CN209029256U - A kind of disk is energized machine structure - Google Patents

Abstract

It energizes machine structure the utility model discloses a kind of disk, fuse pushing material component includes motor, the first cam, oscillating rod, sliding rack, the rotation of first cam is installed in board and be sequentially connected motor and oscillating rod, oscillating rod swing is installed in board and be sequentially connected sliding rack and the first cam, and sliding rack, which slides back and forth, to be installed in board and slide between initial position and release location；When sliding rack is located at initial position, the corresponding transmission end of tape of sliding rack, the capacitor core positioned at transmission end of tape is moved on sliding rack；When sliding rack is located at release location, sliding rack corresponds to clamping jaw, and clamping jaw clamps the capacitor core on sliding rack.Since the first cam and divider, the second cam are sequentially connected same motor, the revolving speed of motor is many fastly compared with the transmission speed of cylinder, disk machine structure of energizing is enabled to carry out test of energizing to 80 or more capacitor cores in one minute, it greatly increases the production efficiency, production cost is reduced, profit margin is greatly improved.

Description

A kind of disk is energized machine structure

Technical field

It energizes machine structure the utility model relates to a kind of disk.

Background technique

Existing disc type is energized machine, capacitor core is transmitted to from vibration bucket the transmission mechanism energized in test fixture with And the transmission mechanism for driving movable disk to move up and down is cylinder-driven structure, when needing certain waiting due to cylinder-driven Between, the capacitor core quantity for the test that causes to carry out energizing in one minute is only 30-40, and production efficiency is low, high production cost.

Utility model content

The utility model provides a kind of disk and energizes machine structure, and which overcome the existing deficiencies of background technique.This The used technical solution that utility model solves its technical problem is:

A kind of disk is energized machine structure, it is characterised in that: it includes board, feeding machanism, feeding mechanism and test of energizing Mechanism, in which:

For providing capacitor core and capacitor core can be made laterally disposed, it is installed in board and has feed feeding machanism Channel；

The capacitor core that feeding mechanism is used to provide feeding machanism is delivered to mechanism for testing of energizing, it includes transmission band portion Point and fuse pushing material component, conveyer belt head end corresponds to feeder channel, end is matched with fuse pushing material component；Fuse pushing material component Including motor, the first cam, oscillating rod, sliding rack, motor is installed in board and the first cam of transmission connection, the rotation of the first cam It is installed in board and transmission connection oscillating rod, oscillating rod swing is installed in board and be sequentially connected sliding rack and the first cam, sliding Moving frame, which slides back and forth, is installed in board, and sliding rack slides between initial position and release location；

Mechanism for testing of energizing is provided with clamping jaw；

When sliding rack is located at initial position, the corresponding transmission end of tape of sliding rack, the capacitor core positioned at transmission end of tape is moved It moves to sliding rack；When sliding rack is located at release location, sliding rack corresponds to clamping jaw, and clamping jaw clamps the capacitor core on sliding rack.

Among one preferred embodiment: fuse pushing material component further includes compression bar, and compression bar is up and down to be mounted on sliding rack and energy The synchronizing moving with the movement of sliding rack, when sliding rack is located at initial position, compression bar moves down and is resisted against capacitance core On son；Compression bar, which moves up, during sliding rack is reset to initial position from release location is resetted.

Among one preferred embodiment: board is provided with support frame, and support frame is fixed with the fixed block with inclined surface；It is sliding Moving frame rotation is provided with rotating bar, and compression bar is fixedly connected with rotating bar one end, and rotating bar the other end is provided with the first idler wheel, separately Equipped with elastic component, elastic component both ends are connected with rotating bar one end and sliding rack respectively, when sliding rack is moved to from initial position The first idler wheel is along inclined surface upward sliding until the first idler wheel leaves inclined surface so that rotating bar one end during release location It is rotated down under elastic component effect and then compression bar is driven to move down；When sliding rack is reset to initial position from release location The first idler wheel is along inclined surface slide downward so that rotating bar one end is rotated up and then compression bar is driven to move up in the process.

