CN116437575A - High-temperature gummed paper attaching machine equipment for FPC - Google Patents

Abstract

The invention relates to the technical field of high-temperature gummed paper of circuit boards, in particular to high-temperature gummed paper attaching machine equipment for FPC, which comprises a track conveying mechanism, an objective table, a back cleaning piece, a front cleaning piece, a rubber conveying belt, a shaft connecting piece, a circuit board transferring mechanism and a gummed paper transferring mechanism, wherein the objective table is used for carrying the circuit board to move, the front of the circuit board is cleaned by the front cleaning piece, the objective table automatically triggers a turning mechanism after the cleaning is finished, the circuit board is continuously conveyed after turning over, when the circuit board passes through the back cleaning piece, dust generated in the two cleaning processes is timely sucked away, and in addition, the absorption force is continuously generated below the circuit board when the objective table carries the circuit board, so that the circuit board is ensured to be tightly attached to the objective table, the circuit board is prevented from being displaced in the cleaning process, and the cleaned circuit board can be accurately conveyed to a specified position outside the equipment, and the whole process is automatically controlled.

Description

High-temperature gummed paper attaching machine equipment for FPC

Technical Field

The invention relates to the technical field of high-temperature rubberizing paper of circuit boards, in particular to high-temperature rubberizing paper attaching machine equipment for FPC.

Background

The invention provides a high-temperature gummed paper attaching device for an FPC, which is characterized in that the high-temperature gummed paper attaching process of the FPC in the prior art comprises the steps of firstly conveying the FPC to a station platform through an adsorption mechanism in the device, then taking off gummed paper from a gummed paper attaching belt through a pick-up mechanism, attaching the gummed paper to the FPC after quick high-temperature treatment, conveying the processed FPC to the outside of the device through the station platform, conveying the FPC to a collection and storage box through a next adsorption mechanism, and because the internal mechanisms of the device are numerous, a plurality of sanitary space dead angles exist in the device, dust exists in the device, a door hole for conveying the FPC in the device is always in a smooth state, the dust also enters the device through the door hole, and in other production workshops, the outer shell of the device is taken off for maintenance and adjustment, so that the dust possibly falls on the FPC in the outside air in the treatment process of the FPC.

Disclosure of Invention

The invention aims to provide high-temperature gummed paper attaching machine equipment for FPC, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a high temperature gummed paper attaching machine equipment for FPC, includes track conveying mechanism, objective table, back cleaning piece, openly cleans piece, rubber conveyer belt, axle coupling spare, circuit board transfer mechanism and gummed paper transfer mechanism, be provided with the objective table on the track conveying mechanism, the objective table top is provided with back cleaning piece and openly cleans the piece, and back cleaning piece and openly clean the piece and all include the same transmission structure, back cleaning piece and openly clean the piece and distribute in the objective table both sides, one side parallel distribution of track conveying mechanism has the rubber conveyer belt, objective table lower extreme and rubber conveyer belt butt joint intercommunication, and the top that back cleaning piece and openly clean the piece all is connected with axle coupling spare transmission, and objective table and axle coupling spare butt joint, and track conveying mechanism's one end distributes circuit board transfer mechanism and gummed paper transfer mechanism, and the track conveying mechanism other end is provided with the door plant, and rubber conveyer belt and axle coupling spare all run through the door plant, offer the square hole that supplies the objective table to outwards carry on the door plant, and door plant supports spacing rubber conveyer belt and axle coupling spare, and one side of rubber conveyer belt is connected with trigger assembly, trigger assembly triggers and carries out circuit board turnover.

Preferably, the axle coupling piece includes positive axle, trades axle subassembly, back axle, main shaft and creel, one side parallel distribution of creel has the main shaft, one side parallel distribution of main shaft has positive axle and back axle, and positive axle and back axle are with the center pin, one side transmission of main shaft is connected with trades axle subassembly, when trading axle subassembly transmission back axle, the back cleans the piece and carries out circuit board back clearance work, when trading axle subassembly transmission positive axle, the front cleans the piece and carries out circuit board front clearance work, trade axle subassembly bottom and objective table connection, the spacing support of creel is positive axle, back axle and main shaft, the creel is fixed on the door plant.

Preferably, the shaft replacing assembly comprises a main gear, a limiting shaft, a first elastic sheet, a vertical plate and a concave folding push plate, wherein the bottom end of the vertical plate is fixed on the objective table, a through hole is formed in the top end of the vertical plate, the limiting shaft slides through the through hole in the vertical plate, one end of the limiting shaft is fixed with the main gear, the main gear is meshed with the main shaft, the first elastic sheet capable of being elastically bent is fixed between the vertical plate and the concave folding push plate, and the concave folding push plate is reversely buckled at the bottom of the main gear.

