CN204235115U - The automatic machining device of copper connecting rod - Google Patents

The automatic machining device of copper connecting rod Download PDF

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Publication number
CN204235115U
CN204235115U CN201420626592.3U CN201420626592U CN204235115U CN 204235115 U CN204235115 U CN 204235115U CN 201420626592 U CN201420626592 U CN 201420626592U CN 204235115 U CN204235115 U CN 204235115U
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China
Prior art keywords
module
workpiece
station
milling
rotating disk
Prior art date
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CN201420626592.3U
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Chinese (zh)
Inventor
许方富
武建伟
王少剑
金丽丽
朱伟
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浙江大学台州研究院
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Priority to CN201420626592.3U priority Critical patent/CN204235115U/en
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Publication of CN204235115U publication Critical patent/CN204235115U/en

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Abstract

The utility model discloses a kind of automatic machining device of copper connecting rod, comprise frame, frame is provided with two rotating disk processing modules, move material flip module, milling module, move material module, sawing module, the arranged outside of frame has feeding module; Two rotating disk processing modules are set up in parallel; Move the side that material flip module is arranged at two rotating disk processing modules; The side of the second rotating disk processing module is set side by side with milling module and sawing module, moves material module installation in the side of milling module and sawing module.The integration of the process such as the utility model can realize workpiece feeding, screw thread process, lateral aperture milling, workpiece transfer turn around and automation, process is rigorous, machining accuracy is high, can waste of human resource be reduced, solve machining accuracy and the problem such as easily to make mistakes.

Description

The automatic machining device of copper connecting rod
Technical field
The utility model relates to a kind of process equipment of machine components, is specifically related to a kind of automatic machining device of copper connecting rod.
Background technology
As shown in Figure 1, copper connecting rod 100 is comprised stub end 100-1, little head end 100-2, stub end 100-1 and little head end 100-2 and is connected to one by connecting rod 100-3; The both sides of stub end 100-1 are formed with the end face 100-4 of thread mill drilling, and the both sides of little head end 100-2 are formed with the end face 100-5 of thread mill drilling; The front of stub end 100-1 and little head end 100-2 is formed with lateral aperture 100-6.
Copper connecting rod, as the main structural components of sewing machine, need to bear larger power, and the working time is longer during work, and the wearing and tearing of copper connecting rod are comparatively large, and be also the link that sewing machine often will be safeguarded, therefore the demand of market to copper connecting rod is larger.
At present, the main manufacturing procedure of copper connecting rod comprises four screwed holes at worked copper connecting rod two ends, milling two lateral apertures and sawed-off.The processing method of this copper connecting rod is generally realized, as manually realized workpiece feeding by artificial; Thread mill drilling, lateral aperture and sawed-off time, need manually workpiece to be installed; The transfer of workpiece between each station, turn around also to need to rely on manpower.Processing method due to this copper connecting rod needs many people to coordinate realization, and step is many and lengthy and tedious, therefore can cause serious waste of resources and efficiency is not high.
Summary of the invention
Technical problem to be solved in the utility model is to provide a kind of automatic machining device of copper connecting rod, and it can realize the automation of copper Machining of Connecting Rod.
For solving the problems of the technologies described above, the technical solution of the automatic machining device of the utility model copper connecting rod is:
Comprise frame 1, frame 1 is provided with two rotating disk processing modules 3,5, move material flip module 4, milling module 6, move material module 7, sawing module 8, the arranged outside of frame 1 has the feeding module 2 for automatic charging; Two rotating disk processing modules 3,5 are set up in parallel; Move the side that material flip module 4 is arranged at two rotating disk processing modules 3,5; The side of the second rotating disk processing module 5 is set side by side with milling module 6 and sawing module 8, moves the side that material module 7 is arranged at milling module 6 and sawing module 8; One end that workpiece is delivered to the first rotating disk processing module 3, first rotating disk processing module 3 pairs of workpiece by feeding module 2 carry out successively ream flat, bore aperture, bore macropore, tapping operation, completing first time holes tapping; Move material flip module 4 workpiece is carried out 180 degree of upsets and the other end delivering to the second rotating disk processing module 5, second rotating disk processing module 5 pairs of workpiece carry out successively ream flat, bore aperture, bore macropore, tapping operation, complete second time and to hole tapping; Move material flip module 4 and workpiece is delivered to milling module 6, milling module 6 mills out two lateral apertures of workpiece; Move material module 7 and workpiece is delivered to sawing module 8 from milling module 6, sawing module 8 realizes the sawing to workpiece.
