CN207381693U - High speed cam is cut and contact pin mechanism - Google Patents

Abstract

It is cut the utility model discloses a kind of High speed cam and contact pin mechanism, including rack, rack is equipped with cam set shaft, driven wheel is fixed with successively in camshaft shaft, contact pin cam A, contact pin cam B and cut cam C, servomotor passes through driving wheel, feed belt and driven wheel drive camshaft shaft to rotate, camshaft shaft drives and contact pin cam A respectively when rotating, the contact pin cam B and sliding block A for cutting cam C and being connected respectively by connecting rod with cam bawl, slide block B and sliding block C are carried out above and below corresponding or bilateral reciprocation, so as to provide power for the action of subsequent contact pin.The High speed cam is cut and contact pin mechanism provides power by a cam set, the movement travel of three sliding blocks of distribution and sequencing, even if can also act in order at high speeds, especially suitable for the contact pin under high-speed case, realize cut, contact pin is by a power source drive, there is the speed of service is fast, reliability is high, failure rate is low etc., it can be as the core component of all kinds of contact pin mechanisms.

Description

High speed cam is cut and contact pin mechanism

Technical field

The utility model belongs to automation processing technique field, particularly relates to a kind of High speed cam and cuts and contact pin Mechanism.

Background technology

At present, electronic product is fast-developing, and has largely popularized in daily life, simultaneously in electronic product Electronic component demand it is also increasing.But in existing technology, stitch is inserted into electronics by operating worker using manual mode In element, and stitch being completely inserted by mold, this manual mode of operation is unfavorable for the electronic product production of batch, and And need to waste excessive manpower, cause cost of labor high, and the electronic component quality produced cannot be guaranteed.In order to Work efficiency is improved, is emerged although existing automation is cut with contact pin mechanism, it cuts generally uses two independences with contact pin Structure realize that there are complicated, manufacture is of high cost, it is inconvenient for use the shortcomings of.

The content of the invention

In order to overcome drawbacks described above, the utility model provides that a kind of High speed cam is cut and contact pin mechanism, use are same A power source drive is cut to be operated with contact pin, is greatly simplified structure, is reduced cost, improves processing efficiency, and with operation speed The advantages such as degree is fast, reliability is high, failure rate is low.

The utility model in order to solve its technical problem used by technical solution be：A kind of High speed cam is cut and contact pin Mechanism including rack, is transversely equipped with cam set shaft, is fixed successively in the camshaft shaft on the upper end of the rack There are driven wheel, contact pin cam A, contact pin cam B and cut cam C, envelope is equipped with around its axle center on the end face of the contact pin cam A The the first limit sliding chutes A closed is equipped with the first limit sliding chutes B of closing on the end face of the contact pin cam B around its axle center, described It cuts and the first limit sliding chutes C of one week is provided around on the lateral surface of cam C；The rack is equipped with axis and the camshaft The parallel servomotor of shaft and cam A, B link rotating shaft, the output shaft of the servomotor are equipped with driving wheel, the master Driving wheel and driven wheel are sequentially connected by feed belt；It is additionally provided with cam link A and cam link B, the cam link A and convex One end of wheel connecting rod B is rotatably fixed on respectively on cam A, B link rotating shaft, and the middle part of the cam link A is fixed Equipped with being fixed with the first cam bawl B, the first cam bawl A in the middle part of the first cam bawl A, the cam link B Slip is limited in the first limit sliding chutes A of the contact pin cam A, and the first cam bawl B slips are limited in the contact pin In the first limit sliding chutes B of cam B；The other end of the cam link A is equipped with the second limit sliding chutes A, the cam link B's The other end is equipped with the second limit sliding chutes B；The rack one side is vertically respectively equipped with limiting slot A and limiting slot B, the limit The second cam bawl A can be equipped with along the upper end for the sliding block A, the sliding block A that the limiting slot A is slided up and down by being equipped in the slot A of position, The lower end of the sliding block A is fixedly connected with contact pin sheath, and the second cam bawl A slips are limited in the second limit sliding chutes A In；The slide block B that can be slided up and down along the limiting slot B is equipped in the limiting slot B, the upper end of the slide block B is equipped with second Cam bawl B, the lower end of the slide block B are fixedly connected with pin head, and the second cam bawl B slips are limited in second limit In the sliding slot B of position；

