CN210413485U - Automatic production equipment for copper bar processing - Google Patents

Automatic production equipment for copper bar processing Download PDF

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Publication number
CN210413485U
CN210413485U CN201921488362.4U CN201921488362U CN210413485U CN 210413485 U CN210413485 U CN 210413485U CN 201921488362 U CN201921488362 U CN 201921488362U CN 210413485 U CN210413485 U CN 210413485U
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China
Prior art keywords
copper bar
clamping
processing
bar processing
piece
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CN201921488362.4U
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Chinese (zh)
Inventor
秦万全
郑进宇
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Yueqing Hengtong Electric Co ltd
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Yueqing Hengtong Electric Co ltd
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Priority to CN201921488362.4U priority Critical patent/CN210413485U/en
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Publication of CN210413485U publication Critical patent/CN210413485U/en
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Abstract

The utility model relates to an automatic production equipment for copper bar processing, which comprises an automatic feeding device for copper bar raw materials, a plurality of copper bar processing and clamping mechanisms, a copper bar processing mechanism, a copper bar processing and transporting track and a closing mechanism, wherein a plurality of processing stations are arranged on the copper bar processing and transporting track, the copper bar processing mechanism comprises a transverse punching device, a longitudinal punching device, a three-side chamfering mechanism assembly and a tapping device, the transverse punching device, the longitudinal punching device, the three-side chamfering mechanism assembly and the tapping device are sequentially distributed beside the copper bar processing and transporting track, the transverse punching device, the longitudinal punching device, the three-side chamfering mechanism assembly, the tapping device and the closing mechanism are sequentially processed on the processing stations, the utility model has the advantages of realizing the automatic production of punching, chamfering, tapping and cutting of copper bar raw materials, and avoiding the position deviation of the copper bar raw materials in the feeding process in the production process, the processing precision and the yields of copper bar have effectually been guaranteed.

