CN216104676U - Feeding device is used in circuit board production - Google Patents

Abstract

The utility model relates to the technical field of circuit board production and discloses a feeding device for circuit board production. The loading attachment is used in circuit board production includes conveying assembly, storage assembly, feeding assembly, buffering subassembly and material loading track, the slope of material loading track sets up, the material loading track is connected with conveying assembly, storage assembly includes the storage frame, the storage frame is configured as storing the circuit board of piling up, feeding assembly includes the push pedal, push pedal slidable ground sets up in the material loading track, the push pedal can be with circuit board propelling movement to the material loading track in, buffering subassembly includes driving lever and driver plate, but the driver plate intermittent type rotates, the interval is provided with a plurality of driving levers in the circumference of driver plate, can block gliding circuit board on the material loading track between two arbitrary adjacent driving levers. Due to the arrangement of the feeding rail and the buffering assembly, the circuit board can be effectively prevented from being damaged, the production cost of the circuit board is reduced, and the production efficiency of the circuit board is improved.

Description

Feeding device is used in circuit board production

Technical Field

The utility model relates to the technical field of circuit board production, in particular to a feeding device for circuit board production.

Background

In the production process of the circuit board, a feeding device is usually adopted to realize the conversion of the circuit board among the process sections so as to facilitate the smooth processing and production. However, the existing feeding device mostly adopts clamping or sucking mode for feeding, the circuit board can be damaged by clamping due to overlarge clamping force, the circuit board can drop halfway due to insufficient sucking force, the circuit board is further damaged, the production cost of the circuit board is improved, and the production efficiency of the circuit board is reduced.

Therefore, it is desirable to provide a feeding device for circuit board production to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Based on the above, the utility model aims to provide a feeding device for circuit board production, so as to solve the problems of high production cost and low production efficiency of the circuit board caused by circuit board damage of the existing feeding device.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a loading attachment is used in circuit board production includes:

a transfer assembly;

the feeding track is obliquely arranged and is connected with the conveying assembly;

a magazine assembly including a magazine frame configured to store stacked circuit boards;

the feeding assembly comprises a push plate, the push plate is slidably arranged on the feeding track, and the push plate can push the circuit board into the feeding track;

the buffer assembly comprises shift rods and a drive plate, the drive plate can rotate intermittently, a plurality of shift rods are arranged on the circumferential direction of the drive plate at intervals, and the circuit board which slides on the feeding rail can be clamped between any two adjacent shift rods.

Further, the buffer assembly further comprises a limiting disc, the limiting disc is coaxially connected with the driving disc, and the limiting disc can rotate intermittently.

Further, the buffer assembly further comprises an intermittent rotating base, a limiting groove is formed in the limiting disc, the intermittent rotating base can rotate intermittently, and the intermittent rotating base can be limited in the limiting groove.

Further, the intermittent type swivel mount includes swivel mount main part and spacing portion, the swivel mount main part with spacing portion connects, the swivel mount main part can intermittent type rotate, spacing portion can be spacing in spacing inslot.

Further, buffering subassembly still includes drive assembly, drive assembly includes drive wheel and evagination piece, intermittent type swivel mount still includes the bellying, the evagination piece set up in the week of drive wheel is upwards, the bellying with the swivel mount main part is connected, the drive wheel rotates and sets up, the bellying can with evagination piece roll connection.

Further, the feeding assembly further comprises a feeding cylinder, the feeding cylinder is installed on the feeding rail, and the telescopic end of the feeding cylinder is connected with the push plate.

Further, the feeding assembly further comprises a feeding seat, the feeding seat is mounted on the feeding rail, and the feeding cylinder is mounted on the feeding seat.

Further, the magazine assembly further comprises a lifting assembly, the lifting assembly comprises a supporting plate, the supporting plate is arranged in the magazine frame in a lifting mode, and the supporting plate is configured to store the stacked circuit boards.

Further, the lifting assembly further comprises a lifting cylinder, the lifting cylinder is installed in the material storage frame, and the telescopic end of the lifting cylinder is connected with the supporting plate.