The lower section for cutting cam C is vertically respectively equipped with cam link C1 and cam link C2, the cam Connecting rod C1's is rotatably fixed on the rack centrally through cam link C1 rotation axis, and the center of the cam link C2 leads to It crosses cam link C2 rotation axis to be rotatably fixed on the rack, the upper end of the cam link C1 is equipped with the first cam bawl C, the first cam bawl C slip be limited in it is described cut in the first limit sliding chutes C of cam C, the cam link C1's Lower end and the upper end of the cam link C2 are hinged, and the lower end of the cam link C2 is equipped with the second limit sliding chutes C, the rack Horizontal concrete chute is equipped with, is equipped with sliding block C in the horizontal concrete chute, the sliding block C is equipped with the second cam bawl C, and described second Cam bawl C slips are limited in the second limit sliding chutes C.

As further improvement of the utility model, when the cam set shaft rotates, pass through the first cam bawl A /V and the second cam bawl A in the first limit sliding chutes A of the contact pin cam A is the of the cam link A /V in two limit sliding chutes A, it is past up and down that the cam link A drives the sliding block A vertically to be done in the limiting slot A Multiple movement；During the cam set shaft rotation, slided by the first cam bawl B in the first /V of the contact pin cam B The /V of /V and the second cam bawl B in the second limit sliding chutes B of the cam link B in slot B, it is described convex Wheel connecting rod B drives the slide block B vertically to pump in the limiting slot B.

As further improvement of the utility model, when the cam set shaft rotates, pass through the first cam bawl C In the /V cut in the first limit sliding chutes C of cam C and the second cam bawl C in the cam link C2 The second limit sliding chutes C in /V, the upper end of the cam link C1 swings and passes through the cam link C2 and drives The sliding block C moves reciprocatingly in the horizontal direction in the horizontal concrete chute.

As further improvement of the utility model, the lower end of the cam link C1 is equipped with open slot, and the cam connects The upper end of bar C2 is placed in the open slot, and adjusting screw is equipped on the left of the upper end of the wheel connecting rod C2, the wheel connecting rod C2's Compression spring is equipped on the right side of upper end.

As further improvement of the utility model, the closing that its axle center is equipped with is surround on the end face of the contact pin cam A The first limit sliding chutes A it is oval, the first /V of the closing being equipped on the end face of the contact pin cam B around its axle center is slided Slot B is oval, and the first limit sliding chutes C that the lateral surface for cutting cam C was equipped with round is S-shaped.

As further improvement of the utility model, it is connected on the sliding block C and cuts punch-pin, separately set in the rack Cut cavity plate, the punch-pin that cuts cuts cavity plate cooperation by cut end to be cut from end under the driving of the sliding block C with described It cuts on son row and is sent to contact pin position.

As further improvement of the utility model, the pin head drives under the driving of the slide block B and is cut Terminal move downwardly to the terminal and contacted with the shrapnel of the contact pin sheath, the contact pin sheath is in the drive of the sliding block A It is moved under dynamic together with the pin head, after the terminal head portion is inserted into underlying pcb board, the contact pin sheath is stopped It only moves, the pin head continues movement until the terminal is squeezed into the pcb board.

As further improvement of the utility model, after terminal insertion, the pin head and contact pin sheath together to Upper movement resets.

The beneficial effects of the utility model are：The High speed cam is cut and contact pin mechanism is provided by a cam set and moved Power according to the power of cam mechanism, distributes movement travel and the sequencing of three sliding blocks, even if also at high speeds Action in order, especially suitable for the contact pin in the case of telling, realize cut, contact pin is by a power source drive, there is operation The advantages such as speed is fast, reliability is high, failure rate is low, can be as the core component of all kinds of contact pin mechanisms.

Description of the drawings

Fig. 1 is the utility model structure diagram；

Fig. 2 is another viewing angle constructions schematic diagram of the utility model；

Fig. 3 is the 3rd viewing angle constructions schematic diagram of the utility model.