The outlet of described feeding module 2 involving vibrations dish 2-1, Straight line unit 2-2, switching mechanism 2-3, the first grasping mechanism 2-4, vibrating disk 2-1 connects the entrance of Straight line unit 2-2, and the port of export of Straight line unit 2-2 arranges switching mechanism 2-3; The top of switching mechanism 2-3 is provided with the first grasping mechanism 2-4; Workpiece is delivered to switching mechanism 2-3 through Straight line unit 2-2 by vibrating disk 2-1, and workpiece rotates to plumbness from level by switching mechanism 2-3, and the workpiece of plumbness is flowed to the first rotating disk processing module 3 by the first grasping mechanism 2-4.
Described rotating disk processing module 3 comprises rotary disk 3-1, rotary disk 3-1 is fixedly installed six equally distributed fixture 3-2, forms feeding station, the flat station of ream, brill aperture station, bores macropore station, tapping station, discharging station; The outside of rotary disk 3-1 is fixedly installed the flat unit head 3-3 of ream, bores aperture unit head 3-4, bores macropore unit head 3-5, tapper unit 3-6, respectively the flat station of corresponding ream, brill aperture station, brill macropore station, tapping station; The flat unit head 3-3 of ream, brill aperture unit head 3-4, brill macropore unit head 3-5, tapper unit 3-6 are fixedly installed in frame 1, are not rotated with rotary disk 3-1.
Described material flip module 4 of moving comprises the second grasping mechanism 4-1, conveying track 4-2, switching mechanism 4-3, the 3rd grasping mechanism 4-4, the 4th grasping mechanism 4-5, second grasping mechanism 4-1, the 3rd grasping mechanism 4-4 are arranged at above the two ends of conveying track 4-2 respectively, conveying track 4-2 are provided with switching mechanism 4-3; 4th grasping mechanism 4-5 is arranged at the discharging station of the second rotating disk processing module 5.
The workpiece of plumbness is delivered to the feeding station of the first rotating disk processing module 3 by described first grasping mechanism 2-4, the fixture 3-2 of feeding station is by Workpiece clamping and locate, rotary disk 3-1 drives workpiece successively through the flat station of ream, brill aperture station, brill macropore station, tapping station in rotary course, complete a drilling and tapping operation, finally rotate the discharging station to the first rotating disk processing module 3, wait for that gripping is to next station; Second grasping mechanism 4-1 is from the discharging station gripping workpiece of the first rotating disk processing module 3 and be delivered to conveying track 4-2, and workpiece is delivered to output by conveying track 4-2, realizes the transport of workpiece between two rotating disk processing modules; Workpiece is carried out 180 degree of upsets by switching mechanism 4-3; Workpiece after 3rd grasping mechanism 4-4 gripping upset is also delivered to the feeding station of the second rotating disk processing module 5; The rotary disk 3-1 of the second rotating disk processing module 5 drives workpiece successively through the flat station of ream, brill aperture station, brill macropore station, tapping station in rotary course, completes secondary drilling screwing operation, finally rotates to discharging station; 4th grasping mechanism 4-5 is from the discharging station gripping workpiece of the second rotating disk processing module 5 and be delivered to milling module 6.
Described milling module 6 comprises slideway 6-1, feed mechanism 6-2, milling fixture 6-3, milling unit head 6-4, and the output of slideway 6-1 connects the entrance of feed mechanism 6-2, and the outlet of feed mechanism 6-2 is fixedly installed milling fixture 6-3, forms milling station; Milling station is provided with milling unit head 6-4.