Preferably, the rubber conveyer belt includes follow-up closed loop belt, main gas box and belt bracket, the conveying belt bracket runs through the plate body of door plant, the belt bracket supports spacing follow-up closed loop belt, follow-up closed loop belt passes the square board hole of door plant, it has main gas box to distribute in the follow-up closed loop belt, main gas box is rectangular box for the shape, and rectangular box open-top sets up the middle baffle in the rectangular box, divide into back wind chamber and front wind chamber with rectangular box inner chamber, objective table and main gas box butt joint, back cleaning piece one end and main gas box back wind chamber ventilation butt joint intercommunication, front cleaning piece one end and main gas box front wind chamber butt joint intercommunication, trigger assembly includes second shell fragment and shell fragment vaulting pole, shell fragment vaulting pole bottom mounting is on the belt bracket, the shell fragment vaulting pole top is fixed with the second shell fragment.

Preferably, the object stage comprises an auxiliary plate box, a pipe assembly, an inner slide cylinder, an auxiliary plate supporting piece, an auxiliary pipe, an L-shaped main pipe, a main plate box, an L-shaped main plate supporting column, an L-shaped conveying column and a driving piece, wherein the rail conveying mechanism is used for controlling and conveying the L-shaped conveying column, one side of the pipe assembly is connected with the main plate box, the auxiliary plate box is distributed on the other side of the pipe assembly, the auxiliary plate supporting piece is supported below the auxiliary plate box, one end of the auxiliary plate supporting piece is fixed on the L-shaped conveying column, the L-shaped conveying column is positioned below the pipe assembly, one end of the L-shaped conveying column is fixed with the L-shaped main plate supporting column, the L-shaped main plate supporting column lifts the main plate box, one end of the pipe assembly is communicated with the L-shaped main pipe, and the other end transmission is connected with the driving piece, the second shell fragment distributes on the travel route of driving piece, one side that L type was responsible for distributes and has the accessory pipe, the inside activity in accessory pipe top is provided with interior slide, interior slide top and accessory box intercommunication, accessory box and mainboard box shape are the box, and offer a plurality of evenly distributed's gas pocket on the box top casing, L type is responsible for and accessory pipe bottom all runs through follow-up closed loop belt one side area body, the front wind chamber intercommunication of L type is responsible for and main gas box, the back wind chamber intercommunication of accessory pipe and main gas box, one side fixedly connected with riser of L type conveying post.

Preferably, the driving piece comprises a supporting vertical shaft, a pinion and an L-shaped rack, the supporting vertical shaft is sleeved in a through hole formed in the L-shaped conveying column, the top end of the supporting vertical shaft is in transmission connection with the pipe assembly, the pinion is fixed at the bottom end of the supporting vertical shaft, one side of the pinion is in meshed connection with the L-shaped rack, the second elastic piece is distributed on one side of a moving route of the inner sliding cylinder, the L-shaped rack slides through a convex plate square hole formed in the L-shaped conveying column, the auxiliary plate supporting piece comprises an L-shaped auxiliary position plate and a lifting concave folding column, the inner threaded hole formed in the L-shaped auxiliary position plate is penetrated, one end of the L-shaped auxiliary position plate is fixed on the L-shaped conveying column, the top of the L-shaped auxiliary position plate is contacted with the lifting concave folding column, the lifting concave folding column lifts an auxiliary plate box, and two ends of the lifting concave folding column slide through two square holes formed in the L-shaped auxiliary position plate respectively.

Preferably, the pipe assembly comprises a spring, a position control seat and a power pipe, one side of the power pipe is fixedly connected with the main board box, the power pipe is communicated with the inner cavity of the main board box, one end of the power pipe is vertically driven to a supporting shaft, bevel gears are fixed at the ends of the power pipe and the supporting shaft at the driving position, the spring is fixedly sleeved at the other end of the power pipe, the end part of the outermost ring of the spring is fixed on the position control seat, the bottom end of the position control seat is fixed on an L-shaped conveying column, the power pipe is sleeved in a through hole formed in the position control seat, the position control seat is distributed at one corner position of the main board box, and the power pipe is movably sleeved with the L-shaped main pipe.

Preferably, the back cleaning piece and the front cleaning piece structurally comprise an integrated shaft group, double control pieces and cleaning heads, the integrated shaft group is in multi-shaft turning transmission in the prior art, one end of the integrated shaft group on the back cleaning piece is connected with the back shaft in a transmission manner, one end of the integrated shaft group on the front cleaning piece is connected with the front shaft in a transmission manner, the other end of the integrated shaft group is connected with the double control pieces in a transmission manner, the bottom ends of the double control pieces are connected with the cleaning heads, the cleaning heads on the back cleaning piece are distributed above the travelling route of the auxiliary board box, and the cleaning heads on the front cleaning piece are distributed above the travelling route of the main board box.

