CN204546094U - Ignition tip puncher feed system - Google Patents

Abstract

The utility model relates to a kind of ignition tip puncher feed system, comprises frame, machining spindle, vibrating disk and is fixedly installed on the inductive head in frame, feed unit, the first ejection assembly, transfer unit, the second ejection assembly and the assembly that gathers materials; Machining spindle is provided with the machining hole for clamping workpiece; Feeding port and the inductive head of described vibrating disk are oppositely arranged, and charging unit is arranged between feeding port and inductive head, and transfer unit is arranged on the side of charging unit.Workpiece is loaded charging unit by vibrating disk by the utility model, transfer in transfer unit by the first ejection assembly, then processed in workpiece movable to machining spindle by transfer unit, finally by the second ejection assembly and transfer unit, the workpiece machined is put into the assembly that gathers materials.The utility model automaticity is high, can process multiple workpiece simultaneously, and production efficiency obtains and greatly promotes and reduce production cost.

Description

Ignition tip puncher feed system

Technical field

The utility model relates to ignition tip processing equipment field, particularly a kind of ignition tip puncher feed system.

Background technology

Ignition tip is welding equipment consumable accessory, belongs to welding consumptive material.Welding gun caudal end part, being used for the metal mouth of delivery welding wire is exactly ignition tip.Ignition tip is generally formed by copper material (brass, red copper etc.) manufacture.Ignition tip work in-process all can experience punch out step.Traditional drilling method is all generally by operator's manual punching hole and can not carries out the drilling operation of multiple workpiece simultaneously, and production efficiency has greatly improved space.Meanwhile, traditional drilling method needs a large amount of artificial, substantially increases production cost.

In order to enhance productivity, occur that some can carry out the ignition tip Special-purpose puncher of multiple workpiece drilling operation simultaneously on the market.But still need operator to carry out feeding and pickup, automaticity is not high.

Utility model content

It is high that the purpose of this utility model is to provide a kind of automaticity, can effectively enhance productivity and reduce the ignition tip puncher feed system of production cost.

The technical scheme realizing the utility model object is: the utility model comprises frame and machining spindle, and machining spindle is provided with the machining hole for clamping workpiece; Also comprise the feeding port be fixedly installed in frame, inductive head, charging unit, the first ejection assembly, transfer unit, the second ejection assembly and the assembly that gathers materials; Described feeding port and inductive head are oppositely arranged, and feeding port place is provided with first locking device that can limit discharging; Described charging unit comprises skid bed and charging cylinder, and skid bed to be arranged between feeding port with inductive head and to be connected with the output shaft of charging cylinder, and skid bed navigates between feeding port and inductive head under the effect of cylinder of feeding; Described skid bed is provided with the charging hole group comprising more than one charging hole, each charging hole is equipped with and workpiece can be locked in the second interior locking device; Charging hole in described charging hole group arranges along skid bed moving direction; The first knock-pin that described first ejection assembly comprises the first cylinder and is connected with the output shaft of the first cylinder, the first knock-pin matches with charging hole group, and the first ejection assembly is arranged on the side of skid bed, and transfer unit is arranged on the opposite side of skid bed; Described skid bed place is loading station, and machining spindle place is processing stations; Described transfer unit comprises transfer carrier, middle rotaring cylinder, first order ejection assembly and second level ejection assembly; The output shaft of described middle rotaring cylinder is fixedly connected with transfer carrier, and transfer carrier moves under the effect of middle rotaring cylinder between loading station and processing stations; Described transfer carrier is provided with first order bearing holes group and second level bearing holes group, and first order bearing holes group comprises more than one first order bearing holes, and second level bearing holes group comprises more than one second level bearing holes; The quantity of described first order bearing holes is all equal with the quantity of charging hole with the quantity of second level bearing holes, and the quantity of machining spindle is equal with the quantity of charging hole; That described first order ejection assembly is arranged on transfer carrier is corresponding with first order bearing holes group away from the side of skid bed, and it is with second level bearing holes group corresponding away from the side of skid bed that second level ejection assembly is arranged on transfer carrier; Described first order ejection assembly comprises the first order knock-pin be connected with the output shaft of first order cylinder, and first order knock-pin and the assembly of first order bearing holes are closed; Described second level ejection assembly comprises the second level knock-pin be connected with the output shaft of second level cylinder, and second level knock-pin and second level bearing holes assembly are closed; Described each first order bearing holes is equipped with and workpiece can be locked in the 3rd interior locking device; When described transfer carrier is in loading station, first order bearing holes group and charging hole group are in same plane and cooperatively interact, first order bearing holes group and second level bearing holes group in transfer carrier moving process all can with the machining hole corresponding matching of each machining spindle; Workpiece in charging hole group can head in the first order bearing holes group of transfer carrier through charging hole group by described first knock-pin under the first cylinder action; Described machining spindle is between the second ejection assembly and transfer unit; The second knock-pin that described second ejection assembly comprises the second cylinder and is connected with the output shaft of the second cylinder, the second knock-pin coordinates with the machining hole of each machining spindle; Workpiece in each machining hole can head in the second level bearing holes group of transfer carrier through each machining hole by described second knock-pin under the second cylinder action; The described assembly that gathers materials is arranged on below transfer carrier.

