CN214175875U - Multi-core-group capacitor strip bar cutting machine - Google Patents

Abstract

The utility model provides a multicore group condenser strip bar cutter, comprises an operation bench, transversely set up the spacing track in order to place the condenser strip on the operation panel, the slewing mechanism of setting on the operation panel, the interval sets up first eccentric wheel and the second eccentric wheel on slewing mechanism, the die-cut mechanism that the setting was moved a little about spacing track top and driven by the second eccentric wheel, the interval sets up in spacing track top and by two drive mechanism that the first eccentric wheel drove a little removal about, fixed interval sets up two stop gear in spacing track top, and supply the waste material passageway that the frame that is downcut passes through. The utility model discloses can cut the muscle to the condenser one by one continuously, can guarantee to cut the length unanimity of muscle back condenser pin to subsequent handling, and easy operation, the muscle cutting process need not artifical the participation.

Description

Multi-core-group capacitor strip bar cutting machine

Technical Field

The utility model relates to a multicore group condenser strip bar cutter.

Background

A multi-core module piezoelectric container product is composed of dozens of products, each product is connected with an appearance frame, at present, redundant frames are cut off at one time by using a simple cutter mechanism, the principle is mainly that a simple positioning jig and manual pressing are used for pressing, the length consistency of capacitor pins after rib cutting is poor, products and frame waste materials need to be manually separated after cutting, and automatic production cannot be achieved with a subsequent process.

SUMMERY OF THE UTILITY MODEL

The utility model aims at prior art not enough, provide a multicore group condenser strip bar cutter, can cut the muscle to the condenser one by one continuously, can guarantee to cut the length of muscle back condenser pin unanimous to subsequent handling, and easy operation, the bar cutting process need not artifical the participation.

The utility model discloses a following technical scheme realizes:

a multi-core group capacitor bar slitting machine comprises a frame and a plurality of capacitors arranged in the frame, wherein a plurality of positioning holes are formed in two sides of the frame at intervals, the multi-core group capacitor bar slitting machine comprises an operation table, a limiting rail transversely arranged on the operation table for placing capacitor bars, a rotating mechanism arranged on the operation table, a first eccentric wheel and a second eccentric wheel which are arranged on the rotating mechanism at intervals, a punching mechanism which is arranged above the limiting rail and driven by the second eccentric wheel to move up and down in a small range, two traction mechanisms which are arranged above the limiting rail at intervals and driven by the first eccentric wheel to move left and right in a small range, two limiting mechanisms fixedly arranged above the limiting rail at intervals, and a waste material channel for the cut frame to pass through, wherein each traction mechanism comprises a first sliding plate capable of moving left and right, a first transmission mechanism arranged between the first sliding plate and the first eccentric wheel, a first transmission mechanism arranged between the first sliding plate and the second eccentric wheel, The traction piece can be arranged at the front end of the first sliding plate in a vertically movable mode, the traction needle is arranged at the bottom of the traction piece, the first spring piece is arranged between the upper end of the traction piece and the first sliding plate, a first vertical face is arranged at the right end of the traction needle, a rightward first inclined face is arranged at the left end of the traction needle, the limiting mechanism comprises a first fixing plate arranged on an operation table, a limiting piece is arranged at the front end of the first fixing plate in a vertically movable mode, the limiting needle is arranged at the bottom of the limiting piece, and a second spring piece is arranged between the upper end of the limiting piece and the first fixing plate, a second vertical face is arranged at the right end of the limiting needle, a rightward second inclined face is arranged at the left end of the limiting needle, and the traction needle and the limiting needle can be inserted into or separated from the positioning holes.

Furthermore, the punching mechanism comprises a second sliding block which can be arranged on the operating platform in a vertically movable mode, a second transmission mechanism which is arranged between the second sliding block and the second eccentric wheel, a pressing block which is arranged at the bottom end of the front side of the second sliding block and can be pressed on the frame, an upper punching cutter which is arranged on the second sliding block, and a lower punching cutter which is arranged below the limiting track and matched with the upper punching cutter, wherein a first abdicating hole for the upper punching cutter to pass through is formed in the pressing block.

Furthermore, the first transmission mechanism comprises a first connecting rod, a second connecting rod and a third connecting rod, wherein the first connecting rod is arranged on the first eccentric wheel through a first bearing and is longitudinally and horizontally arranged, the second connecting rod is connected with the lower end of the first connecting rod and is horizontally arranged, the rear end of the third connecting rod is connected with the second connecting rod and is longitudinally and horizontally arranged, the front end of the third connecting rod is rotatably connected with the first sliding block, the joint of the second connecting rod and the third connecting rod is rotatably arranged on the operating table, and a first guide rod is transversely and horizontally arranged on the lower portion of the first sliding block.