Described sawing module 8 comprises sawing clamp 8-1, clamping feed mechanism 8-2, sawed-off mechanism 8-3, sawing clamp 8-1 connect clamping feed mechanism 8-2, and clamping feed mechanism 8-2 can drive sawing clamp 8-1 to move; The top of sawing clamp 8-1 is provided with sawed-off mechanism 8-3; The direction of motion of clamping feed mechanism 8-2 is perpendicular to the main-shaft axis direction of sawed-off mechanism 8-3.
Workpiece through twice drilling and tapping operation is delivered to the slideway 6-1 of milling module 6 by described 4th grasping mechanism 4-5, and workpiece is delivered to feed mechanism 6-2 by slideway 6-1, and makes workpiece become level from plumbness; The workpiece of level is pushed to milling station by feed mechanism 6-2, is clamped and locate by milling fixture 6-3, and carries out milling machine operation by milling unit head 6-4 to workpiece, completes the milling of two lateral apertures; Move and expect that sawing module 8 delivered to by the workpiece that milling completes by module 7; Move after the workpiece that milling completed of material module 7 delivers to sawing module 8, sawing clamp 8-1 is by Workpiece clamping and locate; Clamping feed mechanism 8-2 drives sawing clamp 8-1 to sawed-off mechanism 8-3 transverse shifting, realizes the sawing to workpiece.
The technique effect that the utility model can reach is:
The integration of the process such as the utility model can realize workpiece feeding, screw thread process, lateral aperture milling, workpiece transfer turn around and automation, process is rigorous, machining accuracy is high, can waste of human resource be reduced, solve machining accuracy and the problem such as easily to make mistakes.
Accompanying drawing explanation
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail:
Fig. 1 is the schematic diagram of copper connecting rod workpiece blank;
Fig. 2 is the schematic diagram of the automatic machining device of the utility model copper connecting rod;
Fig. 3 is the schematic diagram of feeding module of the present utility model;
Fig. 4 is the schematic diagram of the first rotating disk processing module of the present utility model;
Fig. 5 is the schematic diagram moving material flip module of the present utility model;
Fig. 6 is the schematic diagram of milling module of the present utility model;
Fig. 7 is the schematic diagram of sawing module of the present utility model.
Description of reference numerals in figure:
1 is frame, and 2 is feeding module,
3 is the first rotating disk processing module, and 4 for moving material flip module,
5 is the second rotating disk processing module, and 6 is milling module,
7 for moving material module, and 8 is sawing module,
2-1 is vibrating disk, and 2-2 is Straight line unit,
2-3 is switching mechanism, and 2-4 is the first grasping mechanism,
3-1 is rotary disk, and 3-2 is fixture,
3-3 is the flat unit head of ream, and 3-4 is brill aperture unit head,
3-5 is for boring macropore unit head, and 3-6 is tapper unit,
4-1 is the second grasping mechanism, and 4-2 is conveying track,
4-3 is switching mechanism, and 4-4 is the 3rd grasping mechanism,
4-5 is the 4th grasping mechanism,
6-1 is slideway, and 6-2 is feed mechanism,
6-3 is milling fixture, and 6-4 is milling unit head,
8-1 is sawing clamp, and 8-2 is clamping feed mechanism,
8-3 is sawed-off mechanism,
100 is copper connecting rod workpiece,
100-1 is stub end, and 100-2 is little head end,
100-3 is connecting rod, and 100-4 is stub end screwed hole,
100-5 is little head end screwed hole, and 100-6 is lateral aperture.