Above-mentioned feeding port is connected with the discharge end of vibrating disk and communicates.

The above-mentioned assembly that gathers materials comprises aggregate bin and tapping channel; Described aggregate bin is fixedly installed in frame, and when central vicarious carrier is positioned at loading station, aggregate bin is positioned at the below of second level bearing holes group; Described tapping channel is communicated with the bottom of aggregate bin.

The above-mentioned assembly that gathers materials also comprises material toggling sheet; One end of described material toggling sheet is fixedly installed on skid bed, and the other end stretches into aggregate bin and presses close to the bottom of aggregate bin.

Above-mentioned machining spindle is fixedly mounted on the below of frame, and charging unit is arranged on the top of machining spindle, and the second ejection assembly is positioned at the below of the first ejection assembly; Described skid bed moves along X-direction under the effect of charging cylinder; Described first knock-pin and the second knock-pin move along Y direction respectively under the effect of the first cylinder and the second cylinder; Described transfer carrier moves along Z-direction under the effect of middle rotaring cylinder; Described first order knock-pin and second level knock-pin move along Y direction respectively under the effect of first order cylinder and second level cylinder; Described machining hole, charging hole, first order bearing holes and second level bearing holes all extend along Y direction; Described first order bearing holes group is arranged on the top of second level bearing holes group and corresponding up and down.

Above-mentioned charging unit also comprises charging skid and slide block; Described charging skid is fixedly installed in frame, and skid is arranged on charging skid; Described skid bed is fixedly installed on slide block, and charging cylinder is fixedly installed on charging skid, and the output shaft of charging cylinder is fixedly connected with slide block; Described transfer unit also comprises the slide rail be fixedly installed in frame and the transfer slide block coordinated with slide rail, and transfer carrier is fixedly installed on transfer slide block, and middle rotaring cylinder is fixedly installed in frame, and the output shaft of middle rotaring cylinder is fixedly connected with transfer slide block.

Above-mentioned charging hole group has three charging holes along skid bed moving direction equidistant arrangement; Described first order bearing holes group has three first order bearing holes along skid bed moving direction equidistant arrangement; Described second level bearing holes group has three second level bearing holes along skid bed moving direction equidistant arrangement; Described first order bearing holes group is arranged on the top of second level bearing holes group and mutually up and down corresponding; Described frame is provided with three machining spindles along skid bed moving direction equidistant arrangement; Spacing between described first order bearing holes is equal with the spacing between charging hole, and the spacing between the bearing holes of the second level is equal with the spacing between charging hole, and the spacing between machining hole is equal with the spacing between charging hole.