Among one preferred embodiment: fuse pushing material component further includes gear frame and driver plate, and gear frame one end is provided with One transmission shaft, the gear frame other end are fixedly connected with oscillating rod；First flank of cam offers the first eccentric grove, the first transmission shaft It protrudes into the first eccentric grove, the rotation of the first cam drives the first transmission shaft to be moved forward and backward and then drives oscillating rod swing；It passes Movable plate is L shape, short side section and oscillating rod top Joint, long side section and sliding rack Joint.

Among one preferred embodiment: mechanism for testing of energizing includes divider, turntable, movable disk, the second cam, and divider turns It is dynamic to be installed in board and be located at below turntable, divider transmission connection motor；Turntable rotation is installed in board and transmission connection point Cutter, turntable top surface are fixedly installed bottom contact rod；Clamping jaw activity is installed in turntable and it is equipped with and is connected with bottom contact rod The conductive copper sheet connect；Second cam drive connects motor, and movable disk is up and down to be installed in board and the second cam of transmission connection, Movable disk bottom surface is fixedly installed top contact rod；When turntable stops operating, sliding rack is located at release location, and movable disk is It is moved down under the effect of two cams so that top contact rod is in contact with bottom contact rod and then conductive copper sheet is connected to electricity Hold fuse and carries out test of energizing；During turntable rotates a station, sliding rack is reset to initial position, and movable disk is second It is moved up under cam effect so that top contact rod mutually separates with bottom contact rod and then powers off conductive copper sheet with capacitance core Son enters next station.

Among one preferred embodiment: mechanism for testing of energizing further includes drive rod, and drive rod bottom end is provided with second driving shaft, Second cam offers the second eccentric grove, and second driving shaft protrudes into the second eccentric grove；Divider offers through hole, drive rod Top passes through through hole and stretches out divider, drive rod top and movable disk Joint.

Among one preferred embodiment: bottom contact rod is equipped with 24 groups and annular space is arranged, every group of bottom contact rod has 2 A bottom contact rod and 2 bottom contact rod internal and external partition arrangements；Top contact rod is equipped with 24 groups and annular space is arranged, and every group Top contact rod has 2 top contact rods and 2 top contact rod internal and external partition arrangements；Clamping jaw number be equipped with 24 and along Turntable peripheral annular arranged for interval, there are two clamp arm positioned opposite, the opposite face of two clamp arm is provided with each clamping jaw tool Conductive copper sheet, two conductive copper sheets of each clamping jaw are connected with two bottom contact rods of every group of bottom contact rod respectively.

The technical program compared with the background art, it has the following advantages:

1. since fuse pushing material component uses cam drive structure, since the first cam and divider, the second cam pass The dynamic same motor of connection, the revolving speed of motor is many fastly compared with the transmission speed of cylinder, and a kind of disk machine structure of energizing is existed Test of energizing is carried out to 80 or more capacitor cores in one minute, while this apparatus control system uses " PLC technology Device+touch screen ", good man machine operation interface, greatly increases the production efficiency, and reduces production cost, greatly improves benefit Moisten space.

2. being provided with compression bar, when sliding rack is located at initial position, compression bar is moved down and is resisted against on capacitor core, energy Capacitor core is limited in the axial direction, prevents capacitor core from falling from sliding rack in sliding rack sliding process.

3. it is moved up and down by the mating band dynamic pressure bar of the first idler wheel and inclined surface, so that the stability of compression bar is more preferable, it can By property height.

4. mechanism for testing of energizing is moved up and down by the second cam driven movable disk, production efficiency is further increased, is reduced Production cost；Meanwhile second cam, divider and the first cam are sequentially connected same motor, not only economize on resources, and can contract Small board size reduces occupied space.

5. divider offers through hole, drive rod top passes through through hole and stretches out divider, so that test machine of energizing Structure structure is more compact, reduces the volume for mechanism for testing of energizing.

Detailed description of the invention

The utility model is described in further detail with reference to the accompanying drawings and examples.