Preferably, the double control comprises a brake shaft, an air outlet pipe, a fan, a wind control cylinder box and a central control pipe, the cleaning head comprises an L-shaped branch pipe, a cover door ring piece, a gas control disc and bristles, the brake shaft is sleeved in a through hole formed in the axis of the wind control cylinder box, the top end of the brake shaft is connected with an integrated shaft group in a transmission mode, the bottom end of the brake shaft is fixed with the gas control disc, one end of each of the air outlet pipe and the central control pipe extends into the wind control cylinder box, the fan is arranged between the two ports, the fan is fixed on the brake shaft, the other end of the central control pipe is communicated with the inner ring of the main gas box, the gas control disc comprises a ring plate box, a convex box communicated with the bottom of the ring plate box and a transverse piece integrally connected with the middle part of the ring plate box, the cover door ring piece is buckled on the ring plate box of the gas control disc, one end of the L-shaped branch pipe penetrates through one side shell of the cover door ring piece, the other end of the L-shaped branch pipe is communicated with the central control pipe, the convex box of the gas control disc is provided with the gas control disc, a plurality of convex boxes are uniformly distributed on the ring boxes on the ring plate, and the rest of the ring plate boxes are uniformly distributed on the ring plate box, and the bristles are fixed on the bottom surface of the ring plate.

Compared with the prior art, the invention has the beneficial effects that:

1. after the circuit board is stuck with the gummed paper, the circuit board starts to be conveyed towards the outside of the equipment, the front of the circuit board is cleaned by the front cleaning piece during the movement of the object stage, the object stage automatically triggers the turning mechanism after the cleaning is finished, the circuit board is continuously conveyed after turning, when the circuit board passes through the back cleaning piece, the back cleaning piece cleans the back of the circuit board, dust generated in the two cleaning processes can be timely sucked away, and in addition, the absorption force is continuously generated below the circuit board when the object stage carries the circuit board, so that the circuit board is ensured to be tightly attached to the object stage, the circuit board is prevented from being displaced in the cleaning process, the cleaned circuit board can be accurately conveyed to a specified position outside the equipment, and the whole process realizes automatic control.

2. According to the invention, the automatic overturning and double-sided cleaning effects of the circuit board are realized by matching the objective table, the back cleaning piece, the front cleaning piece and the shaft connecting piece, the air control disc rotates to drive the brush hair to continuously clean the circuit board, dust generated in the process is timely sucked away by the air control disc, and the cleaning effect on the surface of the circuit board is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention.

FIG. 2 is a schematic diagram of the trigger assembly position.

Fig. 3 is a schematic view of a shaft coupling.

Fig. 4 is a schematic diagram of a shaft-changing assembly.

Fig. 5 is a schematic view of the track transport mechanism position.

Fig. 6 is a schematic view of the stage structure.

Fig. 7 is a schematic view of the sub-panel support structure.

Fig. 8 is a schematic view of the tube assembly.

Fig. 9 is a schematic view of the back cleaning member.

Fig. 10 is a schematic diagram of a dual control architecture.

Fig. 11 is a schematic view of a door panel structure.

In the figure: the cleaning device comprises a track conveying mechanism 1, a stage 2, a back cleaning piece 3, a front cleaning piece 4, a rubber conveying belt 5, a shaft coupling 6, a circuit board transfer mechanism 7, a gumming paper transfer mechanism 8, a door plate 9, a front shaft 10, a shaft changing component 11, a back shaft 12, a main shaft 13, a shaft bracket 14, a main gear 15, a limiting shaft 16, a first elastic piece 17, a vertical plate 18, a concave folding push plate 19, a follow-up closed loop belt 20, a main air box 21, a belt bracket 22, a second elastic piece 23, an elastic piece supporting rod 24, a auxiliary plate box 25, a pipe component 26, an inner sliding cylinder 27, an auxiliary plate supporting piece 28, an auxiliary pipe 29, an L-shaped main pipe 30, a main plate box 31, an L-shaped main plate supporting column 32, an L-shaped conveying column 33, a driving piece 34, a supporting shaft 35, a pinion 36, an L-shaped rack 37, a lifting concave folding column 38, a L-shaped auxiliary position plate 40, a spring 41, a position control seat 42, a power pipe 43, an integrated shaft group 44, a double-side control 45, a cleaning head 46, a trigger component 50, a brake shaft 51, an air outlet pipe 52, a fan 53, a fan 54, a control box L-shaped air distribution box 54, a cylindrical brush box 57 and a cylindrical cover 57.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. Based on the technical solutions of the present invention, all other embodiments obtained by a person skilled in the art without making any creative effort fall within the protection scope of the present invention.