Description

Automatic production equipment for copper bar processing
Technical Field
The utility model relates to a copper bar processing automation equipment.
Background
The copper bars are also called copper busbars or copper busbars and play a role in conveying current and connecting electrical equipment in a circuit. In the production process of copper bar, need place the cutting machine with the copper product raw materials earlier on, cut the copper product again and punch, later carry out the screw installation to the copper spare that handles. The existing manufacturers mostly adopt manpower to produce, and copper material raw materials are manually filled by workers to carry out cutting, punching, chamfering and tapping, but the production mode is low in efficiency and high in labor intensity of the workers. In order to improve production efficiency, need carry out automated transformation to the production of copper bar, and will realize automated production, the problem that must consider is exactly how to punch, polish the copper bar raw materials to the problem that does not appear offset or position is improper in the realization copper bar raw materials feeding.
Disclosure of Invention
The utility model aims to overcome prior art's defect, provide a realize copper bar raw materials automated processing, work efficiency height, processing accurate copper bar processing automated production equipment.
In order to realize above purpose, the utility model discloses a such copper bar processing automation equipment, its characterized in that: the automatic copper bar production equipment comprises an automatic copper bar raw material feeding device, a plurality of copper bar processing and clamping mechanisms, a copper bar processing mechanism, a copper bar processing and transporting track and a final-stage mechanism, wherein a plurality of processing stations are arranged on the copper bar processing and transporting track, the copper bar processing mechanism comprises a transverse punching device, a longitudinal punching device, a three-side chamfering mechanism assembly and a tapping device, the transverse punching device, the longitudinal punching device, the three-side chamfering mechanism assembly and the tapping device are sequentially distributed beside the copper bar processing and transporting track, the automatic copper bar raw material feeding device is positioned on one side of the copper bar processing and transporting track, the automatic copper bar raw material feeding device and the copper bar processing and transporting track perform transverse feeding, the copper bar processing and clamping mechanisms are arranged on the copper bar processing and transporting track, the automatic copper bar raw material feeding device, the copper bar processing and clamping, and along with the transportation of copper bar processing transportation track, horizontal perforating device, vertical perforating device, trilateral chamfer mechanism assembly, chasing bar, ending mechanism process on the processing station in proper order.
Foretell copper bar processing automation production equipment can realize punching, chamfer, tapping, the automated production of cutting of copper bar raw materials, and can avoid the copper bar raw materials offset that appears at the pay-off in-process in process of production, the effectual machining precision and the yields of guaranteeing the copper bar.
Particularly, the automatic copper bar raw material feeding device comprises a mounting base, clamping frames arranged at two ends of the mounting base, a limiting frame arranged on the mounting base, a plurality of intercepting connecting rod assemblies arranged on the mounting base, a clamping frame and a limiting frame, and a feeding assembly which is arranged between the limiting frame and is matched with the pushing assembly and used for conveying raw materials, wherein the feeding assembly comprises a transmission device and a raw material clamping device matched with the transmission device, the transmission device comprises a frame plate, a first transverse power source, a ball screw matched with the first transverse power source and a guide rail assembly arranged in parallel with the ball screw, the guide rail assembly comprises a support plate, a guide rail and a sliding block, a first mounting hole fixedly connected with the ball screw and a second mounting hole used for mounting the sliding block are arranged on the support plate, and the sliding block is in sliding connection with the guide rail, the raw material clamping device is vertically arranged on the supporting plate and comprises a first vertical power source, a sensing piece and an installation frame, the first vertical power source is vertically arranged on the installation frame in the longitudinal direction, the sensing piece is arranged on one side, close to the supporting frame, of the installation frame, and the installation frame is fixedly connected with the supporting plate; the material pushing assembly and the raw material clamping device are respectively positioned on two sides of the mounting base and are arranged correspondingly to each other, and the material pushing assembly and the raw material clamping device are matched in feeding.