Furthermore, the second transmission mechanism comprises a fourth connecting rod which is arranged on the second eccentric wheel through a second bearing and is inclined upwards, a fifth connecting rod which is connected with the fourth connecting rod and is inclined downwards, a sixth connecting rod of which the rear end is connected with the front end of the fifth connecting rod, a supporting block vertically arranged on the operating platform, a connecting part arranged on the second sliding block, and a second guide rod vertically arranged between the second sliding block and the operating platform, wherein the joint of the fifth connecting rod and the sixth connecting rod is rotatably arranged on the supporting block, and the front end of the sixth connecting rod is rotatably arranged on the connecting part.

Further, slewing mechanism is including setting up dwang, the driving motor of setting in the operation panel and the setting belt mechanism between dwang and driving motor in the operation panel top, first, second eccentric wheel interval sets up on the dwang.

Further, the operation panel includes first diaphragm and apron, the protection casing of setting on the apron of upper and lower interval arrangement, and the interval is provided with two risers on the first diaphragm, spacing track setting is between two riser tops, the second hole of stepping down that exposes spacing track, drive mechanism, die-cutting mechanism and actuating mechanism is seted up to the apron, the protection casing is used for sheltering from drive mechanism, die-cutting mechanism and actuating mechanism.

Further, the rib cutting machine further comprises two first fixed blocks arranged on the first transverse plate at intervals, a second fixed block arranged on the first transverse plate and located between the two first fixed blocks, and two sliding blocks arranged on the first transverse plate at intervals, wherein the sliding blocks are located between one first fixed block and one second fixed block, the sliding blocks are arranged between the first fixed block and the second fixed block adjacent to the sliding blocks, a connecting plate is arranged between the bottom of each first guide rod and the bottom of each second sliding block, and one end of each first transmission mechanism is arranged at the rear end of each sliding block.

Furthermore, the rib cutting machine is provided with two spacing tracks at intervals, the lower punching knife is connected between the two spacing tracks, the waste material channel comprises a waste material hole arranged on the lower punching knife, a negative pressure adsorption device arranged on the second fixing block and located between the two spacing tracks, and the through hole is communicated with the waste material hole.

Further, the limiting track comprises a groove and two limiting plates arranged on two sides of the groove, L-shaped grooves for placing the frame edges are formed in the inner sides of the two limiting plates, two convex strips are arranged in the groove at intervals for placing the frame, and the capacitor is placed in the groove between the two convex strips.

The utility model discloses following beneficial effect has:

1. when the utility model works, the first sliding plate can move a little left and right (the capacitor strip moves from left to right) under the drive of the first eccentric wheel, the capacitor strip is placed on the left side of the limit track, the traction needle is inserted into a positioning hole, at the moment, the first sliding plate moves rightwards, because the right end of the traction needle is provided with a first vertical surface, the capacitor strip is driven by the first sliding plate to move rightwards, when the first sliding plate starts to move leftwards, the limit needle is inserted into another positioning hole to fix the capacitor strip, because the left end of the traction needle is provided with a first inclined surface, the traction needle can be separated from the inserted positioning hole under the drive of the first sliding plate, when the traction needle is separated, the bottom of the traction needle is contacted with the frame, thereby the first spring plate is deformed, when the traction needle meets the positioning hole again, under the acting force of the first spring plate, the traction needle is inserted into the positioning hole, at the moment, the first sliding plate drives the capacitor strip to move forwards again, because the left end of the limiting needle is provided with the second inclined sheet, when the capacitor strip moves rightwards, the limiting needle can be separated from the inserted positioning hole; go up the die cutter and reciprocate under the driving motor effect, and all set up on slewing mechanism because of first eccentric wheel and second eccentric wheel, consequently, it is the same with condenser strip advancing speed to go up die cutter action speed, when first sliding plate backward movement, just in time one condenser removes to last die cutter below, and the condenser strip is fixed by the spacing needle, it can be sheared the frame to go up die cutter downstream and down the cooperation of die cutter this moment, thereby realize carrying out the bar cutting one by one to the condenser in succession, and can guarantee the length unanimity of bar cutting back condenser, so that follow-up process, and easy operation, the bar cutting process need not artifical the participation, and the work efficiency is improved, and the labor cost is reduced.