Above-mentioned first locking device and the second locking device are cylinder, and the output shaft of cylinder can stretch in corresponding feeding port or charging hole; Described 3rd locking device comprises locking sliding block, back-moving spring and locking triggering block; Described transfer carrier is provided with and extends and the chute be communicated with the first bearing holes inside along Z-direction; One end of described locking sliding block is locking end, and the other end is trigger end; The locking end of described locking sliding block stretches in the first bearing holes through chute, and trigger end stretches out through the upper end of chute therefrom vicarious carrier; The trigger end of described locking sliding block is provided with position-limited block, on the trigger end that back-moving spring is sleeved on locking sliding block and between position-limited block and transfer carrier; Described locking triggering block is fixedly installed in frame and with the trigger end effect of locking sliding block and coordinates.

Above-mentioned transfer unit also comprises the second transfer carrier; Described second transfer carrier to be fixedly installed in frame and between skid bed and transfer carrier; Described second transfer carrier is provided with the second transfer hole group with charging hole group corresponding matching; When described transfer carrier moves to loading station, first order bearing holes group and the second transfer hole group corresponding matching; Described locking triggering block is fixedly installed on the second transfer carrier, and locking triggering block is positioned at the top of transfer carrier and coordinates with the trigger end of locking sliding block.

Above-mentioned charging cylinder comprises and is respectively used to three charging holes controlled in charging hole group cylinder, second cylinder and the 3rd of feeding of feeding with first of feeding port corresponding matching successively and feeds cylinder; Described charging skid is provided with the travel switch for monitoring charging cylinder stroke distance.

Above-mentioned aggregate bin is provided with guiding blend stop, guides blend stop along the inwall of aggregate bin to tapping channel along stretching.

The utility model has positive effect: workpiece is loaded charging unit by vibrating disk by (1) the utility model, transfer in the first order bearing holes group of transfer unit by the first ejection assembly, then processed in workpiece movable to machining spindle by transfer unit, workpiece after processing by the second ejection assembly again by workpiece transfer in the second level bearing holes group of transfer unit, being pushed by the workpiece machined finally by second level ejection assembly gathers materials in assembly, reciprocal with this; This process has the automation of height, has fundamentally liberated labour, and has had very high production efficiency; (2) the utility model is by the continuous charging characteristic of vibrating disk, achieves reinforced automation, thus makes whole system full-automatic; (3) utilize tapping channel the workpiece processed can be collected together in the utility model, improve the tidiness of processing environment; (4) the material toggling sheet gathered materials in the utility model on assembly is fixedly installed on skid bed, can just dial in tapping channel by the workpiece processed in the process of skid bed charging; (5) skid bed of the present utility model can keep better the moving stability, for the fast accurate of material loading provides guarantee by skid and slide block; (6) transfer carrier of the present utility model can keep better the moving stability by slide rail and transfer slide block, and the fast accurate for workpiece transfer provides and ensures better; (7) the utility model utilize the second transfer carrier to ensure workpiece has over effect better when transferring in first order bearing holes group, stability is higher; (8) charging cylinder of the present utility model is by travel switch, controls the movement position of skid bed sooner more accurately, ensures material loading accuracy; (9) the utility model guiding blend stop gathered materials in assembly can guide workpiece to concentrate, so that material toggling sheet carries out material toggling to tapping channel.

Accompanying drawing explanation

In order to make content of the present utility model more easily be clearly understood, below according to specific embodiment also by reference to the accompanying drawings, the utility model is described in further detail, wherein

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the structural representation of the utility model charging unit;

Fig. 3 is the structural representation of the utility model skid bed;

Fig. 4 is the structural representation of the utility model transfer unit;

Fig. 5 is the structural representation of the utility model transfer carrier;

Fig. 6 is that the utility model gathers materials the structural representation of assembly, skid bed, transfer carrier and the second transfer carrier;

Fig. 7 is the structural representation of the utility model second transfer carrier;

Fig. 8 is the structural representation of the utility model the 3rd locking device.

Detailed description of the invention

See Fig. 1 to Fig. 8, the utility model comprises frame and machining spindle, and machining spindle is provided with the machining hole for clamping workpiece; Also comprise the feeding port be fixedly installed in frame, inductive head 2, charging unit 3, first ejection assembly 4, transfer unit 5, second ejection assembly 6 and the assembly 7 that gathers materials; Described feeding port and inductive head 2 are oppositely arranged, and feeding port place is provided with first locking device 11 that can limit discharging; Described feeding port is connected with the discharge end of vibrating disk and communicates.

