CN218336578U - FPC automatic conversion SMT fixture device - Google Patents

Abstract

The utility model relates to a circuit board processing technology field relates to a FPC automatic conversion SMT fixture device. The utility model discloses a material loading transfer chain carries the carrier that loads the product to on the material loading locating component, carry the unloading via the unloading transfer chain after the mechanism carries the product to the new carrier on the spacing subassembly, the transport subassembly carries the carrier on the material loading locating component to circulate to next process on the unloading locating component, it conveniently converts SMT carrier, can satisfy the product and automatically convert different carriers between different equipment, greatly improved the efficiency of carrier conversion, accomplish the butt joint with whole assembly line, improve the degree of automation of whole line, save time, the input of reduce cost; meanwhile, when the carrier is replaced, the carrier does not need to be adjusted and corrected repeatedly, and the consistency of the carrier before and after replacement is guaranteed.

Description

FPC automatic conversion SMT fixture device

Technical Field

The utility model relates to a circuit board processing technology field relates to a FPC automatic conversion SMT fixture device.

Background

In the prior art, a process of printing solder paste on a pad of a Printed Circuit Board (PCB) or a flexible printed circuit board (FPC) is performed in the manufacturing process, and the position of the pad and the hole of the printed circuit board requires accurate positioning, so that the PCB or the FPC often needs to be embedded into a carrier and then enter the next process. The current conversion carrier is generally accomplished by manual operation, needs personnel to get by hand and puts the cover plate and carry out the counterpoint operation, leads to productivity inefficiency, and staff's misoperation simultaneously easily causes the cover plate to warp/damage the problem, is unfavorable for enterprise's production.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a convenience changes SMT carrier, accomplishes the butt joint with whole assembly line, improves the degree of automation of whole line, saves time, FPC automatic switch SMT fixture device of reduce cost's input.

In order to solve the technical problem, the utility model provides a technical scheme that its technical problem adopted is:

an FPC automatic conversion SMT fixture device comprises a carrier conveying mechanism and a transfer mechanism, wherein a conveying mechanism used for conveying products is arranged between the carrier conveying mechanism and the transfer mechanism, the carrier conveying mechanism comprises a feeding conveying line, a conveying assembly, a feeding positioning assembly and a discharging positioning assembly, the feeding positioning assembly and the discharging positioning assembly are respectively arranged at two ends of the conveying assembly, and the feeding conveying line is connected with the feeding positioning assembly;

the transfer mechanism comprises a blanking conveying line, a limiting assembly and a driving assembly, the limiting assembly is in driving connection with the driving assembly, the blanking conveying line is communicated with the limiting assembly, a carrier loaded with a product is conveyed to the blanking positioning assembly by the feeding conveying line, the product is conveyed to a new carrier on the limiting assembly by the conveying mechanism and then is blanked by the blanking conveying line, and the carrier on the feeding positioning assembly is conveyed to the blanking positioning assembly by the conveying assembly and then is transferred to the next process.

Furthermore, the material loading transfer chain with unloading transfer chain mechanism is the same, the material loading transfer chain includes the carriage, be provided with two delivery tracks on the carriage, be provided with the delivery wheel on the delivery track, the delivery wheel passes through conveyor belt and connects, the delivery wheel is connected with the conveyor motor drive, connects through drive shaft drive between two delivery tracks, conveyor motor with drive shaft drive is connected.

Furthermore, one of the two conveying tracks is fixed on the conveying frame, a sliding rod is arranged on the conveying frame, a sliding sleeve is arranged on the other one of the two conveying tracks in a penetrating mode, and the sliding sleeve is connected with the sliding rod through a bolt.

Furthermore, the limiting assembly, the feeding positioning assembly and the discharging positioning assembly are the same in structure, the feeding positioning assembly comprises a positioning frame and a lifting component, positioning frames are arranged on two sides of the positioning frame, transmission rollers are arranged on two sides of the positioning frame and connected through a transmission belt, the transmission rollers are in driving connection with a transmission motor, the lifting component is arranged between the two positioning frames, and the carriers on the transmission belt are subjected to reciprocating lifting motion through the lifting component.