Fig. 1 depicts a kind of disc type of a preferred embodiment and energizes the overall schematic of machine structure.

Fig. 2 depicts a kind of disc type of a preferred embodiment and energizes the schematic top plan view of machine structure.

Fig. 3 depicts the structural schematic diagram of the vibration bucket of a preferred embodiment.

Fig. 4 depicts the partial structurtes enlarged drawing of Fig. 3.

Fig. 5 depicts the structural schematic diagram of transmission band part.

Fig. 6 depicts the schematic perspective view of fuse pushing material component.

Fig. 7 depicts the schematic side view of fuse pushing material component.

Fig. 8 depicts the part isometric structural schematic diagram for mechanism for testing of energizing.

Fig. 9 depicts the schematic side view that mechanism for testing of energizing omits clamping jaw.

Figure 10 depicts the A-A section view schematic cross-sectional view of Fig. 9.

Figure 11 depicts the structural schematic diagram of clamping jaw.

Specific embodiment

Please refer to Fig. 1 to Figure 11, a kind of disk is energized a preferred embodiment of machine structure, and a kind of disk is energized machine Structure, it includes board 100, feeding machanism 200, feeding mechanism and mechanism for testing 300 of energizing, mechanism for testing 300 of energizing setting There is clamping jaw 310.10 top and bottom of capacitor core are sprayed with bronze that can be conductive.

For feeding machanism 200 for providing capacitor core 10 and capacitor core 10 can be made laterally disposed, it is installed in board 100 And there is feeder channel 210.

In the present embodiment, feeding machanism 200 is using vibration barrel structure, as shown in figure 3, there are two lids for the setting of vibration bucket top Plate 220 opens cover board 220 when needing to feed, and keeps closing to 300 feeder process cover plate 220 of mechanism for testing of energizing Closed state.Vibration barrel side face offers perforation 230, and feeder channel 210 is stretched out outside vibration bucket by perforation 230.

As shown in figure 4, each capacitor core 10 can be made to be placed across feeder channel by the vibration screening of vibration bucket 210, capacitor core 10 is laterally disposed to clamp capacitor core 10 convenient for clamping jaw 310.

Feeding mechanism is used to the capacitor core 10 that feeding machanism 100 provides being delivered to mechanism for testing 300 of energizing, it includes Transmit band part 400 and fuse pushing material component 500.

As shown in figure 5, transmission band part 400 includes third motor 410, synchronous belt 420 and conveyer belt 430, due to the portion Separation structure is technology more mature in the prior art, is repeated no more.430 head end of conveyer belt correspond to feeder channel 210, end with Fuse pushing material component 500 matches.

As shown in Figure 6 and Figure 7, fuse pushing material component 500 includes motor 320, the first cam 510, oscillating rod 520, sliding Frame 530.

Motor 320 is installed in board 100 and the first cam 510 of transmission connection, and the rotation of the first cam 510 is installed in board 100 and transmission connection oscillating rod 520, oscillating rod 520 swing be installed in board 100 and transmission connection sliding rack 530 and first it is convex Wheel 510, sliding rack 530, which slides back and forth, is installed in board 100, and sliding rack 530 slides between initial position and release location；

When sliding rack 530 is located at initial position, corresponding 430 end of conveyer belt of sliding rack 530 is located at 430 end of conveyer belt Capacitor core 10 be moved on sliding rack 530；When sliding rack 530 is located at release location, the corresponding clamping jaw 310 of sliding rack 530, folder Pawl 310 clamps the capacitor core 10 on sliding rack.

In the present embodiment, fuse pushing material component 500 further includes compression bar 540, and compression bar 540 is up and down to be mounted on sliding rack 530 and can with the movement of sliding rack 530 synchronizing moving, when sliding rack 530 is located at initial position, compression bar 540 is to moving down It moves and is resisted against on capacitor core 10；Compression bar 540 is to moving up during sliding rack 530 is reset to initial position from release location It is dynamic to be resetted.

