CN202678118U - A capacitor element feeding mechanism and a welding mechanism of a capacitor assembling machine - Google Patents

Abstract

Provided is a capacitor element feeding mechanism and a welding mechanism of a capacitor assembling machine. The capacitor element feeding mechanism comprises a conveying device, a material pushing device, and a clamping and conveying device. The conveying device comprises a conveyer belt used for conveying a capacitor element conveyed from a vibrating disk to the other end. The material pushing device comprises bearing seat used for bearing the capacitor element conveyed by the conveyer belt, a material pushing seat, a pushing rod, and a clamping rod. The pushing rod bonded on the material pushing seat is used for pushing the capacitor element on the bearing seat towards the welding mechanism. The clamping rod bonded on the material pushing seat can be swung until clamping the capacitor element. The clamping and conveying device comprises a clamping and conveying seat and two clamping blocks. The two clamping blocks are folded opposite to each other and disposed on the clamping and conveying seat. The two clamping blocks clamp and convey the capacitor element on the material pushing device to a material discharging position with the movement of the clamping and conveying seat. By above structure, the capacitor element is vertical when conveyed to a welding position so that two wires can be vertically welded on two opposite sides of the capacitor element by the welding mechanism. In addition, the two wires can be accurately welded on the capacitor element, preventing deviation and achieving stable welding quality.

Description

Sub-prime feed mechanism and the welding mechanism of capacitance group installation

Technical field

The utility model relates to the technology of a kind of capacitance group installation aspect, espespecially a kind ofly make sub-prime be sent to weldering to be vertical when establishing the position, so that can be located at the two relative side of this sub-prime by vertical welding for this two wire, and can make accurate welding and sub-prime feed mechanism and the welding mechanism of the capacitance group installation that is not offset.

Background technology

See also shown in Figure 1ly, show a kind of known capacitor arrangement, it comprises sub-prime A, the parallel two wire B that are welded on this sub-prime A two relative side, be enclosed within the outer insulation shell C of this sub-prime A and be filled in resin material (not shown) among this insulation shell C.Because sub-prime A is combined on this two wire B with being vertical, therefore whole just can have higher height.In recent years since electronic installation towards light, thin, short and small future development, so this capacitor with high height just can make the volume of this electronic installation be restricted and can't dwindle.

See also shown in Figure 2ly, show a kind of capacitor arrangement that has than low height, its structure and above-mentioned roughly the same, difference are that this sub-prime A is combined on this two wire B horizontally, so the whole height of this capacitor are greatly reduced.

At present, on the market common for the assembling capacitor capacitance group installation, announce shown in No. 331970 patent such as TaiWan, China, its sub-prime utilizes after by the vibrating disc discharging push rod of sub-prime material-pulling device that it is pushed to a sub-prime raising device and clamps and deliver to a height for it, and then utilize a pair of clip that the sub-prime on this sub-prime raising device is pressed from both sides between a pair of clip that moves on on the runner, make this runner it can be transferred to a welding position for welding.Yet the structure of this sub-prime material-pulling device is very complicated, and also very complicated and tediously long of its process of transporting sub-prime, so relatively can make cost higher and can make operating efficiency relatively poor.And, all be lying type (even the sub-prime of vertical also has the situation of toppling over into lying type when sending from a thruster because of this push rod) in the process that this sub-prime pushes in this sub-prime material-pulling device.Therefore, this sub-prime material-pulling device only can only will should be pushed between a pair of clip of this runner to element par level state, when relatively this runner is transferred to this welding position with this sub-prime, this sub-prime can be parallel state with two pins, so it only can only be applied to assemble the capacitor of sub-prime A shown in Figure 1 and the horizontal welding of two wire B, and can't be applied to assemble the capacitor that sub-prime A shown in Figure 2 and two wire B are the vertical configuration welding.Moreover, this sub-prime clip exists error with the position between a pair of clip that clips to this runner of this sub-prime level, relatively when this runner is transferred to this welding position with this sub-prime, this sub-prime just exists error with the relative position of this two wire and can't be all identical each time, so its welding quality is unstable in the extreme.