The utility model has the beneficial effects that:

the utility model provides a feeding device for producing circuit boards, which comprises a conveying assembly, a material storage assembly, a feeding assembly, a buffering assembly and a feeding rail, wherein the feeding rail is obliquely arranged, the feeding rail is connected with the conveying assembly, the material storage assembly comprises a material storage frame, the material storage frame is configured to store stacked circuit boards, the feeding assembly comprises a push plate, the push plate is slidably arranged on the feeding rail, the circuit boards can be pushed into the feeding rail by the push plate, the buffering assembly comprises shift rods and drive plates, the drive plates can rotate intermittently, a plurality of shift rods are arranged at intervals in the circumferential direction of the drive plates, and the circuit boards sliding on the feeding rail can be clamped between any two adjacent shift rods. The push pedal is with the circuit board propelling movement to the material loading track in the storage frame on, the circuit board slides on the material loading track under the dual function of thrust and gravity, and the circuit board is at the in-process that glides, and the driving lever can block the circuit board for a short time, plays certain cushioning effect to the circuit board, and the circuit board after the buffering gets into the conveying subassembly conveying afterwards. Due to the arrangement of the feeding track, the circuit board is not required to be fed in a clamping and sucking mode, so that the damage probability of the circuit board is reduced; the buffer assembly is arranged, so that the sliding speed of the circuit board on the feeding track can not be too high, the circuit board can be effectively prevented from being damaged, the production cost of the circuit board is reduced, and the production efficiency of the circuit board is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Wherein:

fig. 1 is a schematic structural diagram of a feeding device for circuit board production according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a schematic view of a part of a feeding device for circuit board production according to an embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at B;

fig. 5 is a schematic structural view of a magazine assembly according to an embodiment of the present invention.

In the figure:

1-a transfer assembly; 2-a circuit board; 3-a storage component; 4-a feeding assembly; 5-a buffer component; 6-a feeding track;

11-a conveyor belt; 12-a driving pulley; 13-a driven pulley; 31-a storage frame; 32-a lifting assembly; 41-push plate; 42-a feeding cylinder; 43-a feeding seat; 51-a deflector rod; 52-a dial; 53-limiting disc; 54-intermittent transposition; 55-a drive assembly; 56-fixed seat; 57-a rotating shaft; 58-mounting seat; 61-inclined rails; 62-smooth track;

311-a material storage chamber; 321-a supporting plate; 322-a lifting cylinder; 531-limiting groove; 541-a limiting part; 542-a boss; 543-a transposable body; 551-driving wheel; 552-male; 553-an electric machine; 611-track grooves.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and embodiments. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting of the utility model. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless otherwise expressly specified or limited, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning a fixed connection, a removable connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection via an intermediary, a connection between two elements, or an interaction between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, unless otherwise expressly specified or limited, the first feature "on" or "under" the second feature may include the first feature and the second feature being in direct contact, or may include the first feature and the second feature being in contact not directly but with another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The technical scheme of the utility model is further explained by the specific implementation mode in combination with the attached drawings.

As shown in fig. 1 to 5, the present embodiment provides a feeding device for circuit board production, the feeding device for circuit board production includes a conveying assembly 1, a storage assembly 3, a feeding assembly 4, a buffering assembly 5 and a feeding rail 6, the feeding rail 6 is disposed in an inclined manner, the feeding rail 6 is connected to the conveying assembly 1, the storage assembly 3 includes a storage frame 31, the storage frame 31 is configured to store stacked circuit boards 2, the feeding assembly 4 includes a push plate 41, the push plate 41 is slidably disposed on the feeding rail 6, the push plate 41 can push the circuit boards 2 into the feeding rail 6, the buffering assembly 5 includes a shift lever 51 and a dial 52, the dial 52 can rotate intermittently, a plurality of shift levers 51 are disposed at intervals in the circumferential direction of the dial 52, and any two adjacent shift levers 51 can clamp the circuit boards 2 sliding on the feeding rail 6. The circuit board 2 propelling movement to the material loading track 6 in the material storage frame 31 is pushed to by the push plate 41, the circuit board 2 slides on the material loading track 6 under the dual action of thrust and gravity, the circuit board 2 can be momentarily clamped by the deflector rod 51 in the gliding process, a certain buffering effect is achieved on the circuit board 2, and the buffered circuit board 2 enters the conveying assembly 1 and is conveyed. Due to the arrangement of the feeding track 6, the circuit board 2 is not required to be fed in a clamping and sucking mode, so that the probability of damage to the circuit board 2 is reduced; the arrangement of the buffer assembly 5 ensures that the sliding speed of the circuit board 2 on the feeding track 6 is not too fast, the circuit board 2 can be effectively prevented from being damaged, the production cost of the circuit board 2 is reduced, and the production efficiency of the circuit board 2 is improved.