In the present embodiment, 540 bottom end of compression bar is additionally provided with the second idler wheel 541, pushes up when compression bar 540 is resisted against capacitor core 10 The second idler wheel 541 is in contact with 10 top surface of capacitor core when face.When clamping jaw 310 clamps the capacitor core 10 on sliding rack and slides When frame 530 is just reset to initial position from release location, the second idler wheel 541 can be skidded off along the top surface of capacitor core 10 without Clamping jaw 310 is influenced to the chucking power of capacitor core 10, so that capacitor core 10 is more stable when being clamped by clamping jaw 310.

In the present embodiment, board 100 is provided with support frame 110, and support frame 110 is fixed with consolidating with inclined surface 121 Determine block 120；The rotation of sliding rack 530 is provided with rotating bar 550, and compression bar 540 is fixedly connected with 550 one end of rotating bar, rotating bar 550 The other end is provided with the first idler wheel 551, is additionally provided with elastic component (not shown), elastic component both ends respectively with rotating bar 550 One end is connected with sliding rack 530,551 edge of the first idler wheel during sliding rack 530 is moved to release location from initial position 121 upward sliding of inclined surface until the first idler wheel 551 leave inclined surface 121 so that 550 one end of rotating bar elastic component act on Under rotate down so that drive compression bar 540 move down；During sliding rack 530 is reset to initial position from release location First idler wheel 551 is along 121 slide downward of inclined surface so that 550 one end of rotating bar is rotated up and then drives compression bar 540 upward It is mobile.It is moved up and down by the first idler wheel 551 and the mating band dynamic pressure bar 540 of inclined surface 121, so that the stability of compression bar 540 More preferably, high reliablity.

In the present embodiment, fuse pushing material component 500 further includes gear frame 560 and driver plate 570, and 560 one end of gear frame is set It is equipped with the first transmission shaft 561,560 other end of gear frame is fixedly connected with oscillating rod 520；First cam, 510 side offers One eccentric grove 511, the first transmission shaft 561 protrude into the first eccentric grove 511, and the rotation of the first cam 510 drives the first transmission shaft 561 It is moved forward and backward and then drives 520 swing of oscillating rod；Driver plate 570 is L shape, and short side section is mutually solid with 520 top of oscillating rod It connects, long side section and 530 Joint of sliding rack.

As shown in Figure 8 and Figure 9, mechanism for testing 300 of energizing is convex including divider 330, turntable 340, movable disk 350, second Wheel 360.

The rotation of divider 330 is installed in board 100 and is located at 340 lower section of turntable, the transmission connection motor 320 of divider 330； The rotation of turntable 340 is installed in board 100 and transmission connection divider 330, and 340 top surface of turntable is fixedly installed bottom contact rod 341.The drive mechanism of divider 330 and turntable 340 is the prior art, is repeated no more, basic functional principle are as follows: motor 320 One circle of rotation, divider 330 rotate a station, turntable 340 are driven to rotate a station.

Second cam 360 transmission connection motor 320 and movable disk 350.Second cam, divider and the first cam are driven Same motor is connected, is not only economized on resources, and board size can be reduced, reduces occupied space.

In the present embodiment, mechanism for testing 300 of energizing further includes drive rod 370, and 370 bottom end of drive rod is provided with the second transmission Axis, the second cam 360 offer the second eccentric grove, and second driving shaft protrudes into the second eccentric grove；As shown in Figure 10, divider 330 offer through hole 331, and 370 top of drive rod passes through through hole 331 and stretches out divider 330,370 top of drive rod with 350 Joint of movable disk.Divider 330 offers through hole, and 370 top of drive rod passes through through hole 331 and stretches out divider 330, so that mechanism for testing structure of energizing is more compact, reduce the volume for mechanism for testing of energizing.