In view of this, this creator is for above-mentioned problems, and deeply design, and the active research improvement has a fling at and development and Design goes out this creation.

Summary of the invention

Technical problem to be solved in the utility model is: for above-mentioned the deficiencies in the prior art, providing a kind of makes sub-prime be sent to weldering to be vertical when establishing the position, so that can vertical welding be located at the sub-prime feed mechanism of capacitance group installation of the two relative side of this sub-prime for this two wire, provide simultaneously a kind of and two wires and sub-prime can accurately be welded and be not offset significantly to promote the welding mechanism that the capacitance group of welding quality is installed.

In order to solve the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of sub-prime feed mechanism of capacitance group installation, its with the sub-prime vertical sent in the vibrating disk be sent to the discharging position, be characterized in: this sub-prime feed mechanism comprises: conveying device, comprise conveyer belt, one end of this conveyer belt can be for the sub-prime of accepting the vertical that this vibrating disk sends, and with this sub-prime by other end vertical transfer out; Material-pulling device, comprise bearing, feeding seat, push rod and clamping bar, this bearing be combined on the board of capacitance group installation and the position at the other end of this conveyer belt, the sub-prime of sending to accept this conveyer belt, this bearing has a catch in a side of this conveyer belt can be for blocking the sub-prime that this conveyer belt is sent; This feeding seat this board mobile with near or away from the welding mechanism of this capacitance group installation; This push rod is combined on this feeding seat, so that the sub-prime on this bearing is passed towards this welding mechanism; This clamping bar is combined on this feeding seat swingably, to clamp or to leave this sub-prime; And clamping and conveying device, be located between this material-pulling device and this welding mechanism, comprise and pinch seat and two fixture blocks, this pinch seat can this board mobile with near or away from this welding mechanism, be located at this to the relative clamping of this two fixture block and pinch on the seat, and this two fixture block pinches the movement of seat and the sub-prime on this material-pulling device is pinched this discharging position along with this.

Described bearing is extended a lug towards the direction of this clamping and conveying device, the width of this lug is less than the width of this sub-prime, this push rod and this clamping bar can be pushed to this sub-prime on this lug, the pinching seat and this two fixture block can be carried to the two opposite sides of this lug of this clamping and conveying device.

Described material-pulling device has more a clamping bar cylinder pressure, and this clamping bar cylinder pressure is located on this feeding seat and has a push rod, and an end of this clamping bar is pressed on this push rod top, clamps or leave this sub-prime so that the other end of this clamping bar is rocked to.

Described conveying device more comprises biside plate and pressing plate, and this biside plate position is above this conveyer belt, and the conduit that formation just can supply this sub-prime vertical ground to pass through between this biside plate, and this pressing plate position is between this biside plate, and the lower side position is above this sub-prime.

Described welding mechanism comprises clamping device, welder and cutting device, this clamping device position is in a side of this clamping and conveying device, the welding position can be clamped and transferred in the position at the sub-prime of this discharging position, this welder position is in the side of this clamping device with respect to this clamping and conveying device, two wires are welded on the two relative side of this sub-prime, this cutting device position can be with two wire severings after the welding in the side of this welder with respect to this clamping device.

Described clamping device comprises rotating seat and four pairs of clips, but be combined on this board this rotating seat intermittent rotary, these four pairs of clips are equally spaced annular arrangement on this rotating seat, these four pairs of clips can be clamped the position at the sub-prime of this discharging position, and along with the rotation of this rotating seat is transferred to this welding position with this sub-prime, have a short slot on the end face of each clip and extend to the side and pass to mutually with the short slot of corresponding clip and hold this sub-prime.

Described clamping device more comprises briquetting and briquetting cylinder pressure, this briquetting position is above this rotating seat, this briquetting cylinder pressure can drive this briquetting lifting, is installed with downwards with the sub-prime above will being transferred to by a pair of clip wherein, makes the outer end of this sub-prime and the end face of this clip.