Foretell copper bar raw materials automatic feeding sets up the pay-off subassembly on the mount pad, when the response piece on raw materials clamping device listened and did not have the raw materials on the raw materials clamping device, the material pushing component that pushes away on the mount pad can automatic start, the copper product raw materials of placing in spacing frame vertically promotes, be used for intercepting link assembly simultaneously and can start to change the flat with the interception piece, avoid producing the hindrance to the removal of copper product raw materials, when raw materials clamping device starts the copper product raw materials of centre gripping, transmission opens automatically, it carries out the displacement to drive raw materials clamping device, realize transporting the copper product raw materials, thereby human cost has been reduced, can realize the automation of copper product raw materials simultaneously and transport, be favorable to improving the production efficiency of copper bar.
Particularly, the mounting bracket comprises a first mounting part fixedly connected with the support plate and a second mounting part located at the top end of the first mounting part, a first vertical power source is arranged on the second mounting part, a raw material limiting groove is formed in one side, close to the ball screw, of the first mounting part, a clamping groove which is communicated from top to bottom is formed in the center of the mounting bracket, the clamping groove and the raw material limiting groove are in a vertical relation, and the first vertical power source pushes the push rod to perform reciprocating motion in the vertical direction in the clamping groove. When pushing away the material subassembly and pushing away the copper spare raw materials to the raw materials spacing inslot, first perpendicular power supply promotes the push rod and pushes down at the centre gripping inslot, thereby make the copper spare raw materials fixed at the spacing inslot, transmission drives raw materials clamping device simultaneously and carries out lateral shifting, and then drive the copper product raw materials and remove, when the maximum distance of removing transmission, the push rod return, transmission drives raw materials clamping device return, the removal of copper product raw materials is realized in the promotion through the cylinder, and pay-off through transmission, holistic simple structure, the cooperation is convenient and pay-off is efficient.
Particularly, the intercepting link assembly comprises a fixed plate, a second transverse power source arranged on the fixed plate, an intercepting block connecting rod connected with the second transverse power source, a rotating shaft connected with the intercepting block connecting rod, and an intercepting block located at the other end of the rotating shaft, wherein the second transverse power source reciprocates left and right to drive the intercepting block connecting rod to move, so that the rotating shaft rotates to drive the intercepting block to move. When the second transverse power source acts, the blocking block connecting rod is pushed to do curvilinear motion around the rotating shaft, so that the blocking block is driven to do curvilinear motion, the height of the blocking block is lower than that of the mounting base, and normal feeding of copper materials is achieved. Through the arrangement of the intercepting connecting rod assembly, when the material pushing assembly is in misoperation, redundant copper materials can be effectively intercepted from entering the position of the raw materials in feeding, and unnecessary accident loss is prevented.
Particularly, the copper bar processing material clamping mechanism comprises a shell with an accommodating cavity, a first longitudinal power source arranged outside the shell, a lever mechanism linked with the first longitudinal power source and a mounting plate for fixing the shell, wherein the lever mechanism is arranged in the accommodating cavity, a clamping port is formed in the shell, the lever mechanism comprises a lever piece, a sliding piece and a clamping piece, a lever groove is formed in the clamping piece, a rotating shaft is arranged on the lever piece, the lever piece is fixed in the accommodating cavity through the rotating shaft, the lever piece comprises a linkage part connected with the first longitudinal power source and a pushing part arranged in the lever groove, the linkage part enables the lever piece to do arc motion along the rotating shaft under the pushing of the first longitudinal power source, the pushing part does arc motion in the lever groove to push the clamping piece to move backwards, the sliding piece is positioned below the clamping piece, and the sliding piece moves forwards under the driving of the lever piece, and then the sliding part and the clamping part form clamping fit at the clamping opening, return grooves are formed in the sliding part and the clamping part, and return springs are arranged in the return grooves.