With reference to attached drawing, make the following instructions：

1 --- rack；2 --- camshaft shaft；

3 --- driven wheel；4 --- contact pin cam A；

5 --- contact pin cam B；6 --- cut cam C；

41 --- the first limit sliding chutes A；61 --- the first limit sliding chutes C；

7 --- servomotor；8 --- cam A, B link rotating shaft；

9 --- driving wheel；10 --- feed belt；

11 --- cam link A；12 --- cam link B；

13 --- the first cam bawl A；14 --- the second limit sliding chutes A；

15 --- sliding block A；16 --- the second cam bawl A；

17 --- contact pin sheath；18 --- slide block B；

19 --- pin head；20 --- cam link C1；

21 --- cam link C2；22 --- cam link C1 rotation axis；

23 --- cam link C2 rotation axis；24 --- the first cam bawl C；

25 --- sliding block C；26 --- the second cam bawl C；

27 --- open slot；28 --- adjusting screw；

29 --- compression spring；100 --- terminal block；

101 --- cut punch-pin

Specific embodiment

Below in conjunction with attached drawing, elaborate to a preferred embodiment of the utility model.But the guarantor of the utility model Shield scope is not limited to following embodiments, i.e., is made in every case with present utility model application the scope of the claims and description simple Equivalent changes and modifications all still belongs within the utility model patent covering scope.

It refering to Fig. 1-3, is cut for a kind of High speed cam described in the utility model and contact pin mechanism, including rack 1, rack Cam set shaft 2 is transversely equipped on 1 upper end, driven wheel 3, contact pin cam A are fixed with successively in the camshaft shaft 4th, contact pin cam B 5 and cam C 6 is cut, is equipped with the first /V of closing on the end face of the contact pin cam A around its axle center Sliding slot A 41 is equipped with the first limit sliding chutes B of closing on the end face of the contact pin cam B around its axle center, described to cut cam C Lateral surface on be provided around the first limit sliding chutes C 61 of one week；The rack is put down equipped with axis with the camshaft shaft Capable servomotor 7 and cam A, B link rotating shaft 8, the output shaft of the servomotor are equipped with driving wheel 9, the active Wheel and driven wheel are sequentially connected by feed belt 10.

Being additionally provided with one end of cam link A11 and cam link B12, the cam link A and cam link B can turn respectively It is dynamic to be fixed on cam A, B link rotating shaft, the first cam bawl A13, institute are fixed in the middle part of the cam link A It states and the first cam bawl B is fixed in the middle part of cam link B, it is convex that the first cam bawl A slips are limited in the contact pin In the first limit sliding chutes A for taking turns A, the first cam bawl B slips are limited in the first limit sliding chutes B of the contact pin cam B In；The other end of the other end of the cam link A equipped with the second limit sliding chutes A14, the cam link B is equipped with the second /V Sliding slot B.

The rack one side be vertically respectively equipped in limiting slot A and limiting slot B, the limiting slot A be equipped with can The upper end of the sliding block A15, the sliding block A that are slided up and down along the limiting slot A are equipped with the second cam bawl A 16, the sliding block A Lower end be fixedly connected with contact pin sheath 17, the second cam bawl A slips are limited in the second limit sliding chutes A；It is described The slide block B 18 that can be slided up and down along the limiting slot B is equipped in limiting slot B, the upper end of the slide block B is equipped with the second cam Roller B, the lower end of the slide block B are fixedly connected with pin head 19, and the second cam bawl B slips are limited in second /V In sliding slot B.

The lower section for cutting cam C is vertically respectively equipped with cam link C120 and cam link C2 21, described Cam link C1's is rotatably fixed on the rack centrally through cam link C1 rotation axis 22, the cam link C2's It is rotatably fixed on the rack centrally through cam link C2 rotation axis 23, the upper end of the cam link C1 is equipped with first Cam bawl C 24, the first cam bawl C slip be limited in it is described cut in the first limit sliding chutes C of cam C, it is described convex The lower end and the upper end of the cam link C2 of wheel connecting rod C1 is hinged, and the lower end of the cam link C2 is equipped with the second limit sliding chutes C, the rack are equipped with horizontal concrete chute, sliding block C 25 are equipped in the horizontal concrete chute, and the sliding block C is rolled equipped with the second cam Sub- C 26, the second cam bawl C slips are limited in the second limit sliding chutes C.