Described welder comprises two soldering apparatuses that symmetry is located at these both sides, welding position, and this two soldering apparatus can be mobile relatively to approach or away from this sub-prime, for this two wire is welded on this sub-prime at this board.

Described cutting device comprises tool rest and symmetrical two cutting cutters that are located at this tool rest both sides of position between this two wire, and this two cutting cutter can move relatively to approach at this board and reach away from this two wire, for cooperating this tool rest with this two wires severing.

A kind of welding mechanism of capacitance group installation, be characterized in: this welding mechanism comprises: clamping device, the position is in a side of the sub-prime feed mechanism of this capacitance group installation, comprise rotating seat and four pairs of clips, but be combined on this board this rotating seat intermittent rotary, these four pairs of clips are equally spaced annular arrangement on this rotating seat, these four pairs of clips can be clamped the position at the sub-prime of this discharging position, and can this sub-prime be transferred to this welding position along with the rotation of this rotating seat, have a short slot on the end face of each clip and extend to the side and pass to mutually with the short slot of corresponding clip and hold this sub-prime; Welder, the position is in the side of this clamping device with respect to this sub-prime pay-off, comprise two soldering apparatuses that symmetry is located at these both sides, welding position, this two soldering apparatus can be mobile relatively to approach or away from this sub-prime, for this two wire is welded on this sub-prime at this board; And cutting device, be located at this welder with respect to a side of this clamping device, and this cutting device comprises tool rest and symmetrical two cutting cutters that are located at this tool rest both sides of position between this two wire, this two cutting cutter can move relatively to approach at this board and reach away from this two wire, for cooperating this tool rest with this two wires severing.

Described clamping device more comprises briquetting and briquetting cylinder pressure, this briquetting position is above this rotating seat, this briquetting cylinder pressure can drive this briquetting lifting, being installed with downwards by the sub-prime above wherein a pair of clip is transferred to, so that the end face of the outer end of this sub-prime and this clip.

So, clamping and propelling movement by the push rod clamping bar of this material-pulling device, this clamping and conveying device can be delivered to the sub-prime of this vertical in this welding mechanism, this sub-prime is sent to is vertical when the position is established in weldering, so that can be located on the two relative side of this sub-prime by vertical welding for this two wire; And by the structural design of the short slot on these four pairs of clips and this briquetting and this briquetting cylinder pressure, can make this two wire and this sub-prime can accurately weld and not be offset, and then make it can therefore have more stable welding quality.

Description of drawings:

Fig. 1 is the perspective exploded view of known capacitor.

Fig. 2 is the perspective exploded view of another known capacitor.

Fig. 3 is the schematic perspective view of the utility model capacitance group installation.

Fig. 4 is the sectional perspective schematic diagram of the utility model capacitance group installation opposite side.

Fig. 5 is the schematic top plan view of the utility model capacitance group installation.

Fig. 6 is the schematic perspective view of the utility model sub-prime feed mechanism.

Fig. 7 be the utility model sub-prime feed mechanism schematic side view.

Fig. 8 is the schematic top plan view of Fig. 7.

Fig. 9 is the action schematic diagram of sub-prime of the present utility model when being transported to this material-pulling device.

Figure 10 is the schematic top plan view of Fig. 9.

Figure 11 is the holding action schematic diagram of the utility model clamping and conveying device.

Figure 12 is the schematic top plan view of Figure 11.

Figure 13 is the transfer movement schematic diagram of the utility model clamping and conveying device.

Figure 14 is the action schematic diagram of the utility model clamping device.