310 activity of clamping jaw is installed in turntable 340 and it is equipped with the conductive copper sheet being conductively connected with 341 phase of bottom contact rod 311。

Movable disk 350 is up and down to be installed in board 100, and 350 bottom surface of movable disk is fixedly installed top contact rod 351； When turntable 340 stops operating, sliding rack 530 is located at release location, and movable disk 350 is under the effect of the second cam 360 to moving down It is dynamic so that top contact rod 351 be in contact with bottom contact rod 341 and then conductive copper sheet 311 be connected with to capacitor core 10 into Capable test of energizing；During turntable 340 rotates a station, sliding rack 530 is reset to initial position, and movable disk 350 is the It is moved up under the effect of two cams 360 so that top contact rod 351 separates with 341 phase of bottom contact rod and then make conductive copper sheet 311 power-off enter next station with capacitor core 10.

In the present embodiment, bottom contact rod 341 is equipped with 24 groups and annular space is arranged, every group of bottom contact rod has 2 Bottom contact rod 341 and 2 341 internal and external partition of bottom contact rod arrangements；Top contact rod 351 is equipped with 24 groups and annular space cloth It sets, every group of top contact rod has 2 top contact rods 351 and 2 top 351 internal and external partition of contact rod arrangements；

In the present embodiment, 310 numbers of clamping jaw are equipped with 24 and along 340 peripheral annular arranged for interval of turntable, each clamping jaws For 310 tools there are two clamp arm 312 positioned opposite, the opposite face of two clamp arm 312 is provided with conductive copper sheet 311, each clamping jaw Two conductive copper sheets 311 respectively with two 341 phases of bottom contact rod of every group of bottom contact rod be conductively connected.

Clamping jaw 310 is driven by cylinder (not shown), during sliding rack 530 slides into release location, Two clamp arm 312 are first relatively distant from the presence of cylinder so that sliding rack 530 can smoothly enter between two clamp arm 312；When When sliding rack 530 is located at release location, two clamp arm 312 are relatively close to clamp capacitor core 10, at this point, each clamp arm is led Electrolytic copper piece 311 is in contact with the top and bottom of capacitor core 10 respectively.

A kind of disk is energized the working principle of machine structure are as follows:

Capacitor core 10 is placed in vibration bucket, then covers cover board 220 by the cover board 220 for opening vibration bucket top；

When original state, sliding rack 530 is located at initial position, and the first idler wheel 541 is located at the bottom end of inclined surface 121；

Start the disk to energize machine, vibrates the capacitor core 10 in bucket successively along 210 lateral arrangement of feeder channel, and pass through Conveyer belt 430 to be crossed to be delivered on the sliding rack 530 of fuse pushing material component, the rotation of motor 320 drives the rotation of the first cam 510, the The rotation of one cam 510 drives the first transmission shaft 561 to move forward and then gear frame 560 is driven to move forward, and gear frame 560 will be put 520 bottom end of lever forward jacking and drive 520 upper end of oscillating rod and driver plate 570 to swing backward, sliding rack 530 is in driver plate Release location is slided backwards under 570 drive；At the same time, the first idler wheel 541 is move upwardly until along inclined surface 121 One idler wheel 541 leaves inclined surface 121, and 550 one end of rotating bar rotates down under elastic component effect and then drives compression bar 540 downward Movement carries out axial limiting to capacitor core 10 so that the second idler wheel 541 is resisted against 10 upper side of capacitor core；

One circle of the rotation of motor 320 drives divider 330 to rotate a station and then turntable 340 is driven to rotate a station, Later, turntable 340 suspends rotation under the action of divider 330, at this point, being located at the sliding rack 530 and the station of release location Clamping jaw 310 it is corresponding, two clamp arm 312 of the station clamping jaw clamp the capacitor core on sliding rack in the presence of cylinder 10, the conductive copper sheet 311 of each clamp arm is in contact with the top and bottom of capacitor core 10 respectively；Then, sliding rack 530 is Forward slip to initial position is resetted under the drive of one cam 510, and compression bar 540 restores to original state；

Motor 320 drives the second cam 360 to rotate while rotation, and matching by second driving shaft and the second eccentric grove Crossed belt moves movable disk 350 and top contact rod 351 moves down, so that top contact rod 351 and bottom contact rod 341 1 are a pair of It is in contact with answering, is energized or tested with the capacitor core 10 to the station；

Turntable 340 continues to rotate a station under the action of divider 330, so that the clamping jaw 310 of corresponding sliding rack 530 Turn to next station；Movable disk 350 moves up during turntable 340 turns to next station, so that top contacts Stick 351 is separated with 341 phase of bottom contact rod；

It loops back and forth like this.