Described charging unit 3 comprises skid bed 31, charging cylinder 32, charging skid 34 and slide block; Described charging skid 34 is fixedly installed in frame, and skid is arranged on charging skid 34; Described skid bed 31 is fixedly installed on slide block, and charging cylinder 32 is fixedly installed on charging skid 34, and the output shaft of charging cylinder 32 is fixedly connected with slide block; Described skid bed 31 is located between feeding port and inductive head 2, and skid bed 31 navigates between feeding port and inductive head 2 under the effect of charging cylinder 32; Described skid bed 31 is provided with to comprise has three charging hole group 31-1 along the charging hole of skid bed 31 moving direction equidistant arrangement, each charging hole is equipped with and workpiece can be locked in the second interior locking device 33; Described charging cylinder 32 comprises and is respectively used to three charging holes controlled on charging hole group 31-1 cylinder, second cylinder and the 3rd of feeding of feeding with first of feeding port corresponding matching successively and feeds cylinder; Described charging skid 34 is provided with the travel switch for monitoring charging cylinder 32 stroke distances.

The first knock-pin 42 that described first ejection assembly 4 comprises the first cylinder 41 and is connected with the output shaft of the first cylinder 41, first knock-pin 42 matches with charging hole group 31-1, and this cooperation is that the first knock-pin 42 is right against charging hole group 31-1 so that ejected by the workpiece in charging hole group 31-1 when skid bed 31 moves to a certain position; Described first ejection assembly 4 is arranged on the side of skid bed 31, and transfer unit 5 is arranged on the opposite side of skid bed 31; Described skid bed 31 place is loading station, and machining spindle place is processing stations.

Described transfer unit 5 comprises transfer carrier 51, middle rotaring cylinder 52, first order ejection assembly 53, second level ejection assembly 54, second transfer carrier 56, slide rail and transfer slide block; Described slide rail is fixedly installed in frame, and transfer skid is arranged on slide rail, and transfer carrier 51 is fixedly installed on transfer slide block, and middle rotaring cylinder 52 is fixedly installed in frame, and the output shaft of middle rotaring cylinder is fixedly connected with transfer slide block; Described transfer carrier 51 moves under the effect of middle rotaring cylinder 52 between loading station and processing stations; Described transfer carrier 51 is provided with first order bearing holes group 51-1 and second level bearing holes group 51-2; Described first order bearing holes group 51-1 has three first order bearing holes along skid bed 31 moving direction equidistant arrangement; Described second level bearing holes group 51-2 has three second level bearing holes along skid bed 31 moving direction equidistant arrangement; Described first order bearing holes group 51-1 is arranged on the top of second level bearing holes group 51-2 and mutually up and down corresponding; Described frame is provided with three machining spindles along skid bed 31 moving direction equidistant arrangement; Spacing between described first order bearing holes is equal with the spacing between charging hole, and the spacing between the bearing holes of the second level is equal with the spacing between charging hole, and the spacing between machining hole is equal with the spacing between charging hole; That described first order ejection assembly 53 is arranged on transfer carrier 51 is corresponding with first order bearing holes group 51-1 away from the side of skid bed 31, and it is with second level bearing holes group 51-2 corresponding away from the side of skid bed 31 that second level ejection assembly 54 is arranged on transfer carrier 51; Described first order ejection assembly 53 comprises the first order knock-pin 53-2 be connected with the output shaft of first order cylinder 53-1, and first order knock-pin 53-2 coordinates with first order bearing holes group 51-1 so that the workpiece in first order bearing holes group 51-1 ejects by first order knock-pin 53-2; Described second level ejection assembly 54 comprises the second level knock-pin 54-2 be connected with the output shaft of second level cylinder 54-1, second level knock-pin 54-2 coordinates with second level bearing holes group 51-2, so that the workpiece in the bearing holes group 51-2 of the second level ejects by second level knock-pin 54-2; Described each first order bearing holes is equipped with and workpiece can be locked in the 3rd interior locking device 55; Described second transfer carrier 56 to be fixedly installed in frame and between skid bed 31 and transfer carrier 51; Described second transfer carrier 56 is provided with the second transfer hole group 56-1 with charging hole group 31-1 corresponding matching; When described transfer carrier 56 moves to loading station, first order bearing holes group 51-1 and the second transfer hole group 56-1 corresponding matching; Described first order bearing holes group 51-1 and second level bearing holes group 51-2 in transfer carrier 51 moving process all can with the machining hole corresponding matching of each machining spindle.