Label declaration:

Sub-prime A wire B

Insulation shell C board 1

Sub-prime feed mechanism 2 wire feed mechanisms 3

Welding mechanism 4 insulation shell feed mechanisms 5

Encapsulating mechanism 6 connecting gears 7

Export agency 8 conveying devices 10

Conveyer belt 11 side plates 12

Pressing plate 13 material-pulling devices 20

Bearing 21 feeding seats 22

Push rod 23 clamping bars 24

Clamping bar cylinder pressure 25 catch 26

Lug 27 push rods 28

Clamping and conveying device 30 pinches seat 31

Fixture block 32 clamping devices 40

Rotating seat 41 clips 42

Briquetting 43 briquetting cylinder pressures 44

Short slot 45 welders 50

Soldering apparatus 51 cutting devices 60

Tool rest 61 cutting cutters 62

Embodiment:

See also Fig. 3 to shown in Figure 8, show that capacitance group installation described in the utility model comprises sub-prime feed mechanism 2, wire feed mechanism 3, welding mechanism 4, insulation shell feed mechanism 5, encapsulating mechanism 6, connecting gear 7 and the export agency 8 that is located on the board 1.This sub-prime feed mechanism 2 can be for the sub-prime A that sends in the vibrating disk is the predetermined discharging position of being sent to of vertical.This wire feed mechanism 3 can be for two wire B are escorted a welding position.This welding mechanism 4 can be for the sub-prime A of position in this discharging position clamped and transfer to this welding position, make this sub-prime A position between this two wire B, and this two wire B vertically is welded on the two relative side of this sub-prime A, and this two wire B severing is become suitable length.This insulation shell feed mechanism 5 can be for the insulation shell (not shown) of sending in another vibrating disk is sent to this encapsulating mechanism 6.This encapsulating mechanism 6 can pour into the resin material (not shown) in the insulation shell that this insulation shell feed mechanism 5 is delivered to.This connecting gear 7 can be sent to this encapsulating mechanism 6 with the sub-prime A with wire B after establishing through these welding mechanism 4 welderings, and its sub-prime A partly is pressed in the resin material of this insulation shell.This export agency 8 can be sent to the electric capacity that this welding, encapsulating are finished in the one drying oven (not shown), for this resin material is dried.

Above-mentioned vibrating disk be used to sending sub-prime A and insulation shell is for known technology and generally is used in device among the relevant industries of this creation, relevant narration is namely arranged, so given unnecessary details no longer in addition among the content of prior art.

See also Fig. 6 to shown in Figure 10, point out that this sub-prime feed mechanism 2 comprises conveying device 10, material-pulling device 20 and clamping and conveying device 30.Wherein:

This conveying device 10 comprises conveyer belt 11, biside plate 12 and pressing plate 13.This conveyer belt 11 can be for the sub-prime A that accepts the vertical that a vibrating disc (not shown) sends, and with this sub-prime A by other end vertical transfer out.12 of this biside plates and form a conduit and just can pass through for this sub-prime A vertical ground above this conveyer belt 11 between this biside plate 12.13 of this pressing plates are between this biside plate 12, and the lower side position is above this sub-prime A, so that this sub-prime A does not have situation crooked, that beat and topple over when transporting on this conveyer belt 11.

This material-pulling device 20 comprises bearing 21, feeding seat 22, push rod 23, clamping bar 24 and clamping bar cylinder pressure 25.This bearing 21 is combined on this board 1 and an other end at this conveyer belt 11, can be for accepting the sub-prime A that this conveyer belt 11 is sent.This bearing 21 has a catch 26 in a side of this conveyer belt 11 can be for blocking the sub-prime A that this conveyer belt 11 is sent.This bearing 21 is extended a lug 27 towards the direction of this clamping and conveying device 30, and the width of this lug 27 is slightly less than the width of this sub-prime A.This feeding seat 22 can this board 1 mobile with near or away from this welding mechanism 4.This push rod 23 is combined in and can supplies on this feeding seat 22 the sub-prime A on this bearing 21 is passed on this lug 27 towards these welding mechanism 4 directions, and the width of this push rod 23 is slightly less than the width of this sub-prime A.This clamping bar 24 is combined on this feeding seat 22 swingably, and generally L-shaped, and the width of the head of this clamping bar 24 is slightly less than the width of this sub-prime A.This clamping bar cylinder pressure 25 is located on this feeding seat 22 and has the afterbody that a push rod 28 can be pressed for the top this clamping bar 24, the head of this clamping bar 24 is rocked to clamps or leave this sub-prime A.