Referring to fig. 1 to 11, the present invention provides a technical solution: the utility model provides a high temperature gummed paper attaching machine equipment for FPC, including track conveying mechanism 1, objective table 2, back cleans piece 3, front and cleans piece 4, rubber conveyer 5, axle coupling 6, circuit board transfer mechanism 7 and gummed paper transfer mechanism 8, be provided with objective table 2 on track conveying mechanism 1, objective table 2 top is provided with back and cleans piece 3 and front and cleans piece 4, and back cleans piece 3 and front and cleans piece 4 and all includes the same transmission structure, back cleans piece 3 and front and cleans piece 4 and distributes in objective table 2 both sides, one side parallel distribution of track conveying mechanism 1 has rubber conveyer 5, objective table 2 lower extreme and rubber conveyer 5 butt joint intercommunication, back cleans piece 3 and front and cleans piece 4's top and all is connected with axle coupling 6 transmission, objective table 2 and axle coupling 6 butt joint, one end of the track conveying mechanism 1 is distributed with a circuit board transfer mechanism 7 and a gummed paper transfer mechanism 8, the other end of the track conveying mechanism 1 is provided with a door plate 9, the rubber conveying belt 5 and the shaft coupling 6 penetrate through the door plate 9, a square plate hole for the outward conveying of the objective table 2 is formed in the door plate 9, the door plate 9 supports and limits the rubber conveying belt 5 and the shaft coupling 6, one side of the rubber conveying belt 5 is connected with a trigger component 50, the trigger component 50 triggers the objective table 2 to turn over the circuit board, the track conveying mechanism 1, the circuit board transfer mechanism 7 and the gummed paper transfer mechanism 8 are all devices in the prior art, the track conveying mechanism 1 comprises a track and a track conveying vehicle, the track conveying vehicle controls the objective table 2 to directionally reciprocate, the circuit board transfer mechanism 7 adsorbs the circuit board, the circuit board is placed on the objective table 2, the gummed paper transfer mechanism 8 carries out high-temperature gummed paper treatment on the objective table 2, the stage 2 is then moved to bring the finished circuit board to the outside of the apparatus, i.e., to the right of the door panel 9 in the rail transport mechanism 1, and the circuit board is collected.

The shaft coupling 6 comprises a front shaft 10, a shaft replacing assembly 11, a back shaft 12, a main shaft 13 and a shaft frame 14, wherein the main shaft 13 is arranged on one side of the shaft frame 14 in parallel, the front shaft 10 and the back shaft 12 are arranged on one side of the main shaft 13 in parallel, the front shaft 10 and the back shaft 12 are coaxial, one side of the main shaft 13 is connected with the shaft replacing assembly 11 in a transmission manner, when the shaft replacing assembly 11 transmits the back shaft 12, the back cleaning piece 3 performs circuit board back cleaning work, when the shaft replacing assembly 11 transmits the front shaft 10, the front cleaning piece 4 performs circuit board front cleaning work, the bottom end of the shaft replacing assembly 11 is connected with the objective table 2, the shaft frame 14 is used for limiting and supporting the front shaft 10, the back shaft 12 and the main shaft 13, and the shaft frame 14 is fixed on the door plate 9.

The shaft-changing assembly 11 comprises a main gear 15, a limiting shaft 16, a first elastic sheet 17, a vertical plate 18 and a concave folding push plate 19, wherein the bottom end of the vertical plate 18 is fixed on the objective table 2, the top end of the vertical plate 18 is provided with a through hole, the limiting shaft 16 slides through the through hole on the vertical plate 18, one end of the limiting shaft 16 is fixed with the main gear 15, the main gear 15 is meshed with the main shaft 13, a first elastic sheet 17 which can be elastically bent is fixed between the vertical plate 18 and the concave folding push plate 19, the concave folding push plate 19 is reversely buckled at the bottom of the main gear 15, one end of the main shaft 13 is externally connected with a driving mechanism in the prior art, after the rubberizing work of the circuit board is finished, the objective table 2 carries the circuit board to be conveyed outwards, the main shaft 13 continuously rotates in the process, further, the front cleaning member 4 of the first half path and the back cleaning member 3 of the second half path are controlled to work, the stage 2 moves towards the gummed paper station, the main shaft 13 does not work and rotates, as understood by referring to fig. 3 and 4, a gap is formed between the front shaft 10 and the back shaft 12, the main gear 15 is always meshed with the main shaft 13, but the main gear 15 is changed from being driven by the front shaft 10 to being driven by the back shaft 12, or vice versa, the main gear 15 can be smoothly meshed with the next shaft body, because the main gear 15 can move axially in a small range, and is automatically reset under the control of the first elastic piece 17 after moving, and the first elastic piece 17 is used for shaft exchanging transmission of the main gear 15 to flow out of the buffer space.

The rubber conveyer belt 5 comprises a follow-up closed loop belt 20, a main air box 21 and a belt support 22, wherein the belt support 22 penetrates through a plate body of the door plate 9, the belt support 22 supports a limiting follow-up closed loop belt 20, the follow-up closed loop belt 20 penetrates through a square plate hole of the door plate 9, the main air box 21 is distributed in the follow-up closed loop belt 20, the main air box 21 is a rectangular box, the top of the rectangular box is open, a middle partition plate is arranged in the rectangular box, an inner cavity of the rectangular box is divided into a back air cavity and a front air cavity, the objective table 2 is abutted with the main air box 21, one end of the back cleaning piece 3 is in ventilation abutting joint communication with the back air cavity of the main air box 21, one end of the front cleaning piece 4 is in abutting joint communication with the front air cavity of the main air box 21, the triggering component 50 comprises a second elastic piece 23 and an elastic piece supporting rod 24, the bottom end of the elastic piece supporting rod 24 is fixed on the belt support 22, and the top end of the elastic piece supporting rod 24 is fixed with a second elastic piece 23.