2. The utility model discloses a die-cut mechanism still includes the briquetting, and this briquetting can realize more firmly fixing the condenser strip through pressing on the frame to guarantee the precision of muscle of cutting.

3. Frame waste material that the condenser strip was downcut is by the waste hole suction under negative pressure adsorption equipment's effect, need not rethread manual work and sorts, further improves work efficiency.

4. The design of L type groove and sand grip in the spacing track can restrict the orbit of condenser strip, avoids it to deviate from in the spacing track to guarantee going on smoothly of muscle cutting work.

Drawings

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

Fig. 1 is a schematic structural view of the tendon cutting machine of the present invention.

Fig. 2 is the schematic structural diagram of the tendon cutting machine after the cover plate and the protective cover are removed.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic structural view of the first sliding plate and the traction plate of the present invention.

Fig. 5 is the structure diagram of the first fixing block, the second fixing block, the sliding block and the second fixing plate of the present invention.

Fig. 6 is a schematic structural view of the limiting rail and the capacitor bar of the present invention.

Fig. 7 is a schematic diagram of a structure of a capacitor bar.

Wherein, 1, capacitor bar; 11. a capacitor; 12. a frame; 13. positioning holes; 2. an operation table; 21. a first transverse plate; 22. a cover plate; 23. a protective cover; 24. a vertical plate; 31. a groove; 32. a limiting plate; 33. an L-shaped groove; 34. a convex strip; 4. a rotating mechanism; 41. rotating the rod; 42. a belt mechanism; 5. a punching mechanism; 51. a second eccentric wheel; 52. a second slider; 53. briquetting; 54. upward punching a cutter; 55. a lower punching cutter; 561. a fourth connecting rod; 562. a fifth connecting rod; 563. a sixth connecting rod; 564. a support block; 565. a connecting portion; 566. a second guide bar; 6. a traction mechanism; 61. a first eccentric wheel; 62. a first sliding plate; 63. a traction sheet; 64. a traction needle; 65. a first spring plate; 66. a first vertical face; 67. a first inclined surface; 681. a first connecting rod; 682. a second connecting rod; 69. a first guide bar; 7. a limiting mechanism; 71. a first fixing plate; 72. a limiting sheet; 74. a second spring plate; 81. a scrap hole; 91. a first fixed block; 92. a second fixed block; 93. a slider; 94. connecting plates; 95. a second fixing plate; 96. a track groove.

Detailed Description

As shown in fig. 1 to 7, the multi-core group capacitor strip 1 includes a frame 12 and a plurality of capacitors 11 disposed at intervals in the frame 12, a plurality of positioning holes 13 are disposed on both sides of the frame 12, and a rib cutter of the multi-core group capacitor strip 1 is used for cutting off both sides of the frame 12 to separate the capacitors 11. The rib cutting machine comprises an operation table 2, a limiting track transversely arranged on the operation table 2 and used for placing the capacitor bars 1, a rotating mechanism 4 arranged on the operation table 2, a first eccentric wheel 61 and a second eccentric wheel 51 which are arranged on the rotating mechanism 4 at intervals, a punching mechanism 5 which is arranged above the limiting track and driven by the first eccentric wheel 51 to move up and down in a small range, two traction mechanisms 6 which are arranged above the limiting track at intervals and driven by the second first eccentric wheel 61 to move left and right in a small range, two limiting mechanisms 7 which are arranged above the limiting track at fixed intervals, and a waste material channel which is arranged on the operation table 2 and used for the cut frames 12 to pass through.

The operation panel 2 includes first diaphragm 21 and apron 22, the protection casing 23 of setting on apron 22 of interval arrangement from top to bottom, and the interval is provided with two risers 24 on the first diaphragm 21, and spacing track setting is between two riser 24 tops, and apron 22 is seted up and is exposed spacing track, drive mechanism 6, die-cut mechanism 5 and actuating mechanism's second hole of stepping down, and the protection casing 23 is used for sheltering from drive mechanism 6, die-cut mechanism 5 and actuating mechanism. Two first fixed blocks 91, two second fixed blocks 92 and two sliding blocks 93 are arranged on the first transverse plate 21 at intervals, the second fixed block 92 is positioned between the two first fixed blocks 91, the sliding block 93 is positioned between one first fixed block 91 and the second fixed block 92, a connecting plate 94 is arranged between the bottoms of the two sliding blocks 93, and a first guide rod 69 which is transversely and horizontally arranged is arranged between the sliding block 93 and the adjacent first fixed block 91 and second fixed block 92.