Detailed description of the invention
As shown in Figure 2, the automatic machining device of the utility model copper connecting rod, comprise frame 1, frame 1 is provided with the first rotating disk processing module 3, second rotating disk processing module 5, moves material flip module 4, milling module 6, moves material module 7, sawing module 8, the arranged outside of frame 1 has the feeding module 2 for automatic charging; First rotating disk processing module 3 and the second rotating disk processing module 5 are set up in parallel; Move the side that material flip module 4 is arranged at the first rotating disk processing module 3 and the second rotating disk processing module 5; The side of the second rotating disk processing module 5 is set side by side with milling module 6, sawing module 8, moves the side that material module 7 is arranged at milling module 6, sawing module 8;
As shown in Figure 3, the outlet of feeding module 2 involving vibrations dish 2-1, Straight line unit 2-2, switching mechanism 2-3, the first grasping mechanism 2-4, vibrating disk 2-1 connects the entrance of Straight line unit 2-2, and the port of export of Straight line unit 2-2 arranges switching mechanism 2-3; The top of switching mechanism 2-3 is provided with the first grasping mechanism 2-4; Workpiece is delivered to switching mechanism 2-3 through Straight line unit 2-2 by vibrating disk 2-1, and workpiece rotates to plumbness from level by switching mechanism 2-3, and the workpiece of plumbness is flowed to the first rotating disk processing module 3 by the first grasping mechanism 2-4;
As shown in Figure 4, the first rotating disk processing module 3 comprises rotary disk 3-1, rotary disk 3-1 is fixedly installed six equally distributed fixture 3-2, forms feeding station, the flat station of ream, brill aperture station, bores macropore station, tapping station, discharging station; The outside of rotary disk 3-1 is fixedly installed the flat unit head 3-3 of ream, bores aperture unit head 3-4, bores macropore unit head 3-5, tapper unit 3-6, respectively the flat station of corresponding ream, brill aperture station, brill macropore station, tapping station; The flat unit head 3-3 of ream, brill aperture unit head 3-4, brill macropore unit head 3-5, tapper unit 3-6 are fixedly installed in frame 1, are not rotated with rotary disk 3-1;
The workpiece of plumbness is delivered to the feeding station of the first rotating disk processing module 3 by the first grasping mechanism 2-4, the fixture 3-2 of feeding station is by Workpiece clamping and locate, rotary disk 3-1 drives workpiece successively through the flat station of ream, brill aperture station, brill macropore station, tapping station in rotary course, complete a drilling and tapping operation, finally rotate to discharging station, wait for that gripping is to next station;
First rotating disk processing module 3 is identical with the structure of the second rotating disk processing module 5;
As shown in Figure 5, move material flip module 4 and comprise the second grasping mechanism 4-1, conveying track 4-2, switching mechanism 4-3, the 3rd grasping mechanism 4-4, the 4th grasping mechanism 4-5, second grasping mechanism 4-1, the 3rd grasping mechanism 4-4 are arranged at above the two ends of conveying track 4-2 respectively, conveying track 4-2 are provided with switching mechanism 4-3; 4th grasping mechanism 4-5 is arranged at the discharging station of the second rotating disk processing module 5;
Second grasping mechanism 4-1 is from the discharging station gripping workpiece of the first rotating disk processing module 3 and be delivered to conveying track 4-2, and workpiece is delivered to output by conveying track 4-2, realizes the transport of workpiece between two rotating disk processing modules; Workpiece is carried out 180 degree of upsets by switching mechanism 4-3; Workpiece after 3rd grasping mechanism 4-4 gripping upset is also delivered to the feeding station of the second rotating disk processing module 5; The rotary disk 3-1 of the second rotating disk processing module 5 drives workpiece successively through the flat station of ream, brill aperture station, brill macropore station, tapping station in rotary course, completes secondary drilling screwing operation, finally rotates to discharging station; 4th grasping mechanism 4-5 is from the discharging station gripping workpiece of the second rotating disk processing module 5 and be delivered to milling module 6;
As shown in Figure 6, milling module 6 comprises slideway 6-1, feed mechanism 6-2, milling fixture 6-3, milling unit head 6-4, the output of slideway 6-1 connects the entrance of feed mechanism 6-2, and the outlet of feed mechanism 6-2 is fixedly installed milling fixture 6-3, forms milling station; Milling station is provided with milling unit head 6-4;
Workpiece through twice drilling and tapping operation is delivered to the slideway 6-1 of milling module 6 by the 4th grasping mechanism 4-5, and workpiece is delivered to feed mechanism 6-2 by slideway 6-1, and makes workpiece become level from plumbness; The workpiece of level is pushed to milling station by feed mechanism 6-2, is clamped and locate by milling fixture 6-3, and carries out milling machine operation by milling unit head 6-4 to workpiece, completes the milling of two lateral apertures; Move and expect that sawing module 8 delivered to by the workpiece that milling completes by module 7;
As shown in Figure 7, sawing module 8 comprises sawing clamp 8-1, clamping feed mechanism 8-2, sawed-off mechanism 8-3, sawing clamp 8-1 connect clamping feed mechanism 8-2, and clamping feed mechanism 8-2 can drive sawing clamp 8-1 to move; The top of sawing clamp 8-1 is provided with sawed-off mechanism 8-3; The direction of motion of clamping feed mechanism 8-2 is perpendicular to the main-shaft axis direction of sawed-off mechanism 8-3;
Move after the workpiece that milling completed of material module 7 delivers to sawing module 8, sawing clamp 8-1 is by Workpiece clamping and locate; Clamping feed mechanism 8-2 drives sawing clamp 8-1 to sawed-off mechanism 8-3 transverse shifting, realizes the sawing to workpiece.