24 groups of tops contact rod 351 and 24 group bottom contact rod 341 can simultaneously one by one when being moved down due to movable disk 350 Accordingly be in contact, so can make 24 stations clamping jaw conductive copper sheet 311 conducting with simultaneously to 24 capacitor cores 10 into Row is energized or is tested.

24 stations are respectively as follows: station 1, capacitor core feeding；Station 2, low-voltage alternating-current energize 1；Station 3, low-voltage alternating-current Energize 2；Station 4, high-voltage alternating energize 1；Station 5, high-voltage alternating energize 2；Station 6, conductive discharge；Station 7, short circuit dischange； Station 8, the bad blanking of ac voltage withstanding；Station 9, DC low-voltage energize 1；Station 10, DC low-voltage energize 2；Station 11, direct current is low Pressure energizes 3；Station 12, direct current positive high voltage energize 1；Station 13, direct current positive high voltage energize 2；Station 14, direct current positive high voltage energize 3； Station 15, direct current positive high voltage energize 4；Station 16, conductive discharge；Station 17, negative direct current high voltage energize 1；Station 18, the negative height of direct current Pressure energizes 2；Station 19, negative direct current high voltage energize 3；Station 20, negative direct current high voltage energize 4；Station 21, conductive discharge；Station 22, Short circuit dischange；Station 23, the bad blanking of direct current；Station 24, qualified product blanking.

Since fuse pushing material component 500 uses cam drive structure, due to the first cam 510 and divider, the second cam 360 are sequentially connected same motor 320, and the revolving speed of motor 320 is many fastly compared with the transmission speed of cylinder, so that a kind of disk is assigned Energy machine structure can carry out test of energizing to 80 or more capacitor cores in one minute, while this apparatus control system uses " programmable controller+touch screen ", good man machine operation interface greatly increase the production efficiency, and reduce production cost, pole Profit margin is improved greatly.

Due to fuse pushing material component 500 use cam drive structure, the first cam 510 be sequentially connected motor drive speed compared with The transmission speed of cylinder is many fastly, which is energized capacitance core of the machine structure in one minute to 80 or more Son carries out test of energizing, and greatly increases the production efficiency, and reduces production cost, greatly improves profit margin.

The above, only the utility model preferred embodiment, therefore, it cannot be limited according to, and the utility model is implemented It is practical new to should still belong to this for range, i.e., equivalent changes and modifications made according to the scope of the patent of the utility model and the content of the manual In the range of type covers.

Claims (7)

1. The machine structure 1. a kind of disk is energized, it is characterised in that: it includes board, feeding machanism, feeding mechanism and test machine of energizing Structure, in which:

   For providing capacitor core and capacitor core can be made laterally disposed, it is installed in board and has feed logical feeding machanism Road；

   Feeding mechanism is used for the capacitor core that provides feeding machanism and is delivered to mechanism for testing of energizing, it include transmission band part and Fuse pushing material component, conveyer belt head end corresponds to feeder channel, end is matched with fuse pushing material component；Fuse pushing material component includes Motor, the first cam, oscillating rod, sliding rack, motor is installed in board and the first cam of transmission connection, the first cam rotate attaching In board and transmission connection oscillating rod, oscillating rod swing is installed in board and be sequentially connected sliding rack and the first cam, sliding rack It slides back and forth and is installed in board, sliding rack slides between initial position and release location；