This clamping and conveying device 30 is located between this material-pulling device 20 and this welding mechanism 4, comprises to pinch seat 31 and two fixture blocks 32.This pinch seat 31 can this board 1 mobile with near or away from this welding mechanism 4, this two fixture block 32 relatively clamping is located at this and pinches on the seat 31, and this two fixture block 32 can along with this pinch seat 31 movement and with the sub-prime A vertical on this material-pulling device 20 pinch this discharging position.

Please consult again Fig. 6 to shown in Figure 10, point out that this welding mechanism 4 comprises clamping device 40, welder 50 and cutting device 60.Wherein:

40 sides at this clamping and conveying device 30 of this clamping device comprise rotating seat 41, four pairs of clips 42, briquetting 43 and briquetting cylinder pressures 44.But be combined on this board 1, and the central axis of this rotating seat 41 is parallel with the table top of this board 1 these rotating seat 41 intermittent rotaries.These four pairs of clips 42 are equally spaced annular arrangement on this rotating seat 41, these four pairs of clips 42 can be clamped the position at the sub-prime A of this discharging position, and can this sub-prime A be transferred to this welding position for welding along with the rotation of this rotating seat 41, and the connecting gear 7 of the sub-prime A that weldering is provided with wire B being transferred to the below.Have on the end face of each clip 42 short slot 45 extend to that side and the short slot 45 of corresponding clip 42 communicate can be for holding this sub-prime A.43 of this briquettings are above this rotating seat 41.This briquetting cylinder pressure 44 can drive this briquetting 43 liftings, for being installed with downwards by the sub-prime A above wherein a pair of clip 42 is transferred to, so that the end face of the outer end of this sub-prime A and this clip 42.

50 of this welders are in the side of this clamping device 40 with respect to this clamping and conveying device 30, comprise two soldering apparatuses 51 that symmetry is located at these both sides, welding position, and this two soldering apparatus 51 can be mobile relatively to approach or away from the sub-prime A of position in this welding position at this board 1, use for this two wire B vertical configuration be welded on this sub-prime A.

60 of this cutting devices comprise a tool rest 61 and symmetrical two cutting cutters 62 that are located at this tool rest 61 both sides of position between this two wire B in the side of this welder 50 with respect to this clamping device 40.This two cutting cutter 62 can be mobile relatively to approach and away from this two wire B, to use for cooperating this tool rest 61 with this two wire B severing at this board 1.

See also Figure 11, shown in Figure 12, point out to be sent on the bearing 21 of this material-pulling device 20 as the sub-prime A of this vertical, and when being sandwiched between this push rod 23 and this clamping bar 24, this feeding seat 22 can move towards the direction near this clamping device 40, makes this push rod 23 this sub-prime A is clamping of vertical and be pushed to this lug 27 tops with this clamping bar 24.At this moment, the pinching seat 31 and can move to towards this material-pulling device 20 and make 32 of two fixture blocks in the both sides of this lug 27 of this clamping and conveying device 30, then these fixture block 32 clampings are to clamp the sub-prime A of position on this lug 27.Simultaneously, clip 42 is opened towards this clamping and conveying device 30 on this clamping device 40.

See also shown in Figure 13ly, point out after this two fixture block 32 is clamped this sub-prime A, the push rod 28 of this clamping bar cylinder pressure 25 can the top be pressed the afterbody of these clamping bars 24, makes the head of this clamping bar 24 upwards swing and leave a side of opposite this push rod 23 of this sub-prime A.Then, this push rod 23 that this feeding seat 22 drives on it is return original position with this clamping bar 24, and clamping bar cylinder pressure 25 makes this clamping bar 24 swing back original position more afterwards.Simultaneously, this pinches seat 31 and can be towards this clamping device 40 move to and make the sub-prime A that is clipped between two fixture blocks 32 be sent to this discharging position, 32 both sides at a pair of clip 42 of this clamping and conveying device 30 of this two fixture block this moment, then this 42 clampings are sandwiched among this short slot 45 this sub-prime A to clip, this two fixture block 32 is put and is opened to decontrol sub-prime afterwards, pinches thereafter seat 31 and can send this two clip 42 back to original position towards this material-pulling device 20.