The object stage 2 comprises an auxiliary plate box 25, a pipe assembly 26, an inner slide tube 27, an auxiliary plate supporting piece 28, an auxiliary tube 29, an L-shaped main pipe 30, a main plate box 31, an L-shaped main plate supporting column 32, an L-shaped conveying column 33 and a driving piece 34, wherein the track conveying mechanism 1 controls the conveying of the L-shaped conveying column 33, one side of the pipe assembly 26 is connected with the main plate box 31, the other side is distributed with the auxiliary plate box 25, the auxiliary plate supporting piece 28 is supported below the auxiliary plate box 25, one end of the auxiliary plate supporting piece 28 is fixed on the L-shaped conveying column 33, the L-shaped conveying column 33 is positioned below the pipe assembly 26, one end of the L-shaped conveying column 33 is fixed with the L-shaped main plate supporting column 32, the L-shaped main plate supporting column 32 supports the main plate box 31, one end of the pipe assembly 26 is communicated with the L-shaped main pipe 30, and the other end transmission is connected with a driving piece 34, second shell fragment 23 distributes on the route of marcing of driving piece 34, one side of L type is responsible for 30 distributes and has a secondary pipe 29, the inside activity in secondary pipe 29 top is provided with interior slide tube 27, interior slide tube 27 top and secondary board box 25 intercommunication, secondary board box 25 and mainboard box 31 shape are the board box, and offer a plurality of evenly distributed's gas pocket on the board box top casing, L type is responsible for 30 and secondary pipe 29 bottom all run through follow-up closed loop belt 20 one side area body, the front wind chamber intercommunication of L type is responsible for 30 and main gas box 21, secondary pipe 29 and the back wind chamber intercommunication of main gas box 21, one side fixedly connected with riser 18 of L type conveying post 33.

The driving piece 34 comprises a supporting vertical shaft 35, a pinion 36 and an L-shaped rack 37, the supporting vertical shaft 35 is sleeved in a through hole formed in the L-shaped conveying column 33, the top end of the supporting vertical shaft 35 is in transmission connection with the pipe assembly 26, the pinion 36 is fixed at the bottom end of the supporting vertical shaft 35, one side of the pinion 36 is in meshed connection with the L-shaped rack 37, the second elastic piece 23 is distributed on one side of a moving route of the inner sliding cylinder 27, the L-shaped rack 37 slides through a convex plate square hole formed in the L-shaped conveying column 33, the auxiliary plate supporting piece 28 comprises a 39, an L-shaped auxiliary position plate 40 and lifting concave folding columns 38 and 39 penetrate through an inner threaded hole formed in the L-shaped auxiliary position plate 40, one end of the L-shaped auxiliary position plate 40 is fixed on the L-shaped conveying column 33, the top of the 39 is contacted with the lifting concave folding column 38, the lifting concave folding columns 38 lift the auxiliary plate box 25, and two ends of the lifting concave folding columns 38 slide through two square holes formed in the L-shaped auxiliary position plate 40 respectively.

The pipe assembly 26 comprises a clockwork spring 41, a position control seat 42 and a power pipe 43, one side of the power pipe 43 is fixedly connected with the main board box 31, the power pipe 43 is communicated with the inner cavity of the main board box 31, one end of the power pipe 43 is vertically transmitted to the supporting shaft 35, bevel gears are fixed at the ends of the power pipe 43 and the supporting shaft 35 at the transmission position, the clockwork spring 41 is fixedly sleeved at the other end of the power pipe 43, the end part of the outermost ring of the clockwork spring 41 is fixed on the position control seat 42, the bottom end of the position control seat 42 is fixed on the L-shaped conveying column 33, the power pipe 43 is sleeved in a through hole formed in the position control seat 42, the position control seat 42 is distributed at one corner position of the main board box 31, and the power pipe 43 is movably sleeved with the L-shaped main pipe 30.

In the process of conveying the object stage 2 towards the outside of the equipment, the L-shaped rack 37 encounters interception of the second elastic sheet 23 in the accompanying movement, then the L-shaped rack 37 breaks through interception, but in the process, the L-shaped rack 37 moves for the second time, referring to fig. 7, the L-shaped rack 37 moves leftwards to control the pinion 36 to rotate, then the supporting shaft 35 drives the power tube 43 to rotate for half a circle, the power tube 43 drives the main board box 31 to turn over, the circuit board is adsorbed on the main board box 31, the circuit board is buckled on the auxiliary board box 25 after being turned over, the spring 41 is rebounded to influence the power tube 43 to reversely reset after breaking through interception of the second elastic sheet 23, the main board box 31 is reversely turned and reset, and in the process of turning over the circuit board, the main board box 31 stops pumping and the auxiliary board box 25 starts pumping, so that the gas adsorption force ensures that the circuit board is stably attached to the auxiliary board 25, and further, the follow-up cleaning process is ensured, and the circuit board does not move.