   Mechanism for testing of energizing is provided with clamping jaw；

   When sliding rack is located at initial position, the corresponding transmission end of tape of sliding rack, the capacitor core positioned at transmission end of tape is moved to On sliding rack；When sliding rack is located at release location, sliding rack corresponds to clamping jaw, and clamping jaw clamps the capacitor core on sliding rack.
2. The machine structure 2. a kind of disk according to claim 1 is energized, it is characterised in that: fuse pushing material component further includes pressure Bar, compression bar is up and down be mounted on sliding rack and can with the movement of sliding rack synchronizing moving, when sliding rack is located at initial bit When setting, compression bar is moved down and is resisted against on capacitor core；Sliding rack is pressed during being reset to initial position from release location Bar, which moves up, to be resetted.
3. The machine structure 3. a kind of disk according to claim 2 is energized, it is characterised in that: board is provided with support frame, support Frame is fixed with the fixed block with inclined surface；Sliding rack rotation is provided with rotating bar, and compression bar is fixedly connected with rotating bar one end, Rotating bar the other end is provided with the first idler wheel, is additionally provided with elastic component, elastic component both ends respectively with rotating bar one end and sliding rack It is connected, the first idler wheel is along inclined surface upward sliding up to during sliding rack is moved to release location from initial position One idler wheel leaves inclined surface so that rotating bar one end rotates down under elastic component effect and then compression bar is driven to move down；Work as cunning The first idler wheel is along inclined surface slide downward so that rotating bar one end during moving frame is reset to initial position from release location It is rotated up and then compression bar is driven to move up.
4. The machine structure 4. a kind of disk according to claim 2 or 3 is energized, it is characterised in that: fuse pushing material component further includes Gear frame and driver plate, gear frame one end are provided with the first transmission shaft, and the gear frame other end is fixedly connected with oscillating rod；First is convex Wheel side offers the first eccentric grove, and the first transmission shaft protrudes into the first eccentric grove, and the rotation of the first cam drives the first transmission shaft It is moved forward and backward and then drives oscillating rod swing；Driver plate is L shape, short side section and oscillating rod top Joint, long side Section and sliding rack Joint.
5. The machine structure 5. a kind of disk according to claim 1 or 2 or 3 is energized, it is characterised in that: mechanism for testing of energizing includes Divider, turntable, movable disk, the second cam, divider rotation are installed in board and are located at below turntable, divider transmission connection Motor；Turntable rotation is installed in board and transmission connection divider, and turntable top surface is fixedly installed bottom contact rod；Clamping jaw activity It is installed in turntable and it is equipped with the conductive copper sheet being connected with bottom contact rod；Second cam drive connects motor, in movable disk Lower activity is installed in board and the second cam of transmission connection, and movable disk bottom surface is fixedly installed top contact rod；When turntable stops When rotation, sliding rack is located at release location, and movable disk moves down under the effect of the second cam so that top contact rod and bottom Contact rod is in contact and then conductive copper sheet is connected to carry out test of energizing to capacitor core；When turntable rotates a station process In, sliding rack is reset to initial position, and movable disk moves up under the effect of the second cam so that top contact rod connects with bottom Touching stick, which mutually separates and then powers off conductive copper sheet, enters next station with capacitor core.
6. The machine structure 6. a kind of disk according to claim 5 is energized, it is characterised in that: mechanism for testing of energizing further includes transmission Bar, drive rod bottom end are provided with second driving shaft, and the second cam offers the second eccentric grove, and second driving shaft protrudes into the second bias In slot；Divider offers through hole, and drive rod top passes through through hole and stretches out divider, drive rod top and movable disk phase It is affixed.
7. The machine structure 7. a kind of disk according to claim 6 is energized, it is characterised in that: bottom contact rod is equipped with 24 groups and ring Shape arranged for interval, every group of bottom contact rod have 2 bottom contact rods and 2 bottom contact rod internal and external partition arrangements；Top connects It touches stick and is equipped with 24 groups and annular space arrangement, every group of top contact rod has inside and outside 2 top contact rods and 2 top contact rods Arranged for interval；Clamping jaw number is equipped with 24 and along turntable peripheral annular arranged for interval, and there are two positioned opposite for each clamping jaw tool Clamp arm, the opposite face of two clamp arm is provided with conductive copper sheet, two conductive copper sheets of each clamping jaw respectively with every group of bottom Two bottom contact rods of contact rod are connected.