Described machining spindle is fixedly mounted on the below of frame, and charging unit 3 is arranged on the top of machining spindle, and the second ejection assembly 6 is positioned at the below of the first ejection assembly 4; Described skid bed 31 moves along X-direction under the effect of charging cylinder 32; Described first knock-pin 42 and the second knock-pin 62 move along Y direction respectively under the effect of the first cylinder 41 and the second cylinder 61; Described transfer carrier 51 moves along Z-direction under the effect of middle rotaring cylinder 52; Described first order knock-pin 53-2 and second level knock-pin 54-2 moves along Y direction respectively under the effect of first order cylinder 53-1 and second level cylinder 54-1; Described machining hole, charging hole, first order bearing holes and second level bearing holes all extend along Y direction; Described first order bearing holes group 51-1 is arranged on the top of second level bearing holes group 51-2 and corresponding up and down.

Described first locking device 11 and the second locking device 33 are cylinder, and the output shaft of cylinder can stretch in corresponding feeding port or charging hole; Described 3rd locking device 55 comprises locking sliding block 55-1, back-moving spring 55-2 and locking triggering block 55-3; Described transfer carrier 51 is provided with and extends and the chute be communicated with the first bearing holes inside along Z-direction; One end of described locking sliding block 55-1 is locking end, and the other end is trigger end; The locking end of described locking sliding block 55-1 stretches in the first bearing holes through chute, and trigger end stretches out through the upper end of chute therefrom vicarious carrier 51; The trigger end of described locking sliding block 55-1 is provided with position-limited block, on the trigger end that back-moving spring 55-2 is sleeved on locking sliding block 55-1 and between position-limited block and transfer carrier 51; Described locking triggering block 55-3 is fixedly installed on the second transfer carrier 56, and locking triggering block 55-3 is positioned at the top of transfer carrier 51 and coordinates with the trigger end effect of locking sliding block 55-1.

Described first knock-pin 42 can pass charging hole group 31-1 successively under the first cylinder 41 acts on, the workpiece in charging hole group 31-1 heads in the first order bearing holes group 51-1 of transfer carrier 51 by the second transfer hole group 56-1.

Described machining spindle is between the second ejection assembly 6 and transfer unit 5; Described second ejection assembly 6 comprises the second cylinder 61 and the second knock-pin 62, second knock-pin 62 of being connected with the output shaft of the second cylinder 61 coordinates with the machining hole of each machining spindle so that ejected by the workpiece in machining hole; Workpiece in each machining hole can head in the second level bearing holes group 51-2 of transfer carrier 51 through each machining hole by described second knock-pin 62 under the second cylinder 61 acts on.

The described assembly 7 that gathers materials comprises aggregate bin 71, tapping channel 72 and material toggling sheet 73; Described aggregate bin 71 is fixedly installed in frame, and when central vicarious carrier 51 is positioned at loading station, aggregate bin 71 is positioned at the below of second level bearing holes group 51-2; Described tapping channel 72 is communicated with the bottom of aggregate bin 71; One end of described material toggling sheet 73 is fixedly installed on skid bed 31, and the other end stretches into aggregate bin 71 and presses close to the bottom of aggregate bin 71; The inwall of described aggregate bin 71 is provided with guiding blend stop, guides blend stop along the inwall of aggregate bin 71 to tapping channel 72 along stretching.By guiding blend stop to guide the workpiece falling into aggregate bin 71 into tapping channel 73, when skid bed 31 carries out charging action, material toggling sheet 73 is just utilized to be dialled in tapping channel 73 by the workpiece bottom aggregate bin 71.