So repeat above-mentioned action, just can make this sub-prime A be one by one the clamping device 40 that vertical is delivered to this welding mechanism 4.

See also shown in Figure 14ly, after a pair of clip 42 of this clamping device 40 was clamped this sub-prime A, this rotating seat 41 can drive this clip 42 is rotated up 90 degree.Then, this briquetting cylinder pressure 44 can drive this briquetting 43 and move down that this sub-prime A is installed with downwards, make the outer end of this sub-prime A and the end face of this clip 42, this rotating seat 41 can drive this again clip 42 is continued 90-degree rotation more afterwards, makes the sub-prime A on it be the position of vertical in this welding position.

Because when the sub-prime feed mechanism 2 of this creation and this welding mechanism 4 were transported to this sub-prime A this weldering and establish the position, this sub-prime A all was vertical, so this two wire B can be located on the two relative side of this sub-prime A by vertical welding.And, this clamping device 40 was transferred to this sub-prime A for 1 when location again and by a briquetting 43 this sub-prime A is pressed to its outer face is flushed with the outer face of clip 42, so the position when this sub-prime A is sent to this welding position each time all is identical and do not have error, so relative this sub-prime A that just can make when welding each time is all identical with welding position and the length of this two wire B, so that it can significantly reduce fraction defective, to promote the quality of welding.

In sum, because this creation has above-mentioned advantage and practical value, and be showed no similar product deliver in like product, therefore met the application important document of new patent, be to file an application in accordance with the law.

Claims (11)

1. the sub-prime feed mechanism of capacitance group installation, its with the sub-prime vertical sent in the vibrating disk be sent to the discharging position, it is characterized in that: this sub-prime feed mechanism comprises:

Conveying device comprises conveyer belt, and an end of this conveyer belt can be for the sub-prime of accepting the vertical that this vibrating disk sends, and with this sub-prime by other end vertical transfer out;

Material-pulling device, comprise bearing, feeding seat, push rod and clamping bar, this bearing be combined on the board of capacitance group installation and the position at the other end of this conveyer belt, the sub-prime of sending to accept this conveyer belt, this bearing has a catch in a side of this conveyer belt can be for blocking the sub-prime that this conveyer belt is sent; This feeding seat this board mobile with near or away from the welding mechanism of this capacitance group installation; This push rod is combined on this feeding seat, so that the sub-prime on this bearing is passed towards this welding mechanism; This clamping bar is combined on this feeding seat swingably, to clamp or to leave this sub-prime; And

Clamping and conveying device, be located between this material-pulling device and this welding mechanism, comprise and pinch seat and two fixture blocks, this pinch seat can this board mobile with near or away from this welding mechanism, be located at this to the relative clamping of this two fixture block and pinch on the seat, and this two fixture block pinches the movement of seat and the sub-prime on this material-pulling device is pinched this discharging position along with this.

2. the sub-prime feed mechanism of capacitance group as claimed in claim 1 installation, it is characterized in that: described bearing is extended a lug towards the direction of this clamping and conveying device, the width of this lug is less than the width of this sub-prime, this push rod and this clamping bar can be pushed to this sub-prime on this lug, the pinching seat and this two fixture block can be carried to the two opposite sides of this lug of this clamping and conveying device.

3. the sub-prime feed mechanism of capacitance group as claimed in claim 2 installation, it is characterized in that: described material-pulling device has more a clamping bar cylinder pressure, this clamping bar cylinder pressure is located on this feeding seat and has a push rod, an end of this clamping bar is pressed on this push rod top, clamps or leave this sub-prime so that the other end of this clamping bar is rocked to.

