined parts is completed, and the automation degree is high; the detection assembly is arranged at the tail end of the conveying track, and particularly when the machined part is conveyed to the detection assembly, instant detection is realized through the detection assembly, the material is conveniently taken and fed after detection, automatic material taking is realized, and the instant detection is adopted, so that the detection effect is better and the feeding precision is higher compared with that of a traditional sensor; the vibrating assembly is arranged below the conveying track, so that the conveying track can be vibrated and conveyed through the vibrating assembly, the automatic transportation of the processed parts is facilitated, the automatic conveying effect is good, and the labor is saved; snatch the material loading through getting the material subassembly to the processing part after through instant detection, realize full-automatic feeding, the material loading is effectual, and degree of automation is high.

Detection component adopts electrically conductive contact sensor, specifically includes and gets the receiver that the material subassembly links to each other, the actuator that links to each other, links to each other with the guide bar with the receiver simultaneously, the processing part carries the actuator through delivery track and will detect information and transmit to getting the material subassembly through the receiver, sets up the connection effect of receiver and actuator, realizes electrically conductive formula signal transmission, compares traditional detection sensor and detects the precision higher for the material loading is got the material precision and is higher, guarantees the part machining precision.

The utility model discloses in, adopt contact response structure, it is higher to compare the tradition and detect the material loading precision, especially to the aspect of the parts machining, can be more accurate, gets the material precision higher, improves the machining precision greatly.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic side view of the present invention;

fig. 3 is a schematic perspective view of another perspective of the present invention;

fig. 4 is a schematic structural view of the front view of the present invention.

Description of reference numerals: the feeding device 100, the frame 110, the conveying track 120, the support frame 121, the guide rod 122, the detection assembly 130, the receiver 131, the actuator 132, the vibration assembly 140, the material taking assembly 150 and the blanking guide rail 160.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 4, an automatic feeding device 100 for part processing includes a frame 110, a conveying rail 120 disposed on the frame 110 for conveying a part to be processed, a detecting assembly 130 disposed at the end of the conveying rail 120 for detecting the position of the part to be processed, a vibrating assembly 140 disposed below the conveying rail 120 for vibrating the part to be processed, and a material taking assembly 150 disposed on the frame 110 for taking a material on the conveying rail 120.

The conveying track 120 comprises a supporting frame 121 and a guide rod 122 arranged on the supporting frame 121, wherein the guide rod 122 is at least provided with two conveying grooves, the supporting frame 121 is used for mounting and supporting the guide rod 122, the conveying grooves formed by the guide rod 122 facilitate conveying of parts to be processed, conveying effect is good, and feeding precision is high.

Guide bar 122 sets up for the slope, adopts the slope to set up, through the gravity principle for the part of treating processing can be stably carried, carries effectually, can be steady carry the assigned position with the part, supplies to get material subassembly 150 and gets the material loading, and degree of automation is high.

Detection subassembly 130 adopts electrically conductive contact sensor, specifically includes the receiver 131 who links to each other with getting material subassembly 150, links to each other with receiver 131, the actuator 132 that links to each other with guide bar 122 simultaneously, the processing part carries actuator 132 through delivery track 120 and transmits the detection information to getting material subassembly 150 through receiver 131, sets up the connection effect of receiver 131 and actuator 132, realizes electrically conductive formula signal transmission, compares traditional detection sensor detection precision higher for the material loading is got the material precision and is higher, guarantees the part machining precision.

The touch actuator 132 is a conductive plate, can quickly realize the conductive contact induction effect, and can further improve the feeding precision and the processing precision.

The vibration assembly 140 is a vibrator, and is arranged below the conveying rail 120 and connected with the frame 110, and the vibrator is arranged, so that the vibration effect on the conveying rail 120 is improved, the conveying rail 120 can stably convey the processed parts, and the conveying effect is good.

Get material subassembly 150 and be the manipulator setting, it is connected with detection component 130 electricity, adopts the manipulator to get the material loading automatically, and degree of automation is high, and work efficiency is high, and the reliability is strong.

Still include unloading guide rail 160, unloading guide rail 160 installs in frame 110 and is located delivery track 120 one side, and after accomplishing automatic feeding processing promptly, can directly get the part material after the processing through the manipulator and place unloading guide rail 160 and go up, can improve work efficiency greatly.

The rack 110 is arranged for overall supporting, so that the installation and the use are convenient, the conveying track 120 is arranged for conveying the processed parts, specifically, the processed parts are placed on the conveying track 120 and conveyed to the tail end of the conveying track 120, the transportation of the processed parts is completed, and the automation degree is high; the detection assembly 130 is arranged at the tail end of the conveying track 120, and particularly when the machined part is conveyed to the position of the detection assembly 130, instant detection is realized through the detection assembly 130, the material is conveniently taken and fed after detection, automatic material taking is realized, and the instant detection is adopted, so that the detection effect is better and the feeding precision is higher compared with that of a traditional sensor; the vibration assembly 140 is arranged below the conveying track 120, and the vibration assembly 140 can perform a vibration conveying effect on the conveying track 120, so that automatic transportation of processed parts is facilitated, an automatic conveying effect is good, and manpower is saved; snatch the material loading through getting material subassembly 150 to the processing part after through instant detection, realize full-automatic feeding, the material loading is effectual, and degree of automation is high.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. The utility model provides an automatic feed device for parts machining which characterized in that: the automatic part feeding device comprises a rack, a conveying track arranged on the rack and used for conveying parts to be processed, a detection assembly arranged at the tail end of the conveying track and used for detecting the parts to be processed in place, a vibration assembly arranged below the conveying track and used for vibrating the parts to be processed, and a material taking assembly arranged on the rack and used for taking materials on the conveying track.

2. The automatic feeding device for parts processing according to claim 1, wherein: the conveying track comprises a support frame and a guide rod arranged on the support frame, and the guide rod is at least provided with two conveying grooves.

3. The automatic feeding device for parts processing according to claim 2, wherein: the guide rod is arranged obliquely.

4. The automatic feeding device for parts processing according to claim 3, wherein: the detection assembly is a conductive contact type detection sensor and comprises a receiver connected with the material taking assembly and a trigger connected with the receiver and the guide rod, and the processing part is conveyed to the trigger through the conveying track to transmit detection information to the material taking assembly through the receiver.

5. The automatic feeding device for parts processing according to claim 4, wherein: the actuator is arranged for the conductive plate.

6. The automatic feeding device for parts processing according to claim 1, wherein: the vibration component is arranged as a vibrator and is arranged below the conveying track and connected with the rack.

7. The automatic feeding device for parts processing according to claim 1, wherein: the material taking assembly is arranged as a manipulator and is electrically connected with the detection assembly.

8. The automatic feeding device for parts processing according to claim 1, wherein: the automatic feeding device is characterized by further comprising a discharging guide rail, wherein the discharging guide rail is arranged on one side, located on the conveying track, of the rack.