When the copper bar processing and clamping mechanism is in a clamping state, the first longitudinal power source pushes the linkage part of the lever piece to enable the linkage part to do arc motion by taking the rotating shaft as the center, so that the pushing part at the other end of the rotating shaft performs reverse arc motion in the lever groove to drive the clamping piece to perform rear side movement, meanwhile, the lever piece pushes the sliding piece to move forwards in the action process, the sliding piece and the clamping piece form clamping fit, when the piston rod of the cylinder returns, the return springs on the sliding part and the clamping part are released from the compressed state, the sliding part is pushed to the rear side, the clamping part is pushed, the sliding part and the clamping part are released from clamping and matching, realize fixed to the centre gripping of copper product raw materials through setting up lever mechanism, overall structure is simple, and the stability of centre gripping can be guaranteed to slider and clamping piece mutually supporting, guarantees that the copper product raw materials skew does not appear at the in-process of transmission.
Particularly, a guiding cambered surface is arranged at the position, close to the sliding piece, of the lever piece, a guiding cambered surface matched with the guiding cambered surface is arranged on the sliding piece, and the guiding cambered surface form sliding fit. Through the cooperation of guide cambered surface and guide position cambered surface, make the displacement of the drive slider that the lever spare can be faster to promote the copper bar processing and press from both sides the reliability of material mechanism.
Particularly, trilateral chamfer mechanism assembly includes first chamfer device, second chamfer device and third chamfer device, first, second chamfer device uses copper bar processing transportation track to set up in copper bar processing transportation orbital both sides relatively as the central line, and the vertical setting of third chamfer device is in copper bar processing transportation orbital top, and first chamfer device, second chamfer device and third chamfer device constitute the chamfer cooperation. This trilateral chamfer mechanism assembly can once only carry out the chamfer process simultaneously to the three hole site of copper bar to promote the efficiency of copper bar production.
Specially, ending mechanism includes that it leads a device, ejection of compact slide, cutting mechanism and copper bar processing clamp material mechanism to form pay-off complex copper bar with copper bar processing transportation track, cutting mechanism includes cutting machine, the vertical power supply of second, cutting machine slide rail device, and the cutting machine is vertical reciprocating motion along cutting machine slide rail device under the drive of the vertical power supply of second, and cutting mechanism sets up the opposite side of leading a device at the copper bar, and ejection of compact slide sets up in cutting mechanism's below, and copper bar processing clamp material mechanism leads a device with the copper bar and constitutes the spacing fixed coordination to the copper bar.
Foretell ending mechanism drives the cutting machine through the vertical power supply of second and carries out longitudinal movement on cutting machine slide rail device and realize the cutting to the copper bar, can carry out the cutting of the copper bar of different specifications according to the demand, and copper bar guide device forms spacing fixed coordination with copper bar processing clamping mechanism simultaneously, makes the copper bar not appear rocking at the in-process of cutting, guarantees the machining precision of copper bar, and the copper bar after the cutting is via the ejection of compact slide ejection of compact.
Drawings
Fig. 1 is a front view of the automatic production equipment for processing copper bars in the embodiment of the present invention;
fig. 2 is a perspective view of the automatic production equipment for processing copper bars in the embodiment of the present invention;
fig. 3 is a front view of the automatic feeding device for copper bar raw materials in the embodiment of the present invention;