Furthermore, the lifting component comprises a lifting cylinder and a lifting plate, the lifting plate is in driving connection with the lifting cylinder, the lifting cylinder is arranged on the positioning frame, and a guiding telescopic rod is arranged between the lifting plate and the positioning frame.

Further, the feeding positioning assembly further comprises two limiting parts, the two limiting parts are arranged on two sides of the lifting part respectively, each limiting part comprises a limiting cylinder and a limiting plate, the limiting cylinders are arranged on the positioning frames, and the limiting plates are in driving connection with the limiting cylinders.

Furthermore, the conveying assembly comprises a conveying frame, a transmission linear module is arranged on the conveying frame, a conveying lifting cylinder is arranged on the transmission linear module, a conveying plate is arranged on the conveying lifting cylinder, and a vacuum sucker is arranged on the conveying plate.

Further, the carrying mechanism comprises a carrying frame, a carrying linear module is arranged on the carrying frame, a carrying lifting cylinder is arranged on the carrying linear module, a carrying plate is arranged on the carrying lifting cylinder, and a plurality of vacuum suction nozzles are uniformly arranged on the conveying plate.

Furthermore, the driving assembly comprises a driving linear module and a driving slide rail, the driving linear module and the driving slide rail are arranged in parallel, a driving plate is arranged on the driving linear module, the limiting assembly is arranged on the driving plate, a driving slide block is arranged on the driving plate, and the driving slide block is arranged on the driving slide rail in a sliding manner.

Further, the transfer mechanism still includes the centre gripping subassembly, the centre gripping subassembly includes the holding frame and sets up jacking cylinder on the holding frame, the last crane that is equipped with of holding frame, the crane with jacking cylinder drive is connected, be provided with the diaphragm on the crane, the diaphragm both ends all are provided with the centre gripping cylinder, centre gripping cylinder piston rod end is provided with the clamping jaw.

The utility model has the advantages that:

the utility model discloses a material loading transfer chain carries the carrier that loads the product to on the material loading locating component, carry the unloading via the unloading transfer chain after the mechanism carries the product to the new carrier on the spacing subassembly, the transport subassembly carries the carrier on the material loading locating component to circulate to next process on the unloading locating component, it conveniently converts SMT carrier, can satisfy the product and automatically convert different carriers between different equipment, greatly improved the efficiency of carrier conversion, accomplish the butt joint with whole assembly line, improve the degree of automation of whole line, save time, the input of reduce cost; meanwhile, when the carrier is replaced, the carrier does not need to be adjusted and corrected repeatedly, and the consistency of the carrier before and after replacement is guaranteed.

Drawings

Fig. 1 is the utility model discloses a FPC automatic switch SMT fixture device sketch map.

Fig. 2 is the utility model discloses a material loading transfer chain schematic diagram.

Fig. 3 is a schematic view of the feeding positioning assembly of the present invention.

Fig. 4 is a schematic view of the lifting member of the present invention.

Fig. 5 is a perspective view of the present invention.

Fig. 6 is a schematic view of the clamping assembly of the present invention.

The numbering in the figures illustrates: 1. a feeding conveyor line; 11. a carriage; 12. a conveying track; 13. a conveyor belt; 14. a delivery wheel; 15. a conveying motor; 16. a drive shaft; 17. a slide bar; 2. a feeding positioning assembly; 21. A positioning frame; 22. a positioning frame; 23. a transfer belt; 24. a transmission motor; 25. a limiting component; 26. a limiting cylinder; 27. a limiting block; 28. a lifting plate; 281. a lifting cylinder; 282. guiding the telescopic rod; 3. a blanking positioning component; 4. a transfer assembly; 41. a transmission line module; 42. a conveying lifting cylinder; 43. a transfer plate; 5. a blanking conveying line; 6. a limiting component; 7. a carrying mechanism; 71. carrying the linear module; 72. a carrying lifting cylinder; 73. a carrying plate; 8. a clamping assembly; 81. a jacking cylinder; 82. a clamping frame; 83. a lifting frame; 84. a cross bar; 85. a clamping cylinder; 86. a clamping jaw; 9. a driving linear module; 91. driving the slide rail; 92. a drive plate;