Operation principle of the present utility model is as follows:
The vibrating disk 2-1 of feeding module 2 by the copper connecting rod workpiece blank 100 horizontal self-emptying successively in it, then is delivered to switching mechanism 2-3 by Straight line unit 2-2, and workpiece rotates to plumbness from level by switching mechanism 2-3; First grasping mechanism 2-4 grabbing workpiece delivers to the first rotating disk processing module 3;
One end of first rotating disk processing module, 3 pairs of workpiece is carried out ream successively and is put down, bores aperture, brill macropore, tapping operation, completes tapping of holing for the first time;
Move material flip module 4 workpiece is carried out 180 degree of upsets and the other end delivering to the second rotating disk processing module 5, second rotating disk processing module 5 pairs of workpiece carry out successively ream flat, bore aperture, bore macropore, tapping operation, complete second time and to hole tapping;
Then, move material flip module 4 and workpiece is delivered to milling module 6, milling module 6 mills out two lateral apertures of workpiece;
Move material module 7 and workpiece delivered to sawing module 8 from milling module 6, with perpendicular to screwed hole direction, respectively along large centerline hole by sawed-off for workpiece one-tenth three smallclothes.

Claims (8)

1. the automatic machining device of a copper connecting rod, it is characterized in that: comprise frame (1), frame (1) is provided with two rotating disk processing modules (3,5), move material flip module (4), milling module (6), move material module (7), sawing module (8), the arranged outside of frame (1) has the feeding module (2) for automatic charging; Two rotating disk processing modules (3,5) are set up in parallel; Move the side that material flip module (4) is arranged at two rotating disk processing modules (3,5); The side of the second rotating disk processing module (5) is set side by side with milling module (6) and sawing module (8), moves the side that material module (7) is arranged at milling module (6) and sawing module (8);
Workpiece is delivered to the first rotating disk processing module (3) by feeding module (2), and the first rotating disk processing module (3) carries out ream successively to one end of workpiece and puts down, bores aperture, brill macropore, tapping operation, completes tapping of holing for the first time; Move material flip module (4) workpiece is carried out 180 degree of upsets and delivers to the second rotating disk processing module (5), second rotating disk processing module (5) carries out ream successively to the other end of workpiece and puts down, bores aperture, brill macropore, tapping operation, completes tapping of holing for the second time; Move material flip module (4) and workpiece is delivered to milling module (6), milling module (6) mills out two lateral apertures of workpiece; Move material module (7) and workpiece is delivered to sawing module (8) from milling module (6), sawing module (8) realizes the sawing to workpiece.
2. the automatic machining device of copper connecting rod according to claim 1, it is characterized in that: described feeding module (2) involving vibrations dish (2-1), Straight line unit (2-2), switching mechanism (2-3), the first grasping mechanism (2-4), the outlet of vibrating disk (2-1) connects the entrance of Straight line unit (2-2), and the port of export of Straight line unit 2-2 arranges switching mechanism (2-3); The top of switching mechanism (2-3) is provided with the first grasping mechanism (2-4); Workpiece is delivered to switching mechanism (2-3) through Straight line unit (2-2) by vibrating disk (2-1), workpiece rotates to plumbness from level by switching mechanism (2-3), and the workpiece of plumbness is flowed to the first rotating disk processing module (3) by the first grasping mechanism (2-4).