The course of work of this system is: one, vibrating disk 1 vibrates and workpiece is sent into feeding port, and skid bed 31 is under the effect of feed cylinder 32 and travel switch simultaneously, first first charging hole is aimed at feeding port; Two, the first locking device 11 on first charging hole and the second locking device 33 are all in releasing orientation, workpiece enters in charging hole under the effect of the first ejection assembly 4, after inductive head 2 senses the workpiece in charging hole, the first locking device 11 on first charging hole and the second locking device 33 are all locked, then skid bed 31 continues, under the effect of feed cylinder 32 and travel switch, second charging hole is aimed at feeding port, is all feeded by three charging holes with above method; Three, skid bed 31 moves on until the first knock-pin 42 is corresponding with charging hole group 31-1, by the first knock-pin 42, workpiece is headed in first order bearing holes group 51-1, transfer carrier 51 is descending, and the workpiece in first order bearing holes group 51-1 locked by the 3rd locking device 55 under the effect of back-moving spring 55-2; Four, the descending machining hole first second level bearing holes group 51-2 being aimed at machining spindle of transfer carrier 51, heads in the bearing holes group 51-2 of the second level by the second ejection assembly 6 by the workpiece machined in machining hole; Five, transfer carrier 51 continues descending, first order bearing holes group 51-2 is aimed at the machining hole of machining spindle, then under the effect of first order ejection assembly 53, workpiece is headed in machining hole, first order knock-pin 53-2 and the first knock-pin 42 pairs of positions of workpiece in machining hole are utilized to position, the clamping device of having good positioning on aft-loaded airfoil main shaft clamps workpiece, first order knock-pin 53-2 resets, and the first knock-pin 42 departs from workpiece, finally carries out work pieces process; Six, transfer carrier 51 is up to loading station, and the 3rd locking device 55 unclamps under the effect of locking triggering block 55-3, and meanwhile, the workpiece in the bearing holes group 51-2 of the second level ejects by second level ejection assembly 54, makes workpiece fall in aggregate bin 71; Seven, when skid bed 31 resets and repeats charging action, the workpiece in aggregate bin 71 is dialled in tapping channel 73 by the material toggling sheet 73 on skid bed 31.Reciprocal with this.