Detailed Description

The present invention is further described with reference to the following drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

Referring to fig. 1, an FPC automatic conversion SMT fixture device includes a carrier conveying mechanism and a transfer mechanism, a conveying mechanism 7 for conveying products is provided between the carrier conveying mechanism and the transfer mechanism, the carrier conveying mechanism includes a feeding conveying line 1, a conveying assembly 4, a feeding positioning assembly 2 and a discharging positioning assembly 3, the feeding positioning assembly 2 and the discharging positioning assembly 3 are respectively provided at two ends of the conveying assembly 4, and the feeding conveying line 1 is connected with the feeding positioning assembly 2;

the transfer mechanism comprises a discharging conveying line 5, a limiting assembly 6 and a driving assembly, the limiting assembly 6 is in driving connection with the driving assembly, the discharging conveying line 5 is communicated with the limiting assembly 6, a carrier loaded with a product is conveyed to the discharging positioning assembly 2 by the feeding conveying line 1, the product is conveyed to a new carrier on the limiting assembly 6 by the conveying mechanism 7 and then discharged by the discharging conveying line 5, and the carrier on the discharging positioning assembly 2 is conveyed to the discharging positioning assembly 3 by the conveying assembly 4 and flows to the next process.

The utility model discloses a material loading transfer chain 1 carries the carrier that loads the product to on material loading locating component 2, carry mechanism 7 with the product carry to the spacing subassembly 6 new carrier after via unloading transfer chain 5 unloading, transport component 4 carries the carrier on the material loading locating component 2 to circulate to next process on unloading locating component 3, it conveniently converts SMT carrier, can satisfy the product and automatically convert different carriers between different equipment, greatly improve the efficiency of carrier conversion, accomplish the butt joint with whole assembly line, improve the degree of automation of whole line, save time, the input of reduce cost; meanwhile, when the carrier is replaced, the carrier does not need to be adjusted and corrected repeatedly, and the consistency of the carrier before and after replacement is guaranteed.

The feeding conveying line 1 is the same as the blanking conveying line 5, the feeding conveying line 1 comprises a conveying frame 11, two conveying rails 12 are arranged on the conveying frame 11, conveying wheels 14 are arranged on the conveying rails 12, the conveying wheels 14 are connected through conveying belts 13, the conveying wheels 14 are in driving connection with a conveying motor 15, the two conveying rails 12 are in driving connection through a driving shaft 16, and the conveying motor 15 is in driving connection with the driving shaft 16.

One conveying track 12 of the two conveying tracks 12 is fixed on the conveying frame 11, a sliding rod 17 is arranged on the conveying frame 11, a sliding sleeve is arranged on the other conveying track 12 of the two conveying tracks 12, the sliding rod 17 penetrates through the sliding sleeve, and the sliding sleeve is connected with the sliding rod 17 through a bolt.

Spacing subassembly 6, material loading locating component 2 and 3 structures of unloading locating component are the same, material loading locating component 2 includes locating rack 21 and lifting unit spare, locating rack 21 both sides are provided with posting 22, posting 22 both sides are provided with the transmission running roller, the transmission running roller passes through transmission belt 23 and connects, the transmission running roller is connected with transmission motor 24 drive, lifting unit spare sets up between two posting 22, through lifting unit spare is right carrier on the transmission belt 23 carries out reciprocating motion.

The limiting assembly 6, the feeding positioning assembly 2 and the discharging positioning assembly 3 are identical in structure, so that when the carrier is replaced, the carrier does not need to be adjusted and corrected repeatedly, and the consistency of the carrier before and after replacement is guaranteed.