3. the automatic machining device of copper connecting rod according to claim 1, it is characterized in that: described rotating disk processing module (3) comprises rotary disk (3-1), rotary disk (3-1) is fixedly installed six equally distributed fixtures (3-2), forms feeding station, the flat station of ream, brill aperture station, bore macropore station, tapping station, discharging station; The outside of rotary disk (3-1) is fixedly installed the flat unit head of ream (3-3), bores aperture unit head (3-4), bores macropore unit head (3-5), tapper unit (3-6), respectively the flat station of corresponding ream, brill aperture station, brill macropore station, tapping station; The flat unit head of ream (3-3), brill aperture unit head (3-4), brill macropore unit head (3-5), tapper unit (3-6) are fixedly installed in frame (1), are not rotated with rotary disk (3-1).
4. the automatic machining device of copper connecting rod according to claim 1, it is characterized in that: described in move material flip module (4) comprise the second grasping mechanism (4-1), conveying track (4-2), switching mechanism (4-3), the 3rd grasping mechanism (4-4), the 4th grasping mechanism (4-5), second grasping mechanism (4-1), the 3rd grasping mechanism (4-4) are arranged at above the two ends of conveying track (4-2) respectively, conveying track (4-2) are provided with switching mechanism (4-3); 4th grasping mechanism (4-5) is arranged at the discharging station of the second rotating disk processing module (5).
5. the automatic machining device of copper connecting rod according to claim 2, it is characterized in that: the workpiece of plumbness is delivered to the feeding station of the first rotating disk processing module (3) by described first grasping mechanism (2-4), the fixture (3-2) of feeding station is by Workpiece clamping and locate, rotary disk (3-1) drives workpiece successively through the flat station of ream, brill aperture station, brill macropore station, tapping station in rotary course, complete a drilling and tapping operation, finally rotate the discharging station to the first rotating disk processing module (3), wait for that gripping is to next station;
Second grasping mechanism (4-1) is from the discharging station gripping workpiece of the first rotating disk processing module (3) and be delivered to conveying track (4-2), and workpiece is delivered to output by conveying track (4-2), realizes the transport of workpiece between two rotating disk processing modules; Workpiece is carried out 180 degree of upsets by switching mechanism (4-3); Workpiece after 3rd grasping mechanism (4-4) gripping upset is also delivered to the feeding station of the second rotating disk processing module (5); The rotary disk (3-1) of the second rotating disk processing module (5) drives workpiece successively through the flat station of ream, brill aperture station, brill macropore station, tapping station in rotary course, completes secondary drilling screwing operation, finally rotates to discharging station; 4th grasping mechanism (4-5) is from the discharging station gripping workpiece of the second rotating disk processing module (5) and be delivered to milling module (6).
6. the automatic machining device of copper connecting rod according to claim 1, it is characterized in that: described milling module (6) comprises slideway (6-1), feed mechanism (6-2), milling fixture (6-3), milling unit head (6-4), the output of slideway (6-1) connects the entrance of feed mechanism (6-2), the outlet of feed mechanism (6-2) is fixedly installed milling fixture (6-3), forms milling station; Milling station is provided with milling unit head (6-4).
7. the automatic machining device of the copper connecting rod according to claim 1 or 6, it is characterized in that: described sawing module (8) comprises sawing clamp (8-1), clamping feed mechanism (8-2), sawed-off mechanism (8-3), sawing clamp (8-1) connects clamping feed mechanism (8-2), and clamping feed mechanism (8-2) can drive sawing clamp (8-1) to move; The top of sawing clamp (8-1) is provided with sawed-off mechanism (8-3); The direction of motion of clamping feed mechanism (8-2) is perpendicular to the main-shaft axis direction of sawed-off mechanism (8-3).