The traction mechanism 6 comprises a first sliding plate 62 arranged on the top of a sliding block 93 in a left-right moving manner, a first transmission mechanism arranged between the rear end of the sliding block 93 and a first eccentric wheel 61, a traction sheet 63 arranged on the front end of the first sliding plate 62 in a vertical moving manner, a traction needle 64 arranged at the bottom of the traction sheet 63 and a first spring sheet 65 arranged between the upper end of the traction sheet 63 and the first sliding plate 62, wherein the right end of the traction needle 64 is provided with a first vertical surface 66, the left end of the traction needle is provided with a right first inclined surface 67, the first transmission mechanism comprises a first connecting rod 681 arranged on the first eccentric wheel 61 through a first bearing and longitudinally and horizontally arranged, a second connecting rod 682 connected with the lower end of the first connecting rod 681 and transversely and horizontally arranged, a third connecting rod connected with the second connecting rod 682 at the rear end and longitudinally and horizontally arranged, the front end of the third connecting rod is rotatably connected with the first sliding block, the joint of the second connecting rod 682 and the third connecting rod is rotatably disposed on the operating table 2, the pulling pin 64 can be inserted into the positioning hole 13 and drive the capacitor bar 1 to move rightward, and when the first sliding plate 62 moves leftward, the pulling pin 64 can be disengaged from the positioning hole 13 into which it is inserted. A connecting plate 94 is arranged between the bottoms of the two sliding blocks 93, so that the two sliding blocks 93 can move synchronously.

The limiting mechanism 7 comprises a first fixing plate 71 arranged on the first fixing block 91, a limiting sheet 72 arranged at the front end of the first fixing plate 71 in a vertically movable manner, a limiting needle arranged at the bottom of the limiting sheet 72 and a second spring sheet 74 arranged between the upper end of the limiting sheet 72 and the first fixing plate 71, wherein the right end of the limiting needle is provided with a second vertical surface, and the left end of the limiting needle is provided with a second inclined surface facing to the right.

The punching mechanism 5 comprises a second slide block 52 which is arranged on a second fixed block 92 in a vertically movable manner, a second transmission mechanism which is arranged between the second slide block 52 and a second eccentric wheel 51, a pressing block 53 which is arranged at the bottom end of the front side of the second slide block 52, an upper punching knife 54 which is arranged on the second slide block 52, and a lower punching knife 55 which is arranged below a limit track and matched with the upper punching knife 54, wherein a first abdicating hole for the upper punching knife 54 to pass through is arranged on the pressing block 53, an abdicating groove which is matched with the capacitor 11 in size is arranged at the bottom of the pressing block 53, so that the capacitor 11 is prevented from being damaged when the pressing block is pressed on the frame 12, the second transmission mechanism comprises a fourth connecting rod 561 which is arranged on the second eccentric wheel 51 in an upward inclined manner through a second bearing, a fifth connecting rod 562 which is arranged in a downward inclined manner and connected with the fourth connecting rod 561, a sixth connecting rod 563 of which is connected with the rear end of the fifth connecting rod 562, a first connecting rod 564 which is vertically arranged on a first transverse plate 21 of the operation table 2, A connecting portion 565 disposed on the second slider 52, a second guide rod 566 vertically disposed between the second slider 52 and the second fixed block 92, a connection portion of the fifth connecting rod 562 and the sixth connecting rod 563 being rotatably disposed on the support block 564, and a front end of the sixth connecting rod 563 being rotatably disposed on the connecting portion 565. The specific structure of the upper punch 54 and the lower punch 55 is the prior art.

The rotating mechanism 4 comprises a rotating rod 41 arranged above the first transverse plate 21 of the operating platform 2 at intervals, a driving motor arranged in the operating platform 2 and a belt mechanism 42 arranged between the rotating rod 41 and the driving motor, wherein a first eccentric wheel 61 and a second eccentric wheel 51 are arranged on the rotating rod 41 at intervals, and the belt mechanism 42 comprises a first belt pulley arranged at one end of the rotating rod 41, a second belt pulley arranged in the operating platform 2 and a belt arranged between the first belt pulley and the second belt pulley. In this embodiment, the driving motor is a servo motor.