The lifting component includes lift cylinder 281 and lifter plate 28, lifter plate 28 with lift cylinder 281 drive connection, lift cylinder 281 set up on the locating rack 21, lifter plate 28 with be provided with direction telescopic link 282 between the locating rack 21.

The feeding positioning assembly 2 further comprises two limiting components 25, the two limiting components 25 are respectively arranged on two sides of the lifting component, each limiting component 25 comprises a limiting cylinder 26 and a limiting plate, the limiting cylinders 26 are arranged on the positioning frames 21, and the limiting plates are in driving connection with the limiting cylinders 26.

The limiting plate moves up and down under the driving of the limiting cylinder 26, can achieve the limiting effect when standing upright, and is simple in structure and accurate in limiting.

The conveying assembly 4 comprises a conveying frame, a transmission straight line module 41 is arranged on the conveying frame, a conveying lifting cylinder 42 is arranged on the conveying straight line module, a conveying plate 43 is arranged on the conveying lifting cylinder 42, and a vacuum chuck is arranged on the conveying plate 43.

The carrying mechanism 7 comprises a carrying frame, a carrying linear module 71 is arranged on the carrying frame, a carrying lifting cylinder 72 is arranged on the carrying linear module 71, a carrying plate 73 is arranged on the carrying lifting cylinder 72, and a plurality of vacuum suction nozzles are uniformly arranged on the conveying plate 43.

The driving assembly comprises a driving linear module 9 and a driving slide rail 91, the driving linear module 9 and the driving slide rail are arranged in parallel, a driving plate 92 is arranged on the driving linear module 9, the limiting assembly 6 is arranged on the driving plate 92, a driving slide block is arranged on the driving plate 92, and the driving slide block is arranged on the driving slide rail 91 in a sliding manner.

The transfer mechanism still includes centre gripping subassembly 8, centre gripping subassembly 8 includes that centre gripping frame 82 and setting are in jacking cylinder 81 on the centre gripping frame 82, it is equipped with crane 83 to slide on the centre gripping frame 82, crane 83 with jacking cylinder 81 drive connection, be provided with the diaphragm on the crane 83, the diaphragm both ends all are provided with centre gripping cylinder 85, centre gripping cylinder 85 piston rod end is provided with clamping jaw 86.

Specifically, jacking cylinder 81 drives crane 83 and moves down, and the cylinder drives two clamping jaws 86 and adds in step and hold new carrier and product on spacing subassembly 6, guarantees the position of product on new carrier, and the location is accurate, and is efficient, and occupation space is little, and expansibility is strong, and application scope is wide.

Application process

On material loading transfer chain 1 carried the carrier that has the product to material loading locating component 2, drive assembly drive the loading have new carrier spacing subassembly 6 move to with material loading locating component 2's relative position, the limiting plate carries on spacingly to the carrier under spacing cylinder 26 drives, it is right through the lifting unit carrier on the transmission belt 23 carries out the jacking, and the product of transport board 73 on to the carrier snatchs, and the straight line module 71 of transport carries the product to spacing subassembly 6 on, and the product is via unloading transfer chain 5 unloading behind the new carrier, and conveying lift cylinder 42 drives conveying plate 43 and snatchs the carrier, and the straight line module 41 of transmission drives the carrier and moves to next process on carrying to unloading locating component 3.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitution or transformation made by the technical personnel in the technical field on the basis of the utility model is within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (10)

1. An SMT (surface mount technology) clamp device for automatic conversion of FPC (flexible printed circuit) is characterized by comprising a carrier conveying mechanism and a transfer mechanism, wherein a conveying mechanism for conveying products is arranged between the carrier conveying mechanism and the transfer mechanism, the carrier conveying mechanism comprises a feeding conveying line, a conveying assembly, a feeding positioning assembly and a discharging positioning assembly, the feeding positioning assembly and the discharging positioning assembly are respectively arranged at two ends of the conveying assembly, and the feeding conveying line is connected with the feeding positioning assembly;

the transfer mechanism comprises a discharging conveying line, a limiting assembly and a driving assembly, the limiting assembly is in driving connection with the driving assembly, the discharging conveying line is communicated with the limiting assembly, a carrier loaded with a product is conveyed to the discharging positioning assembly by the feeding conveying line, the product is conveyed to a new carrier on the limiting assembly by the conveying mechanism and then discharged by the discharging conveying line, and the carrier on the feeding positioning assembly is conveyed to the discharging positioning assembly by the conveying assembly and then flows to the next process.