The air flow change is caused by the meshing stage of the main gear 15 and the front shaft 10 and the back shaft 12, the front cleaning member 4 continuously pumps air from the front air cavity of the main air box 21, so that air in the main board box 31 is sucked into the front air cavity through the power pipe 43 and the main board box 31, when the main board box 31 is turned back after the circuit board is buckled, the main gear 15 is just separated from the front shaft 10 in the advancing process, the sum of the main gear 15 and the back shaft 12 is meshed, the air pumping operation of the front cleaning member 4 is stopped, the back cleaning member 3 continuously pumps air because air in the back air cavity of the main air box 21 is pumped by the back cleaning member 3, and air in the auxiliary board box 25 is sucked into the back air cavity of the main air box 21 through the inner sliding cylinder 27 and the auxiliary pipe 29, so that the auxiliary board box 25 instantaneously generates air to adsorb the circuit board.

The back cleaning piece 3 and the front cleaning piece 4 structurally comprise an integrated shaft group 44, a double control piece 45 and cleaning heads 46, wherein the integrated shaft group 44 is in multi-shaft turning transmission in the prior art, one end of the integrated shaft group 44 on the back cleaning piece 3 is in transmission connection with the back shaft 12, one end of the integrated shaft group 44 on the front cleaning piece 4 is in transmission connection with the front shaft 10, the other end of the integrated shaft group 44 is in transmission connection with the double control piece 45, the bottom ends of the double control pieces 45 are connected with the cleaning heads 46, the cleaning heads 46 on the back cleaning piece 3 are distributed above the travelling route of the auxiliary board box 25, and the cleaning heads 46 on the front cleaning piece 4 are distributed above the travelling route of the main board box 31.

The double control 45 comprises a brake shaft 51, an air outlet pipe 52, a fan 53, an air control cylindrical box 54 and a central control pipe 55, the cleaning head 46 comprises an L-shaped branched pipe 56, a cover door ring piece 57, an air control disc 58 and bristles 59, the brake shaft 51 is sleeved in a through hole formed in the axis of the air control cylindrical box 54, the top end of the brake shaft 51 is in transmission connection with the integrated shaft group 44, the air control disc 58 is fixed at the bottom end of the brake shaft 51, one end of each of the air outlet pipe 52 and the central control pipe 55 extends into the air control cylindrical box 54, the fan 53 is arranged between the two ports, the fan 53 is fixed on the brake shaft 51, the other end of the central control pipe 55 is communicated with the inner ring of the main air box 21, the air control disc 58 comprises a ring box, a convex box communicated with the bottom of the ring box and a transverse piece integrally connected with the middle of the ring box, the cover door ring piece 57 is buckled on the ring box of the air control disc 58, one end of the L-shaped branched pipe 56 penetrates through one side shell of the cover door ring piece 57, the other end of the L-shaped branched pipe 56 is communicated with the central control pipe 55, the L-shaped branched pipe 56 is communicated with the central control pipe 58, the convex box 58 is communicated with the air control disc 58, the upper ring 58 and the bristles are uniformly distributed on the bottom surface of the ring box 58, and the bristles are uniformly distributed on the bottom surface of the ring box is uniformly distributed on the ring box.

The brake shaft 51 rotates to drive the air control disc 58, the air control disc 58 drives the bristles 59, so that when the circuit board passes through, dust generated in the process is absorbed by the convex box, the dust is sucked into the central control tube 55 along with air flow, air in the half cavity of the main air box 21 is sucked into the central control tube 55, the air flow is discharged through the air outlet tube 52, and the discharged air is collected into dust through a filtering mechanism in the prior art.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a high temperature gummed paper attaching machine equipment for FPC, includes track conveying mechanism (1), objective table (2), back clean piece (3), openly cleans piece (4), rubber conveyer belt (5), axle coupling spare (6), circuit board transfer mechanism (7) and gummed paper transfer mechanism (8), its characterized in that: the utility model discloses a track conveying mechanism (1), be provided with objective table (2) on objective table (2) top is provided with back and cleans piece (3) and openly cleans piece (4), and back cleans piece (3) and openly cleans piece (4) and all includes the same transmission structure, back cleans piece (3) and openly cleans piece (4) and distributes in objective table (2) both sides, one side parallel distribution of track conveying mechanism (1) has rubber conveyer belt (5), objective table (2) lower extreme and rubber conveyer belt (5) butt joint intercommunication, back cleans piece (3) and the top that openly cleans piece (4) all are connected with axle coupling (6) transmission, objective table (2) and axle coupling (6) butt joint, one end of track conveying mechanism (1) distributes and has circuit board transfer mechanism (7) and offset paper transfer mechanism (8), and the other end of track conveying mechanism (1) is provided with door plant (9), rubber conveyer belt (5) and axle coupling (6) all run through door plant (9), offer on door plant (9) and supply objective table (2) to outwards carry square door plant (9) and rubber conveyer belt (5) and axle coupling (5) one side of axle coupling (50), the triggering component (50) triggers the objective table (2) to turn over the circuit board.