fig. 4 is a rear view of the automatic feeding device for copper bar raw materials in the embodiment of the present invention;
fig. 5 is a left side view of the automatic feeding device for copper bar raw materials in the embodiment of the present invention;
fig. 6 is a perspective view of the automatic feeding device for copper bar raw materials in the embodiment of the present invention.
Fig. 7 is a perspective view of a feeding assembly according to an embodiment of the present invention;
FIG. 8 is a perspective view of an intercepting link assembly in accordance with an embodiment of the present invention;
FIG. 9 is a perspective view of a mounting rack according to an embodiment of the present invention
Fig. 10 is a front view of the material clamping mechanism for copper bar processing in the embodiment of the present invention;
fig. 11 is a perspective view of the material clamping mechanism for copper bar processing in the embodiment of the present invention;
fig. 12 is a structural section view of the material clamping mechanism for copper bar processing in the embodiment of the present invention;
FIG. 13 is a front view of a lever member according to an embodiment of the present invention;
fig. 14 is a schematic view of the lever mechanism of the embodiment of the present invention connected to the cylinder;
fig. 15 is a perspective view of a three-sided chamfering mechanism assembly according to an embodiment of the present invention;
fig. 16 is a perspective view of a closing mechanism according to an embodiment of the present invention.
Detailed Description
As shown in fig. 1-2, an automatic production facility for copper bar processing comprises an automatic copper bar raw material feeding device a, a plurality of copper bar processing and clamping mechanisms B, a copper bar processing mechanism C, a copper bar processing and transporting track D and a final finishing mechanism E, wherein the copper bar processing and transporting track D is provided with a plurality of processing stations, the copper bar processing mechanism C comprises a transverse punching device C1, a longitudinal punching device C2, a three-side chamfering mechanism assembly C3 and a tapping device C4, the transverse punching device C1, the longitudinal punching device C2, the three-side chamfering mechanism assembly C3 and the tapping device C4, which are sequentially distributed beside the copper bar processing and transporting track D, the automatic copper bar raw material feeding device a is positioned at one side of the copper bar processing and transporting track D, the automatic copper bar raw material feeding device a and the copper bar processing and transporting track D perform transverse feeding, the copper bar processing and clamping mechanisms B are arranged on the copper bar processing, copper bar raw materials automatic feeding A, copper bar processing material clamping mechanism B, copper bar processing transportation track D form the pay-off cooperation, and along with copper bar processing transportation track D's transportation, horizontal perforating device C1, vertical perforating device C2, trilateral chamfer mechanism assembly C3, chasing bar C4, ending mechanism E process on the processing station in proper order
As shown in fig. 3-9, the automatic copper bar raw material feeding device a includes a mounting base a1, clamping frames a2 disposed at two ends of a mounting base a1, a limiting frame A3 disposed on the mounting base a1, a plurality of intercepting link assemblies a4 disposed on the mounting base a1, the clamping frames a2 and the limiting frame A3, a pushing assembly a5 disposed between the limiting frame A3 and the limiting frame A3, and a feeding assembly A6 engaged with the pushing assembly a5 for conveying raw materials, the feeding assembly A6 includes a transmission device a61 and a raw material clamping device a62 engaged with the transmission device a61, the transmission device a61 includes a frame plate a611, a first transverse power source a612, a ball screw a613 engaged with the first transverse power source a612, a guide rail assembly a614 disposed in parallel with the ball screw a613, the guide rail assembly a614 includes a615, a616, and a617, the support plate a is provided with a 61613 for forming a mounting hole 6151 for fixedly connecting with the ball screw a615 and a mounting hole a 51 for mounting a mounting hole a 52 for mounting a The sliding block A617 is in sliding connection with the guide rail A616, the raw material clamping device A62 is vertically arranged on the support plate A615, the raw material clamping device A62 comprises a first vertical power source A621, a sensing piece A622 and a mounting frame A623, the first vertical power source A621 is vertically and longitudinally arranged on the mounting frame A623, the sensing piece A622 is arranged on one side, close to the support frame A615, of the mounting frame A623, and the mounting frame A623 is fixedly connected with the support plate A615; the pushing assembly A5 and the raw material clamping device A62 are respectively arranged on two sides of the mounting base A1 and correspond to each other, and the pushing assembly A5 and the raw material clamping device A62 form feeding matching.