8. the automatic machining device of copper connecting rod according to claim 4, it is characterized in that: the workpiece through twice drilling and tapping operation is delivered to the slideway (6-1) of milling module (6) by described 4th grasping mechanism (4-5), workpiece is delivered to feed mechanism (6-2) by slideway (6-1), and makes workpiece become level from plumbness; The workpiece of level is pushed to milling station by feed mechanism (6-2), is clamped by milling fixture (6-3) and is located, and carries out milling machine operation by milling unit head (6-4) to workpiece, completes the milling of two lateral apertures; Move and expect that sawing module (8) delivered to by the workpiece that milling completes by module 7;
Move after material module (7) workpiece that milling completed delivers to sawing module (8), sawing clamp (8-1) is by Workpiece clamping and locate; Clamping feed mechanism (8-2) drives sawing clamp (8-1) to sawed-off mechanism (8-3) transverse shifting, realizes the sawing to workpiece.
CN201420626592.3U 2014-10-28 2014-10-28 The automatic machining device of copper connecting rod CN204235115U (en)

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Application Number Priority Date Filing Date Title
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Application Number Priority Date Filing Date Title
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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104759657A (en) * 2015-04-30 2015-07-08 鹏驰五金制品有限公司 Rotary drilling machine
CN104858659A (en) * 2015-05-22 2015-08-26 浙江大学台州研究院 Automatic machining device for curved needle crank of sewing machine and machining method of automatic machining device
CN105563126A (en) * 2016-02-29 2016-05-11 芜湖瑞和机电有限公司 Continuous workpiece drilling/tapping apparatus
CN105689824A (en) * 2016-03-29 2016-06-22 徐海慧 Double-faced processing equipment used for nuts
CN108687519A (en) * 2018-05-23 2018-10-23 夏文才 A kind of crankshaft-link rod automatic processing device
CN110434398A (en) * 2019-07-31 2019-11-12 滨州亚泰雅德动力配件有限公司 The long blank sawing machine of piston ring carrier and sawed-off method
CN110828200A (en) * 2019-10-12 2020-02-21 武汉纺织大学 Double-core capacitor core package grouping system
CN111745401A (en) * 2020-07-12 2020-10-09 吴功城 Automatic thread machining and end face punching equipment for valve rod nut

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104759657A (en) * 2015-04-30 2015-07-08 鹏驰五金制品有限公司 Rotary drilling machine
CN104759657B (en) * 2015-04-30 2017-04-05 鹏驰五金制品有限公司 A kind of rotary drill
CN104858659B (en) * 2015-05-22 2017-10-20 浙江大学台州研究院 The automatic machining device and its processing method of sewing machine curved needle crank
CN104858659A (en) * 2015-05-22 2015-08-26 浙江大学台州研究院 Automatic machining device for curved needle crank of sewing machine and machining method of automatic machining device
CN105563126A (en) * 2016-02-29 2016-05-11 芜湖瑞和机电有限公司 Continuous workpiece drilling/tapping apparatus
CN105563126B (en) * 2016-02-29 2018-05-15 芜湖瑞和机电有限公司 A kind of continuous type Workpiece boring threading apparatus
CN105689824B (en) * 2016-03-29 2017-11-21 新昌县羽林街道维新机械厂 One kind is used for the two-sided process equipment of nut
CN105689824A (en) * 2016-03-29 2016-06-22 徐海慧 Double-faced processing equipment used for nuts
CN108687519A (en) * 2018-05-23 2018-10-23 夏文才 A kind of crankshaft-link rod automatic processing device
CN108687519B (en) * 2018-05-23 2020-08-18 重庆朋尔机械制造有限公司 Automatic processing equipment for crankshaft connecting rod
CN110434398A (en) * 2019-07-31 2019-11-12 滨州亚泰雅德动力配件有限公司 The long blank sawing machine of piston ring carrier and sawed-off method
CN110828200A (en) * 2019-10-12 2020-02-21 武汉纺织大学 Double-core capacitor core package grouping system
CN110828200B (en) * 2019-10-12 2020-07-10 武汉纺织大学 Double-core capacitor core package grouping system
CN111745401A (en) * 2020-07-12 2020-10-09 吴功城 Automatic thread machining and end face punching equipment for valve rod nut

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