2. A high temperature gummed paper attaching machine device for FPC as defined in claim 1, wherein: the shaft coupling (6) comprises a front shaft (10), a shaft replacing assembly (11), a back shaft (12), a main shaft (13) and a shaft bracket (14), wherein the main shaft (13) is arranged on one side of the shaft bracket (14) in parallel, the front shaft (10) and the back shaft (12) are arranged on one side of the main shaft (13) in parallel, the front shaft (10) and the back shaft (12) are connected with a central shaft, the shaft replacing assembly (11) is connected with one side of the main shaft (13) in a transmission manner, when the shaft replacing assembly (11) is used for transmitting the back shaft (12), the back cleaning piece (3) is used for cleaning the back of a circuit board, when the shaft replacing assembly (11) is used for transmitting the front shaft (10), the front cleaning piece (4) is used for cleaning the front of the circuit board, the bottom end of the shaft replacing assembly (11) is connected with the objective table (2), the front shaft (10), the back shaft (12) and the main shaft (13) are supported in a limiting manner, and the shaft bracket (14) are fixed on the door plate (9).

3. A high temperature gummed paper attaching machine device for FPC as defined in claim 2, wherein: the shaft replacing assembly (11) comprises a main gear (15), a limiting shaft (16), a first elastic sheet (17), a vertical plate (18) and a concave folding push plate (19), wherein the bottom end of the vertical plate (18) is fixed on the object stage (2), a through hole is formed in the top end of the vertical plate (18), the limiting shaft (16) slides through the through hole in the vertical plate (18), the main gear (15) is fixed at one end of the limiting shaft (16), the main gear (15) is meshed with the main shaft (13), the first elastic sheet (17) capable of being elastically bent is fixed between the vertical plate (18) and the concave folding push plate (19), and the concave folding push plate (19) is reversely buckled at the bottom of the main gear (15).

4. A high temperature gummed paper attaching machine device for FPC as defined in claim 2, wherein: the rubber conveyer belt (5) comprises a follow-up closed loop belt (20), a main air box (21) and a belt support (22), the belt support (22) penetrates through a plate body of a door plate (9), the belt support (22) supports a limit follow-up closed loop belt (20), the follow-up closed loop belt (20) penetrates through a square plate hole of the door plate (9), the main air box (21) is distributed in the follow-up closed loop belt (20), the main air box (21) is a rectangular box in shape, a middle partition plate is arranged in the rectangular box, an inner cavity of the rectangular box is divided into a back air cavity and a front air cavity, an objective table (2) is in butt joint with the main air box (21), one end of a back cleaning piece (3) is in butt joint communication with the back air cavity of the main air box (21), one end of the front cleaning piece (4) is in butt joint with the front air cavity of the main air box (21), the trigger assembly (50) comprises a second elastic piece (23) and a supporting rod (24), the bottom end of the elastic piece supporting rod (24) is fixed on the belt support (22), and the top end of the supporting rod (24) is fixed with the second elastic piece (23).

5. A high temperature gummed paper attaching machine device for FPC as defined in claim 4, wherein: the object stage (2) comprises an auxiliary plate box (25), a pipe assembly (26), an inner slide (27), an auxiliary plate supporting piece (28), an auxiliary pipe (29), an L-shaped main pipe (30), a main plate box (31), an L-shaped main plate supporting column (32), an L-shaped conveying column (33) and a driving piece (34), wherein the rail conveying mechanism (1) controls the conveying of the L-shaped conveying column (33), one side of the pipe assembly (26) is connected with the main plate box (31), the other side of the pipe assembly is distributed with the auxiliary plate box (25), the auxiliary plate supporting piece (28) is supported below the auxiliary plate box (25), one end of the auxiliary plate supporting piece (28) is fixed on the L-shaped conveying column (33), the L-shaped conveying column (33) is positioned below the pipe assembly (26), one end of the L-shaped main plate supporting column (32) is fixed with the L-shaped main pipe (30), one end of the pipe assembly (26) is communicated with the L-shaped main pipe (30), the other end of the pipe assembly is in transmission connection with the driving piece (34), the second (23) is distributed on the driving piece (34), one end of the pipe assembly (26) is communicated with the inner slide (29) and the top end of the auxiliary pipe (27) is communicated with the inner slide (27), the shape of the auxiliary plate box (25) and the shape of the main plate box (31) are both plate boxes, a plurality of evenly distributed air holes are formed in the top shell of the plate box, the bottoms of the L-shaped main pipe (30) and the auxiliary pipe (29) penetrate through a side belt body of the follow-up closed loop belt (20), the front air cavity of the L-shaped main pipe (30) and the front air cavity of the main air box (21) are communicated, the auxiliary pipe (29) and the back air cavity of the main air box (21) are communicated, and a vertical plate (18) is fixedly connected to one side of the L-shaped conveying column (33).