Above-described specific embodiment; the purpose of this utility model, technical scheme and beneficial effect are further described; be understood that; the foregoing is only specific embodiment of the utility model; be not limited to the utility model; all within spirit of the present utility model and principle, any amendment made, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. an ignition tip puncher feed system, comprises frame and machining spindle, and machining spindle is provided with the machining hole for clamping workpiece; It is characterized in that: also comprise the feeding port be fixedly installed in frame, inductive head (2), charging unit (3), the first ejection assembly (4), transfer unit (5), the second ejection assembly (6) and the assembly that gathers materials (7); Described feeding port and inductive head (2) are oppositely arranged, and feeding port place is provided with first locking device (11) that can limit discharging; Described charging unit (3) comprises skid bed (31) and charging cylinder (32), skid bed (31) to be arranged between feeding port with inductive head (2) and to be connected with the output shaft of charging cylinder (32), and skid bed (31) navigates between feeding port and inductive head (2) under the effect of cylinder (32) of feeding; Described skid bed (31) is provided with the charging hole group (31-1) comprising more than one charging hole, each charging hole is equipped with and workpiece can be locked in interior the second locking device (33); Charging hole on described charging hole group (31-1) arranges along skid bed (31) moving direction; The first knock-pin (42) that described first ejection assembly (4) comprises the first cylinder (41) and is connected with the output shaft of the first cylinder (41), first knock-pin (42) matches with charging hole group (31-1), first ejection assembly (4) is arranged on the side of skid bed (31), and transfer unit (5) is arranged on the opposite side of skid bed (31); Described skid bed (31) place is loading station, and machining spindle place is processing stations; Described transfer unit (5) comprises transfer carrier (51), middle rotaring cylinder (52), first order ejection assembly (53) and second level ejection assembly (54); The output shaft of described middle rotaring cylinder (52) is fixedly connected with transfer carrier (51), and transfer carrier (51) moves under the effect of middle rotaring cylinder (52) between loading station and processing stations; Described transfer carrier (51) is provided with first order bearing holes group (51-1) and second level bearing holes group (51-2), first order bearing holes group (51-1) comprises more than one first order bearing holes, and second level bearing holes group (51-2) comprises more than one second level bearing holes; The quantity of described first order bearing holes is all equal with the quantity of charging hole with the quantity of second level bearing holes, and the quantity of machining spindle is equal with the quantity of charging hole; That described first order ejection assembly (53) is arranged on transfer carrier (51) is corresponding with first order bearing holes group (51-1) away from the side of skid bed (31), and it is corresponding with second level bearing holes group (51-2) away from the side of skid bed (31) that second level ejection assembly (54) is arranged on transfer carrier (51); Described first order ejection assembly (53) comprises the first order knock-pin (53-2) be connected with the output shaft of first order cylinder (53-1), and first order knock-pin (53-2) coordinates with first order bearing holes group (51-1); Described second level ejection assembly (54) comprises the second level knock-pin (54-2) be connected with the output shaft of second level cylinder (54-1), and second level knock-pin (54-2) coordinates with second level bearing holes group (51-2); Described each first order bearing holes is equipped with and workpiece can be locked in the 3rd interior locking device (55); When described transfer carrier (51) is in loading station, first order bearing holes group (51-1) and charging hole group (31-1) are in same plane and cooperatively interact, first order bearing holes group (51-1) and second level bearing holes group (51-2) in transfer carrier (51) moving process all can with the machining hole corresponding matching of each machining spindle; Workpiece in charging hole group (31-1) can head in the first order bearing holes group (51-1) of transfer carrier (51) through charging hole group (31-1) by described first knock-pin (42) under the first cylinder (41) effect; Described machining spindle is positioned between the second ejection assembly (6) and transfer unit (5); The second knock-pin (62) that described second ejection assembly (6) comprises the second cylinder (61) and is connected with the output shaft of the second cylinder (61), the second knock-pin (62) coordinates with the machining hole of each machining spindle; Workpiece in each machining hole can head in second level bearing holes group (51-2) of transfer carrier (51) through each machining hole by described second knock-pin (62) under the second cylinder (61) effect; The described assembly that gathers materials (7) is arranged on transfer carrier (51) below.

2. ignition tip puncher feed system according to claim 1, is characterized in that: described feeding port is connected with the discharge end of vibrating disk (1) and communicates.

3. ignition tip puncher feed system according to claim 2, is characterized in that: described in the assembly (7) that gathers materials comprise aggregate bin (71) and tapping channel (72); Described aggregate bin (71) is fixedly installed in frame, and when central vicarious carrier (51) is positioned at loading station, aggregate bin (71) is positioned at the below of second level bearing holes group (51-2); Described tapping channel (72) is communicated with the bottom of aggregate bin (71).

4. ignition tip puncher feed system according to claim 3, is characterized in that: described in the assembly (7) that gathers materials also comprise material toggling sheet (73); One end of described material toggling sheet (73) is fixedly installed on skid bed (31), and the other end stretches into aggregate bin (71) and presses close to the bottom of aggregate bin (71); The inwall of described aggregate bin (71) is provided with guiding blend stop, guides blend stop along the inwall of aggregate bin (71) to tapping channel (72) along stretching.

5. according to the ignition tip puncher feed system of Claims 1-4 described in one of them, it is characterized in that: described machining spindle is fixedly mounted on the below of frame, charging unit (3) is arranged on the top of machining spindle, and the second ejection assembly (6) is positioned at the below of the first ejection assembly (4); Described skid bed (31) moves along X-direction under the effect of charging cylinder (32); Described first knock-pin (42) and the second knock-pin (62) move along Y direction respectively under the effect of the first cylinder (41) and the second cylinder (61); Described transfer carrier (51) is moved along Z-direction under the effect of middle rotaring cylinder (52); Described first order knock-pin (53-2) and second level knock-pin (54-2) move along Y direction respectively under the effect of first order cylinder (53-1) and second level cylinder (54-1); Described machining hole, charging hole, first order bearing holes and second level bearing holes all extend along Y direction; Described first order bearing holes group (51-1) is arranged on the top of second level bearing holes group (51-2) and corresponding up and down.