Particularly, the mounting frame A623 comprises a first mounting part A6231 fixedly connected with the supporting plate A615 and a second mounting part A6232 positioned at the top end of the first mounting part A6231, a first vertical power source A621 is arranged on the second mounting part A6232, a raw material limiting groove A6233 is arranged on one side, close to the ball screw A613, of the first mounting part A6231, a clamping groove A6234 penetrating from top to bottom is arranged in the center of the mounting frame A623, the clamping groove A6234 is perpendicular to the raw material limiting groove A6233, and the first vertical power source A621 pushes the push rod to reciprocate in the clamping groove A6234 in the vertical direction.
Specifically, the intercepting link assembly a4 includes a fixing plate a41, a second transverse power source a42 mounted on the fixing plate a41, an intercepting block link a43 connected to the second transverse power source a42, a rotating shaft a44 connected to the intercepting block link a43, and an intercepting block a45 located at the other end of the rotating shaft a44, and the second transverse power source a42 performs a transverse reciprocating motion to drive the intercepting block link a43 to move, so that the rotating shaft a44 rotates to drive the intercepting block a45 to move.
As shown in fig. 10-14, the copper bar processing material clamping mechanism B includes a housing B1 with a receiving cavity, a first longitudinal power source B2 disposed outside the housing B1, a lever mechanism B3 linked with the first longitudinal power source B2, and a mounting plate B4 for fixing the housing B1, the lever mechanism B3 is disposed in the receiving cavity, a clamping opening B11 is disposed on the housing B1, the lever mechanism B3 includes a lever member B31, a sliding member B32, and a clamping member B33, a lever slot B34 is disposed on the clamping member B33, a rotating shaft B35 is disposed on the lever member B31, the lever member B31 is fixed in the receiving cavity by a rotating shaft B35, the lever member B31 includes a linking portion B311 connected with the first longitudinal power source B2 and a pushing portion B312 disposed in the lever slot B34, the linking portion B311 is pushed by the first longitudinal power source B2 to make the lever member B31 move along the rotating shaft B35 and push the lever portion B34 to move in an arc to move the lever slot B33, the sliding piece B32 is located below the clamping piece B33, the sliding piece B32 moves forward under the driving of the lever piece B31, the sliding piece B32 and the clamping piece B33 form clamping fit at a clamping opening B11, return grooves B36 are formed in the sliding piece B32 and the clamping piece B33, and return springs B37 are arranged in the return grooves B36.
In particular, the lever member B31 is provided with a guiding arc B313 near the slider B32, the slider B32 is provided with a guiding arc B321 matched with the guiding arc B313, and the guiding arc B313 and the guiding arc B321 form a sliding fit.
As shown in fig. 15, the three-side chamfering mechanism assembly C3 includes a first chamfering device C31, a second chamfering device C32 and a third chamfering device C33, the first chamfering device C31, the second chamfering device C32 are disposed on two sides of the copper bar processing and transporting track D relatively by using the copper bar processing and transporting track D as a central line, the third chamfering device C33 is disposed above the copper bar processing and transporting track D vertically, and the first chamfering device C31, the second chamfering device C32 and the third chamfering device C33 form a chamfer fit.
As shown in fig. 16, the ending mechanism E includes a copper bar guiding device E1, a discharging sliding plate E2, a cutting mechanism E3 and a copper bar processing material clamping mechanism B, which are matched with the copper bar processing and transporting track D for feeding, the cutting mechanism E3 includes a cutting machine E31, a second longitudinal power source E32 and a cutting machine sliding rail device E33, the cutting machine E31 is driven by the second longitudinal power source E32 to reciprocate longitudinally along the cutting machine sliding rail device E32, the cutting mechanism E3 is disposed on the other side of the copper bar guiding device E1, the discharging sliding plate E2 is disposed below the cutting mechanism E3, and the copper bar processing material clamping mechanism B and the copper bar guiding device E1 form a limiting and fixed fit for the copper bar.