6. A high temperature gummed paper attaching machine device for FPC as defined in claim 5, wherein: the driving piece (34) comprises a supporting vertical shaft (35), a pinion (36) and an L-shaped rack (37), the supporting vertical shaft (35) is sleeved in a through hole formed in an L-shaped conveying column (33), the top end of the supporting vertical shaft (35) is in transmission connection with a pipe assembly (26), the pinion (36) is fixed at the bottom end of the supporting vertical shaft (35), the L-shaped rack (37) is connected with one side of the pinion (36) in a meshed manner, the second elastic sheet (23) is distributed on one side of a moving route of the inner sliding cylinder (27), the L-shaped rack (37) slides through a convex plate square hole formed in the L-shaped conveying column (33), the auxiliary plate supporting piece (28) comprises a concave folding column (38) and an L-shaped auxiliary position plate (40), the L-shaped auxiliary position plate (40) penetrates through an inner threaded hole formed in the L-shaped auxiliary position plate (40), one end of the L-shaped auxiliary position plate (40) is fixed on the L-shaped conveying column (33), the top of the L-shaped auxiliary position plate (39) is contacted with the concave folding column (38), the concave folding column (38) is lifted, and the two ends of the auxiliary plate (25) are respectively lifted through the two sliding square holes.

7. A high temperature gummed paper attaching machine device for FPC as defined in claim 6, wherein: the pipe assembly (26) comprises a clockwork spring (41), a position control seat (42) and a power pipe (43), one side of the power pipe (43) is fixedly connected with the main board box (31), the power pipe (43) is communicated with the inner cavity of the main board box (31), one end of the power pipe (43) is vertically driven to a supporting shaft (35), bevel gears are fixed at the ends of the power pipe (43) and the supporting shaft (35) at the driving position, the clockwork spring (41) is fixedly sleeved at the other end of the power pipe (43), the end part of the outermost ring of the clockwork spring (41) is fixed on the position control seat (42), the bottom end of the position control seat (42) is fixed on an L-shaped conveying column (33), the power pipe (43) is sleeved in a through hole formed in the position control seat (42), the position control seat (42) is distributed at one corner of the main board box (31), and the pipe (43) is movably sleeved with the L-shaped main pipe (30).

8. A high temperature gummed paper attaching machine device for FPC as defined in claim 4, wherein: the back cleaning piece (3) and the front cleaning piece (4) structurally comprise an integrated shaft group (44), double control pieces (45) and cleaning heads (46), the integrated shaft group (44) is in multi-shaft turning transmission in the prior art, one end of the integrated shaft group (44) on the back cleaning piece (3) is in transmission connection with the back shaft (12), one end of the integrated shaft group (44) on the front cleaning piece (4) is in transmission connection with the front shaft (10), the other end of the integrated shaft group (44) is in transmission connection with the double control pieces (45), the bottom ends of the double control pieces (45) are connected with the cleaning heads (46), the cleaning heads (46) on the back cleaning piece (3) are distributed above the travelling route of the auxiliary plate box (25), and the cleaning heads (46) on the front cleaning piece (4) are distributed above the travelling route of the main plate box (31).

9. A high temperature gummed paper attaching machine device for FPC as defined in claim 8, wherein: the double control (45) comprises a brake shaft (51), an air outlet pipe (52), a fan (53), a wind control cylindrical box (54) and a central control pipe (55), the cleaning head (46) comprises an L-shaped branched pipe (56), a cover valve ring piece (57), a gas control disc (58) and bristles (59), the brake shaft (51) is sleeved in a through hole formed at the beginning of the axis of the wind control cylindrical box (54), the top end of the brake shaft (51) is in transmission connection with an integrated shaft group (44), the bottom end of the brake shaft (51) is fixedly provided with the gas control disc (58), one end of each of the air outlet pipe (52) and the central control pipe (55) extends into the wind control cylindrical box (54), a fan (53) is arranged between two ports, the fan (53) is fixed on the brake shaft (51), the other end of the central control pipe (55) is communicated with the inner ring of the main gas box (21), the gas control disc (58) comprises a ring plate box, a convex box communicated with the bottom of the ring plate box, a part of the ring plate box is integrally connected with the ring box, the cover valve ring piece (57) is buckled on the valve plate (58), one end of the valve plate (56) is connected with the valve disc (56) in a part of the L-shaped branched pipe, one end of the valve disc (56) is connected with the other end of the valve disc (56), and a plurality of convex boxes are uniformly arranged on the annular plate box in a surrounding way, and bristles (59) are fixed in the residual space on the lower bottom surface of the annular plate box of the air control disc (58).

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