During the cam set shaft rotation, slided by the first cam bawl A in the first /V of the contact pin cam A The /V of /V and the second cam bawl A in the second limit sliding chutes A of the cam link A in slot A, it is described convex Wheel connecting rod A drives the sliding block A vertically to pump in the limiting slot A；The cam set shaft rotation When, pass through /Vs of the first cam bawl B in the first limit sliding chutes B of the contact pin cam B and second cam /Vs of the roller B in the second limit sliding chutes B of the cam link B, the cam link B drive the slide block B along vertically Direction pumps in the limiting slot B.

During the cam set shaft rotation, slided by the first cam bawl C in first /V for cutting cam C The /V of /V and the second cam bawl C in the second limit sliding chutes C of the cam link C2 in slot C, it is described The upper end of cam link C1, which swings and passes through the cam link C2, drives the sliding block C in the horizontal concrete chute along water Square to moving reciprocatingly.

The lower end of the cam link C1 is equipped with open slot 27, and the upper end of the cam link C2 is placed in the open slot It is interior, adjusting screw (28) is equipped on the left of the upper end of the wheel connecting rod C2, compression spring is equipped on the right side of the upper end of the wheel connecting rod C2 29。

First limit sliding chutes A of the closing being equipped on the end face of the contact pin cam A around its axle center is oval, described First limit sliding chutes B of the closing being equipped on the end face of contact pin cam B around its axle center is oval, described to cut cam C's The first limit sliding chutes C that lateral surface was equipped with round is S-shaped.

It is connected on the sliding block C and cuts punch-pin, be separately equipped in the rack and cut cavity plate, the punch-pin that cuts is in institute It states and cuts cavity plate cooperation with described under the driving of sliding block C and cut from terminal block by cut end to be cut and be sent to contact pin position It puts.

The pin head drives the terminal being cut to move downwardly to the terminal and institute under the driving of the slide block B The shrapnel contact of contact pin sheath is stated, the contact pin sheath moves under the driving of the sliding block A together with the pin head, works as institute State after terminal head portion is inserted into underlying pcb board, the contact pin sheath stop motion, the pin head continue movement until The terminal is squeezed into the pcb board.After the terminal insertion, the pin head and contact pin sheath move upwardly together again Position.

The High speed cam cut and the operation principle of contact pin mechanism and process it is as follows：

Servomotor transmits power to cam set shaft by synchronous belt, and cam set shaft can drive contact pin cam A, contact pin Cam B, cut cam and rotate together.When cam set shaft rotates, each cam can drive its corresponding connecting rod to make reciprocally swinging, Connecting rod drives its corresponding sliding block to do reciprocating linear motion again.

Wherein, the path of the first cam bawl A on cam link A is limited in the first limit sliding chutes A of contact pin cam A Interior, when contact pin cam A rotates, the first cam bawl A (can be slided by regulation path by the first /V of contact pin cam A Slot A is constrained) reciprocating (being similar to move up and down), cam link A is driven to make reciprocally swinging around cam A, B link rotating shaft Movement；Sliding block A can only vertically be moved up and down by mechanism limitation, and the path of the second cam bawl A on sliding block A is limited System is in the second limit sliding chutes A of cam link A, and when cam link A makees oscillating traverse motion, the second cam bawl A can be by Provide that reciprocal (upper and lower) movement is made in path (being constrained by the second limit sliding chutes A of cam link A), band movable slider A is vertical along figure Direction pumps.

The motion mode of contact pin cam B is similar to contact pin cam A to principle, does not do excessive description herein, the two is due to inserting The sliding slot of needle cam A, B are different, and the reciprocating stroke and time for causing the two slide block movement also differ, but the two presses respective rule Rule action in order provides power for the action of subsequent contact pin.