2. The FPC automatic conversion SMT fixture device of claim 1, wherein the feeding conveyor line is identical to the blanking conveyor line mechanism, the feeding conveyor line comprises a conveyor frame, two conveyor rails are arranged on the conveyor frame, conveyor wheels are arranged on the conveyor rails, the conveyor wheels are connected through a conveyor belt, the conveyor wheels are in driving connection with a conveyor motor, the two conveyor rails are in driving connection through a driving shaft, and the conveyor motor is in driving connection with the driving shaft.

3. An FPC automatic conversion SMT fixture device according to claim 2, wherein one of the two conveying rails is fixed to the conveying frame, a slide rod is disposed on the conveying frame, a slide sleeve is disposed on the other one of the two conveying rails, the slide rod is disposed on the slide sleeve in a penetrating manner, and the slide sleeve is connected with the slide rod through a bolt.

4. An SMT (surface mount technology) automatic transfer fixture device according to claim 1, wherein the limiting assembly, the feeding positioning assembly and the discharging positioning assembly are identical in structure, the feeding positioning assembly comprises a positioning frame and a lifting assembly, positioning frames are arranged on two sides of the positioning frame, conveying rollers are arranged on two sides of the positioning frame, the conveying rollers are connected through a conveying belt, the conveying rollers are in driving connection with a conveying motor, the lifting assembly is arranged between the two positioning frames, and carriers on the conveying belt are subjected to reciprocating lifting movement through the lifting assembly.

5. An SMT device according to claim 4, wherein the lifting component comprises a lifting cylinder and a lifting plate, the lifting plate is in driving connection with the lifting cylinder, the lifting cylinder is disposed on the positioning frame, and a guiding telescopic rod is disposed between the lifting plate and the positioning frame.

6. An FPC automatic conversion SMT fixture device according to claim 4, wherein the feeding positioning assembly further comprises two limiting parts, the two limiting parts are respectively disposed on two sides of the lifting part, the limiting parts comprise a limiting cylinder and a limiting plate, the limiting cylinder is disposed on the positioning frame, and the limiting plate is in driving connection with the limiting cylinder.

7. An FPC automatic conversion SMT fixture device according to claim 1, wherein the transfer assembly includes a transfer frame, a transfer line module is disposed on the transfer frame, a transfer lifting cylinder is disposed on the transfer line module, a transfer plate is disposed on the transfer lifting cylinder, and a vacuum chuck is disposed on the transfer plate.

8. An automatic SMT conversion clamping device according to claim 7, wherein the handling mechanism comprises a handling frame, a handling linear module is disposed on the handling frame, a handling lifting cylinder is disposed on the handling linear module, a handling plate is disposed on the handling lifting cylinder, and a plurality of vacuum suction nozzles are uniformly disposed on the conveying plate.

9. An FPC automatic conversion SMT fixture device according to claim 1, wherein said driver assembly comprises a driver linear module and a driver slide, said driver linear module is disposed parallel to said driver slide, a driver board is disposed on said driver linear module, said limiting assembly is disposed on said driver board, a driver slider is disposed on said driver board, and said driver slider is slidably disposed on said driver slide.

10. The FPC automatic conversion SMT fixture device of claim 1, wherein the transfer mechanism further comprises a clamping assembly, the clamping assembly comprises a clamping frame and a jacking cylinder arranged on the clamping frame, a lifting frame is arranged on the clamping frame in a sliding manner, the lifting frame is in driving connection with the jacking cylinder, a transverse plate is arranged on the lifting frame, clamping cylinders are arranged at two ends of the transverse plate, and clamping jaws are arranged at piston rod ends of the clamping cylinders.

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