4. the sub-prime feed mechanism of capacitance group as claimed in claim 3 installation, it is characterized in that: described conveying device more comprises biside plate and pressing plate, this biside plate position is above this conveyer belt, and form the conduit that just can supply this sub-prime vertical ground to pass through between this biside plate, this pressing plate position is between this biside plate, and the lower side position is above this sub-prime.

5. the sub-prime feed mechanism of installing such as each described capacitance group in the claim 1 to 4, it is characterized in that: described welding mechanism comprises clamping device, welder and cutting device, this clamping device position is in a side of this clamping and conveying device, the welding position can be clamped and transferred in the position at the sub-prime of this discharging position, this welder position is in the side of this clamping device with respect to this clamping and conveying device, two wires are welded on the two relative side of this sub-prime, this cutting device position can be with two wire severings after the welding in the side of this welder with respect to this clamping device.

6. the sub-prime feed mechanism of capacitance group as claimed in claim 5 installation, it is characterized in that: described clamping device comprises rotating seat and four pairs of clips, but be combined on this board this rotating seat intermittent rotary, these four pairs of clips are equally spaced annular arrangement on this rotating seat, these four pairs of clips can be clamped the position at the sub-prime of this discharging position, and along with the rotation of this rotating seat is transferred to this welding position with this sub-prime, have a short slot on the end face of each clip and extend to the side and pass to mutually with the short slot of corresponding clip and hold this sub-prime.

7. the sub-prime feed mechanism of capacitance group as claimed in claim 6 installation, it is characterized in that: described clamping device more comprises briquetting and briquetting cylinder pressure, this briquetting position is above this rotating seat, this briquetting cylinder pressure can drive this briquetting lifting, be installed with downwards with the sub-prime above will being transferred to by a pair of clip wherein, make the outer end of this sub-prime and the end face of this clip.

8. the sub-prime feed mechanism of capacitance group as claimed in claim 7 installation, it is characterized in that: described welder comprises two soldering apparatuses that symmetry is located at these both sides, welding position, this two soldering apparatus can be mobile relatively to approach or away from this sub-prime, for this two wire is welded on this sub-prime at this board.

9. the sub-prime feed mechanism of capacitance group as claimed in claim 8 installation, it is characterized in that: described cutting device comprises tool rest and symmetrical two cutting cutters that are located at this tool rest both sides of position between this two wire, this two cutting cutter can move relatively to approach at this board and reach away from this two wire, for cooperating this tool rest with this two wires severing.

10. the welding mechanism of capacitance group installation, it is characterized in that: this welding mechanism comprises:

Clamping device, the position is in a side of the sub-prime feed mechanism of this capacitance group installation, comprise rotating seat and four pairs of clips, but be combined on this board this rotating seat intermittent rotary, these four pairs of clips are equally spaced annular arrangement on this rotating seat, these four pairs of clips can be clamped the position at the sub-prime of this discharging position, and can this sub-prime be transferred to this welding position along with the rotation of this rotating seat, have a short slot on the end face of each clip and extend to the side and pass to mutually with the short slot of corresponding clip and hold this sub-prime;

Welder, the position is in the side of this clamping device with respect to this sub-prime pay-off, comprise two soldering apparatuses that symmetry is located at these both sides, welding position, this two soldering apparatus can be mobile relatively to approach or away from this sub-prime, for this two wire is welded on this sub-prime at this board; And

Cutting device, be located at this welder with respect to a side of this clamping device, and this cutting device comprises tool rest and symmetrical two cutting cutters that are located at this tool rest both sides of position between this two wire, this two cutting cutter can move relatively to approach at this board and reach away from this two wire, for cooperating this tool rest with this two wires severing.

11. the welding mechanism of capacitance group installation as claimed in claim 10, it is characterized in that: described clamping device more comprises briquetting and briquetting cylinder pressure, this briquetting position is above this rotating seat, this briquetting cylinder pressure can drive this briquetting lifting, being installed with downwards by the sub-prime above wherein a pair of clip is transferred to, so that the end face of the outer end of this sub-prime and this clip.

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