In this embodiment, the two first fixing blocks 91 and the second fixing block 92 are connected together by a second fixing plate 95 at the front end, two rail grooves 96 extending horizontally are arranged at intervals at the upper end of the second fixing plate 95, two limiting rails are respectively placed in the two rail grooves 96, a lower punch 55 groove extending horizontally in the longitudinal direction is arranged between the two rail grooves 96, a through hole is arranged between the two rail grooves 96 on the lower punch 55 groove, a waste hole 81 communicating with the through hole is arranged on the lower punch 55, and a negative pressure adsorption device communicating with the waste hole 81 is further arranged outside the operating platform 2, and specifically, the negative pressure adsorption device is a negative pressure cleaner.

The limiting rail comprises a groove 31 and two limiting plates 32 arranged on two sides of the groove 31, L-shaped grooves 33 for placing the edges of the frame 12 are formed in the inner sides of the two limiting plates 32, two convex strips 34 are arranged in the groove 31 at intervals for placing the frame 12, and the capacitor 11 is placed in the groove 31 between the two convex strips 34.

The working method of the multi-core-group capacitor bar 1 rib cutting machine comprises the following steps:

A. placing the capacitor strip 1 on the left side of the limiting track;

B. when the driving motor works, the first sliding plate 62 can move left and right slightly under the driving of the first eccentric wheel 61, so that the traction pin 64 is inserted into a positioning hole 13, at the moment, the first sliding plate 62 moves right, the capacitor bar 1 is driven by the first sliding plate 62 to move right, when the first sliding plate 62 starts to move left, the limiting pin is inserted into another positioning hole 13 to fix the capacitor bar 1, and because the left end of the traction pin 64 is provided with the first inclined surface 67, the traction pin 64 can be pulled out from the positioning hole 13 into which the traction pin is inserted under the driving of the first sliding plate 62, when the traction pin 64 is pulled out, the bottom of the traction pin is contacted with the frame 12, so that the first spring plate 65 is deformed, when the traction pin 64 meets the positioning hole 13 again, under the action force of the first spring plate 65, the traction pin 64 is inserted into the positioning hole 13, at the moment, the first sliding plate 62 drives the capacitor bar 1 to move forward again, and the limit needle is released from the positioning hole 13 into which the limit needle is inserted;

C. the upper punching knife 54 moves up and down under the action of the motor, the action speed of the upper punching knife 54 is the same as the advancing speed of the capacitor strip 1, when the first sliding plate 62 moves leftwards, exactly one capacitor 11 moves to the position below the upper punching knife 54, the capacitor strip 1 is fixed by a limiting needle, at the moment, the upper punching knife 54 moves downwards to be matched with the lower punching knife 55 to cut the frame 12, and the cut waste materials of the frame 12 are removed from the waste material hole 81 by a negative pressure adsorption device.

The above description is only a preferred embodiment of the present invention, and therefore the scope of the present invention should not be limited thereby, and all equivalent changes and modifications made within the scope of the claims and the specification should be considered within the scope of the present invention.

Claims (9)

1. The utility model provides a multicore group capacitor strip bar cutter, the capacitor strip includes the frame and sets up a plurality of condensers in the frame, and the equal interval in frame both sides is provided with a plurality of locating holes, its characterized in that: comprises an operation table, a limit track transversely arranged on the operation table for placing a capacitor bar, a rotating mechanism arranged on the operation table, a first eccentric wheel and a second eccentric wheel which are arranged on the rotating mechanism at intervals, a punching mechanism which is arranged above the limit track and is driven by the second eccentric wheel to move up and down in a small way, two traction mechanisms which are arranged above the limit track at intervals and are driven by the first eccentric wheel to move left and right in a small way, two limit mechanisms which are arranged above the limit track at fixed intervals, and a waste material channel for the cut frame to pass through, wherein the traction mechanism comprises a first sliding plate which can move left and right, a first transmission mechanism arranged between the first sliding plate and the first eccentric wheel, a traction sheet which can be arranged at the front end of the first sliding plate in a vertical moving way, a traction needle arranged at the bottom of the traction sheet and a first spring sheet arranged between the upper end of the traction sheet and the first sliding plate, the right end of the traction needle is provided with a first vertical surface, the left end of the traction needle is provided with a rightward first inclined surface, the limiting mechanism comprises a first fixing plate arranged on an operation table, a limiting piece arranged at the front end of the first fixing plate in a vertically movable mode, a limiting needle arranged at the bottom of the limiting piece and a second spring piece arranged between the upper end of the limiting piece and the first fixing plate, the right end of the limiting needle is provided with a second vertical surface, the left end of the limiting needle is provided with a rightward second inclined surface, and the traction needle and the limiting needle can be inserted into or separated from the positioning holes.