6. ignition tip puncher feed system according to claim 5, is characterized in that: described charging unit (3) also comprises charging skid (34) and slide block; Described charging skid (34) is fixedly installed in frame, and skid is arranged in charging skid (34); Described skid bed (31) is fixedly installed on slide block, and charging cylinder (32) is fixedly installed in charging skid (34), and the output shaft of charging cylinder (32) is fixedly connected with slide block; Described transfer unit (5) also comprises the slide rail be fixedly installed in frame and the transfer slide block coordinated with slide rail, transfer carrier (51) is fixedly installed on transfer slide block, middle rotaring cylinder (52) is fixedly installed in frame, and the output shaft of middle rotaring cylinder (52) is fixedly connected with transfer slide block.

7. ignition tip puncher feed system according to claim 6, is characterized in that: described charging hole group (31-1) has three charging holes along skid bed (31) moving direction equidistant arrangement; Described first order bearing holes group (51-1) has three first order bearing holes along skid bed (31) moving direction equidistant arrangement; Described second level bearing holes group (51-2) has three second level bearing holes along skid bed (31) moving direction equidistant arrangement; Described first order bearing holes group (51-1) is arranged on the top of second level bearing holes group (51-2) and mutually up and down corresponding; Described frame is provided with three machining spindles along skid bed (31) moving direction equidistant arrangement; Spacing between described first order bearing holes is equal with the spacing between charging hole, and the spacing between the bearing holes of the second level is equal with the spacing between charging hole, and the spacing between machining hole is equal with the spacing between charging hole.

8. ignition tip puncher feed system according to claim 7, it is characterized in that: described first locking device (11) and the second locking device (33) are cylinder, the output shaft of cylinder can stretch in corresponding feeding port or charging hole; Described 3rd locking device (55) comprises locking sliding block (55-1), back-moving spring (55-2) and locking triggering block (55-3); Described transfer carrier (51) is provided with and extends and the chute be communicated with the first bearing holes inside along Z-direction; One end of described locking sliding block (55-1) is locking end, and the other end is trigger end; The locking end of described locking sliding block (55-1) stretches in the first bearing holes through chute, and trigger end stretches out through the upper end of chute therefrom vicarious carrier (51); The trigger end of described locking sliding block (55-1) is provided with position-limited block, and the trigger end that back-moving spring (55-2) is sleeved on locking sliding block (55-1) is positioned between position-limited block and transfer carrier (51); Described locking triggering block (55-3) to be fixedly installed in frame and to coordinate with the trigger end effect of locking sliding block (55-1).

9. ignition tip puncher feed system according to claim 8, is characterized in that: described transfer unit (5) also comprises the second transfer carrier (56); Described second transfer carrier (56) to be fixedly installed in frame and to be positioned between skid bed (31) and transfer carrier (51); Described second transfer carrier (56) is provided with the second transfer hole group (56-1) with charging hole group (31-1) corresponding matching; When described transfer carrier (56) moves to loading station, first order bearing holes group (51-1) and the second transfer hole group (56-1) corresponding matching; Described locking triggering block (55-3) is fixedly installed on the second transfer carrier (56), and locking triggering block (55-3) is positioned at the top of transfer carrier (51) and coordinates with the trigger end effect of locking sliding block (55-1).

10. ignition tip puncher feed system according to claim 9, is characterized in that: described charging cylinder (32) comprises and is respectively used to three charging holes controlled on charging hole group (31-1) cylinder, second cylinder and the 3rd of feeding of feeding with first of feeding port corresponding matching successively and feeds cylinder; Described charging skid (34) is provided with the travel switch for monitoring charging cylinder (32) stroke distances.