It is common by cam link C1 and cam link C2 that cam C rotations, which are cut, with the movable slider C structures moved back and forth It realizes, since cam link C1 is rotatably fixed in rack by cam link C1 rotation axis, the center of cam link C2 It is rotatably fixed on by cam link C2 rotation axis in rack, the upper end of cam link C1 is equipped with the first cam bawl C 24, First cam bawl C slips are limited in the first limit sliding chutes C for cutting cam C, the lower end of cam link C1 and cam link The upper end of C2 is hinged, and the lower end connection sliding block C25 of cam link, sliding block C slip are limited in the horizontal concrete chute in rack, Therefore, when cutting cam C and being rotated under the drive of cam set shaft, the path of the first cam bawl C is limited in contact pin cam C The first limit sliding chutes C in, when contact pin cam C rotates, the first cam bawl C by the first limit sliding chutes C constraint by rule It is reciprocating (being similar to side-to-side movement) to determine path, cam link C1 is driven to make around cam link C1 rotation axis toward physical pendulum Dynamic movement；Cam link C1 drives cam link C2 to make oscillating traverse motion around cam link C2 rotation axis again, and adjusting screw can With adjust cam link C2 around cam link C2 rotation axis rotate clockwise when maximum angle, i.e., when sliding block C is to left movement Maximum displacement (for adjusting the launching position after terminal is cut), compression spring can ensure cam link C2 always with adjusting spiral shell Nail joint is touched；Sliding block C is limited by mechanism can only make side-to-side movement in the horizontal direction, the path quilt of the second cam bawl C on sliding block C It is limited in the second limit sliding chutes C of cam link C2, when cam link C2 makees oscillating traverse motion, the second cam bawl C Reciprocal (left and right) movement can be made by regulation path (being constrained by the second limit sliding chutes C of cam link A), with movable slider C along level Make reciprocal side-to-side movement in direction.

The mechanism is mainly used for pin machine, and at work, the feed mechanism of pin machine send terminal block 100 to cutting position It puts, servomotor driving cam group shaft rotates, and cutting cam C rotations by drive, band movable slider C drives cut punch-pin 101 again With cutting cavity plate cooperation, terminal is cut from terminal block, and is sent to contact pin position.In contact pin position, contact pin sheath It is driven by sliding block A, pin head is driven by slide block B, and sliding block A and the power of slide block B are provided by cam mechanism, so logical Their common cooperation is crossed, it can be achieved that cutting for terminal is integrally realized with contact pin.

It can be seen that the High speed cam is cut and contact pin mechanism provides power by a cam set, according to cam mechanism Power, distribute movement travel and the sequencing of three sliding blocks, it is especially suitable even if can also act in order at high speeds For the contact pin under high-speed case, realize cut, contact pin is by a power source drive, have the speed of service is fast, reliability is high, The advantages such as failure rate is low, can be as the core component of all kinds of contact pin mechanisms.

Claims (8)

1. a kind of High speed cam is cut and contact pin mechanism, including rack (1), it is characterised in that：Edge on the upper end of the rack Cam set shaft (2) is transversely provided with, it is convex to be fixed with driven wheel (3), contact pin cam A (4), contact pin in the camshaft shaft successively It takes turns B (5) and cuts cam C (6), be equipped with the first limit sliding chutes A of closing on the end face of the contact pin cam A around its axle center (41), the first limit sliding chutes B of closing is equipped on the end face of the contact pin cam B around its axle center, it is described to cut the outer of cam C The first limit sliding chutes C (61) of one week is provided around on side；It is parallel with the camshaft shaft that the rack is equipped with axis Servomotor (7) and cam A, B link rotating shaft (8), the output shaft of the servomotor is equipped with driving wheel (9), described Driving wheel and driven wheel are sequentially connected by feed belt (10)；It is additionally provided with cam link A (11) and cam link B (12), institute The one end for stating cam link A and cam link B is rotatably fixed on respectively on cam A, B link rotating shaft, the cam The first cam bawl A (13) is fixed in the middle part of connecting rod A, the first cam bawl is fixed in the middle part of the cam link B B, the first cam bawl A slips are limited in the first limit sliding chutes A of the contact pin cam A, the first cam bawl B Slip is limited in the first limit sliding chutes B of the contact pin cam B；The other end of the cam link A is slided equipped with the second /V The other end of slot A (14), the cam link B are equipped with the second limit sliding chutes B；The rack one side is vertically respectively equipped with The sliding block A (15) that can be slided up and down along the limiting slot A, the cunning are equipped in limiting slot A and limiting slot B, the limiting slot A The upper end of block A is equipped with the second cam bawl A (16), and the lower end of the sliding block A is fixedly connected with contact pin sheath (17), and described second is convex The A slips of wheel roller are limited in the second limit sliding chutes A；Being equipped in the limiting slot B can glide along the limiting slot B Dynamic slide block B (18), the upper end of the slide block B are equipped with the second cam bawl B, and the lower end of the slide block B is fixedly connected with pin head (19), the second cam bawl B slips are limited in the second limit sliding chutes B；The lower section for cutting cam C is along vertical Direction is respectively equipped with cam link C1 (20) and cam link C2 (21), the cam link C1 centrally through cam link C1 Rotation axis (22) is rotatably fixed on the rack, the cam link C2 centrally through cam link C2 rotation axis (23) It is rotatably fixed on the rack, the upper end of the cam link C1 is equipped with the first cam bawl C (24), first cam Roller C slips are cut described in being limited in the first limit sliding chutes C of cam C, lower end and the cam of the cam link C1 The upper end of connecting rod C2 is hinged, and the lower end of the cam link C2 is equipped with the second limit sliding chutes C, and the rack is equipped with laterally sliding Slot, the horizontal concrete chute is interior to be equipped with sliding block C (25), and the sliding block C is equipped with the second cam bawl C (26), second cam Roller C slips are limited in the second limit sliding chutes C.