2. The multi-core-group capacitor bar slitting machine as claimed in claim 1, wherein: the punching mechanism comprises a second sliding block which can be arranged on the operating platform in a vertically moving mode, a second transmission mechanism which is arranged between the second sliding block and a second eccentric wheel, a pressing block which is arranged at the bottom end of the front side of the second sliding block and can be pressed on the frame, an upper punching cutter which is arranged on the second sliding block, and a lower punching cutter which is arranged below the limiting track and matched with the upper punching cutter, wherein a first abdicating hole for the upper punching cutter to penetrate through is formed in the pressing block.

3. The multi-core-group capacitor bar slitting machine as claimed in claim 2, wherein: the first transmission mechanism comprises a first connecting rod, a second connecting rod and a third connecting rod, the first connecting rod is arranged on the first eccentric wheel through a first bearing and is longitudinally and horizontally arranged, the second connecting rod is connected with the lower end of the first connecting rod and is transversely and horizontally arranged, the third connecting rod is connected with the second connecting rod at the rear end and is longitudinally and horizontally arranged, the front end of the third connecting rod is rotatably connected with the first sliding block, the joint of the second connecting rod and the third connecting rod is rotatably arranged on the operating table, and a first guide rod is arranged on the lower portion of the first sliding block and is transversely and horizontally arranged.

4. The multi-core-group capacitor bar slitting machine as claimed in claim 2, wherein: the second transmission mechanism comprises a fourth connecting rod which is arranged on the second eccentric wheel through a second bearing and is arranged in an upward inclined mode, a fifth connecting rod which is connected with the fourth connecting rod and is arranged in a downward inclined mode, a sixth connecting rod of which the rear end is connected with the front end of the fifth connecting rod, a supporting block vertically arranged on the operating platform, a connecting portion arranged on the second sliding block, and a second guide rod vertically arranged between the second sliding block and the operating platform, wherein the connecting position of the fifth connecting rod and the sixth connecting rod is rotatably arranged on the supporting block, and the front end of the sixth connecting rod is rotatably arranged on the connecting portion.

5. The multi-core-group capacitor bar slitting machine as claimed in claim 1, 2, 3 or 4, wherein: the rotating mechanism comprises a rotating rod arranged above the operating platform, a driving motor arranged in the operating platform and a belt mechanism arranged between the rotating rod and the driving motor, and the first eccentric wheel and the second eccentric wheel are arranged on the rotating rod at intervals.

6. The multi-core-group capacitor bar slitting machine as claimed in claim 3, wherein: the operation panel includes first diaphragm and apron, the protection casing of setting on the apron of upper and lower interval arrangement, and the interval is provided with two risers on the first diaphragm, spacing track setting is between two riser tops, the second hole of stepping down that exposes spacing track, drive mechanism, die-cutting mechanism and actuating mechanism is seted up to the apron, the protection casing is used for sheltering from drive mechanism, die-cutting mechanism and actuating mechanism.

7. The multi-core-group capacitor bar slitting machine as claimed in claim 6, wherein: the rib cutting machine further comprises two first fixed blocks arranged on the first transverse plate at intervals, two sliding blocks arranged on the first transverse plate at intervals and located between the two first fixed blocks, and two sliding blocks arranged on the first transverse plate at intervals, wherein the sliding blocks are located between one first fixed block and the second fixed block, the sliding blocks are arranged between the first fixed block and the second fixed block adjacent to the sliding blocks, the first guide rod is arranged between the bottoms of the two sliding blocks, and one end of the first transmission mechanism is arranged at the rear end of each sliding block.

8. The multi-core-group capacitor bar slitting machine as claimed in claim 6, wherein: the rib cutting machine is provided with two spacing tracks at intervals, the lower punching knife is connected between the two spacing tracks, the waste material channel comprises a waste material hole arranged on the lower punching knife, a negative pressure adsorption device arranged on the second fixing block and located between the two spacing tracks, and a through hole and a waste material hole communicated with each other, and the through hole is communicated with the waste material hole.

9. The multi-core-group capacitor bar slitting machine as claimed in claim 1, 2, 3 or 4, wherein: the limiting track comprises a groove and two limiting plates arranged on two sides of the groove, L-shaped grooves for placing the frame edges are formed in the inner sides of the two limiting plates, two convex strips are arranged in the groove at intervals for placing the frame, and the capacitor is placed in the groove between the two convex strips.

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