Claims (8)

1. The utility model provides a copper bar processing automated production equipment which characterized in that: the automatic copper bar production equipment comprises an automatic copper bar raw material feeding device, a plurality of copper bar processing and clamping mechanisms, a copper bar processing mechanism, a copper bar processing and transporting track and a final-stage mechanism, wherein a plurality of processing stations are arranged on the copper bar processing and transporting track, the copper bar processing mechanism comprises a transverse punching device, a longitudinal punching device, a three-side chamfering mechanism assembly and a tapping device, the transverse punching device, the longitudinal punching device, the three-side chamfering mechanism assembly and the tapping device are sequentially distributed beside the copper bar processing and transporting track, the automatic copper bar raw material feeding device is positioned on one side of the copper bar processing and transporting track, the automatic copper bar raw material feeding device and the copper bar processing and transporting track perform transverse feeding, the copper bar processing and clamping mechanisms are arranged on the copper bar processing and transporting track, the automatic copper bar raw material feeding device, the copper bar processing and clamping, and along with the transportation of copper bar processing transportation track, horizontal perforating device, vertical perforating device, trilateral chamfer mechanism assembly, chasing bar, ending mechanism process on the processing station in proper order.
2. The automatic production equipment for processing copper bars as claimed in claim 1, which is characterized in that: the copper bar raw material automatic feeding device comprises a mounting base, clamping frames arranged at two ends of the mounting base, limiting frames arranged on the mounting base, a plurality of intercepting connecting rod assemblies arranged on the mounting base, material pushing assemblies respectively arranged between the clamping frames and the limiting frames, and feeding assemblies matched with the material pushing assemblies and used for conveying raw materials, wherein each feeding assembly comprises a transmission device and a raw material clamping device matched with the transmission device, the transmission device comprises a frame plate, a first transverse power source, a ball screw matched with the first transverse power source, and a guide rail assembly arranged in parallel with the ball screw, each guide rail assembly comprises a support plate, a guide rail and a sliding block, a first mounting hole fixedly connected with the ball screw and a second mounting hole used for mounting the ball screw are arranged on the support plate, and the sliding block is in sliding connection with the guide rail, the raw material clamping device is vertically arranged on the supporting plate and comprises a first vertical power source, a sensing piece and an installation frame, the first vertical power source is vertically arranged on the installation frame in the longitudinal direction, the sensing piece is arranged on one side, close to the supporting frame, of the installation frame, and the installation frame is fixedly connected with the supporting plate; the material pushing assembly and the raw material clamping device are respectively positioned on two sides of the mounting base and are arranged correspondingly to each other, and the material pushing assembly and the raw material clamping device are matched in feeding.
3. The automatic production equipment for processing copper bars as claimed in claim 2, wherein: the mounting bracket comprises a first mounting part fixedly connected with the supporting plate and a second mounting part located at the top end of the first mounting part, a first vertical power source is arranged on the second mounting part, a raw material limiting groove is formed in one side, close to the ball screw, of the first mounting part, a clamping groove which is communicated from top to bottom is formed in the center of the mounting bracket, the clamping groove and the raw material limiting groove are in a vertical relation, and the first vertical power source pushes the push rod to perform reciprocating motion in the vertical direction in the clamping groove.
4. The automatic production equipment for processing copper bars as claimed in claim 2, wherein: the intercepting connecting rod assembly comprises a fixing plate, a second transverse direction power source arranged on the fixing plate, an intercepting block connecting rod connected with the second transverse direction power source, a rotating shaft connected with the intercepting block connecting rod and an intercepting block located at the other end of the rotating shaft, and the second transverse direction power source performs transverse reciprocating action to drive the intercepting block connecting rod to move, so that the rotating shaft rotates to drive the intercepting block to act.
5. The automatic production equipment for processing copper bars as claimed in claim 1, which is characterized in that: the copper bar processing material clamping mechanism comprises a shell with an accommodating cavity, a first longitudinal power source arranged outside the shell, a lever mechanism linked with the first longitudinal power source and a mounting plate for fixing the shell, wherein the lever mechanism is arranged in the accommodating cavity, a clamping opening is formed in the shell, the lever mechanism comprises a lever piece, a sliding piece and a clamping piece, a lever groove is formed in the clamping piece, a rotating shaft is arranged on the lever piece, the lever piece is fixed in the accommodating cavity through the rotating shaft, the lever piece comprises a linkage part connected with the first longitudinal power source and a pushing part arranged in the lever groove, the linkage part enables the lever piece to do arc motion along the rotating shaft under the pushing of the first longitudinal power source, the pushing part does arc motion in the lever groove to push the clamping piece to move backwards, the sliding piece is positioned below the clamping piece, and the sliding piece moves forwards under the driving of the lever piece, and then the sliding part and the clamping part form clamping fit at the clamping opening, return grooves are formed in the sliding part and the clamping part, and return springs are arranged in the return grooves.
6. The automatic production equipment for processing copper bars as claimed in claim 5, wherein: the lever piece is provided with a guide cambered surface at a position close to the sliding piece, the sliding piece is provided with a guide cambered surface matched with the guide cambered surface, and the guide cambered surface form sliding fit.
7. The automatic production equipment for processing copper bars as claimed in claim 1, which is characterized in that: trilateral chamfer mechanism assembly includes first chamfer device, second chamfer device and third chamfer device, first, second chamfer device uses copper bar processing transportation track to set up in copper bar processing transportation orbital both sides relatively as the central line, and the vertical setting of third chamfer device is in copper bar processing transportation orbital top, and first chamfer device, second chamfer device and third chamfer device constitute the chamfer cooperation.
8. The automatic production equipment for processing copper bars as claimed in claim 1, which is characterized in that: ending mechanism includes and leads a device, ejection of compact slide, cutting mechanism and copper bar processing clamping mechanism with copper bar processing transportation track formation pay-off complex copper bar, cutting mechanism includes cutting machine, the vertical power supply of second, cutting machine slide rail device, and the cutting machine is vertical reciprocating motion along cutting machine slide rail device under the drive of the vertical power supply of second, and cutting mechanism sets up the opposite side of leading a device at the copper bar, and ejection of compact slide sets up in cutting mechanism's below, and copper bar processing clamping mechanism leads a device with the copper bar and constitutes the spacing fixed coordination to the copper bar.
CN201921488362.4U 2019-09-07 2019-09-07 Automatic production equipment for copper bar processing Active CN210413485U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921488362.4U CN210413485U (en) 2019-09-07 2019-09-07 Automatic production equipment for copper bar processing

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921488362.4U CN210413485U (en) 2019-09-07 2019-09-07 Automatic production equipment for copper bar processing

Publications (1)

Publication Number Publication Date
CN210413485U true CN210413485U (en) 2020-04-28

Family

ID=70366440

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201921488362.4U Active CN210413485U (en) 2019-09-07 2019-09-07 Automatic production equipment for copper bar processing

Country Status (1)

Country Link
CN (1) CN210413485U (en)

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