2. High speed cam according to claim 1 is cut and contact pin mechanism, it is characterised in that：The cam set shaft rotation When, pass through /Vs of the first cam bawl A in the first limit sliding chutes A of the contact pin cam A and second cam /Vs of the roller A in the second limit sliding chutes A of the cam link A, the cam link A drive the sliding block A along vertical Direction pumps in the limiting slot A；During the cam set shaft rotation, existed by the first cam bawl B /V and the second cam bawl B in the first limit sliding chutes B of the contact pin cam B is the second of the cam link B /V in limit sliding chutes B, the cam link B drive the slide block B vertically to be done up and down reciprocatingly in the limiting slot B Movement.

3. High speed cam according to claim 1 is cut and contact pin mechanism, it is characterised in that：The cam set shaft rotation When, by the first cam bawl C in the /V cut in the first limit sliding chutes C of cam C and described second convex /Vs of the roller C in the second limit sliding chutes C of the cam link C2 is taken turns, the upper end of the cam link C1 swings simultaneously By the cam link C2 sliding block C is driven to move reciprocatingly in the horizontal direction in the horizontal concrete chute.

4. High speed cam according to claim 1 is cut and contact pin mechanism, it is characterised in that：Under the cam link C1 End is equipped with open slot (27), and the upper end of the cam link C2 is placed in the open slot, on the left of the upper end of the wheel connecting rod C2 Equipped with adjusting screw (28), compression spring (29) is equipped on the right side of the upper end of the wheel connecting rod C2.

5. High speed cam according to claim 1 is cut and contact pin mechanism, it is characterised in that：The end of the contact pin cam A First limit sliding chutes A of the closing being equipped on face around its axle center is oval, around its axis on the end face of the contact pin cam B First limit sliding chutes B of the closing that the heart is equipped with is oval, that the lateral surface for cutting cam C was equipped with round One limit sliding chutes C is S-shaped.

6. High speed cam according to claim 1 is cut and contact pin mechanism, it is characterised in that：It is connected on the sliding block C Punch-pin is cut, is separately equipped in the rack and cuts cavity plate, the punch-pin that cuts is cut under the driving of the sliding block C with described Cut end to be cut is cut and is sent to contact pin position by cavity plate cooperation from terminal block.

7. High speed cam according to claim 6 is cut and contact pin mechanism, it is characterised in that：The pin head is in the cunning The terminal being cut is driven to move downwardly to the terminal under the driving of block B to contact with the shrapnel of the contact pin sheath, it is described Contact pin sheath moves under the driving of the sliding block A together with the pin head, when terminal head portion insertion is underlying After in pcb board, the contact pin sheath stop motion, the pin head continues movement until the terminal is squeezed into the pcb board It is interior.

8. High speed cam according to claim 7 is cut and contact pin mechanism, it is characterised in that：After the terminal insertion, institute It states pin head and contact pin sheath moves upwardly together reset.