As shown in fig. 1, the feeding rail 6 includes an inclined rail 61 and a flat rail 62, the inclined rail 61 is smoothly connected with the flat rail 62, and the flat rail 62 is smoothly connected with the conveying assembly 1. The arrangement is convenient for the circuit boards 2 to slide on the feeding rails 6 and can not enter the conveying assembly 1 to be conveyed smoothly in a blocking mode.

Specifically, the inclined rail 61 is a slope, and the smooth rail 62 is a circular arc segment.

In the present embodiment, the specific value of the inclination angle of the inclined rail 61 is not limited, and may be set according to the speed required for the circuit board 2.

Further, the conveyor assembly 1 comprises a conveyor belt 11, the conveyor belt 11 being adapted to convey the circuit boards 2.

Further, the transmission assembly 1 further includes a driving pulley 12 and a driven pulley 13, and the driving pulley 12 and the driven pulley 13 are connected by the transmission belt 11.

In the present embodiment, the power source of the driving pulley 12 is not limited, and any conventional structure, such as a motor, may be selected as long as the rotation of the driving pulley 12 can be achieved.

As shown in fig. 2, the feeding assembly 4 further includes a feeding cylinder 42, the feeding cylinder 42 is mounted on the feeding rail 6, and a telescopic end of the feeding cylinder 42 is connected to the push plate 41.

Further, the feeding assembly 4 further comprises a feeding seat 43, the feeding seat 43 is mounted on the feeding rail 6, and the feeding cylinder 42 is mounted on the feeding seat 43. The telescopic end of the feeding cylinder 42 stretches and retracts to drive the push plate 41 to move, so that the push plate 41 pushes the circuit board 2 in the storage frame 31 to the inclined rail 61.

Specifically, the loading base 43 is installed at the loading port of the inclined rail 61.

As shown in fig. 3 and 4, the buffer assembly 5 further includes a limiting disc 53, the limiting disc 53 is coaxially connected with the dial 52, and the limiting disc 53 can intermittently rotate. Specifically, the restricting plate 53 is intermittently rotatably provided outside the inclined rail 61.

Specifically, a rail groove 611 is formed on the side of the inclined rail 61 close to the dial 52, and the shift lever 51 extends into the inclined rail 61 through the rail groove 611 and temporarily buffers the circuit board 2.

Further, the buffer assembly 5 further comprises an intermittent rotation base 54, the limiting disc 53 is provided with a limiting groove 531, the intermittent rotation base 54 can intermittently rotate, and the intermittent rotation base 54 can be limited in the limiting groove 531.

Further, the intermittent rotation base 54 includes a rotation base body 543 and a position-limiting portion 541, the rotation base body 543 is connected to the position-limiting portion 541, the rotation base body 543 intermittently rotates, and the position-limiting portion 541 is capable of being limited in the position-limiting groove 531.

Further, the buffering assembly 5 further includes a mounting base 58, the mounting base 58 is mounted outside the inclined rail 61, and the swivel main body 543 is intermittently rotatably disposed on the mounting base 58.

Further, the buffer assembly 5 further comprises a driving assembly 55, the driving assembly 55 comprises a driving wheel 551 and a convex part 552, the intermittent rotary seat 54 further comprises a convex part 542, the convex part 552 is arranged in the circumferential direction of the driving wheel 551, the convex part 542 is connected with the rotary seat main body 543, the driving wheel 551 is rotatably arranged, and the convex part 542 can be in rolling connection with the convex part 552.

Further, the driving assembly 55 further comprises a motor 553, the motor 553 is installed outside the inclined rail 61, and an output end of the motor 553 is connected with the driving wheel 551. The motor 553 drives the driving wheel 551 to rotate, the driving wheel 551 drives the external convex part 552 to rotate in the rotating process until the external convex part 552 is in rolling connection with the convex part 542, due to the relation of the geometric dimension, the external convex part 552 drives the rotary seat main body 543 to rotate around the mounting seat 58, and further drives the limiting part 541 to rotate, so that the limiting part 541 is separated from the limiting groove 531, the limiting disc 53 is released from constraint, the circuit board 2 drives the shift lever 51 to rotate, the drive plate 52 and the limiting disc 53 to rotate, and the circuit board 2 continues to slide forwards until sliding into the transmission assembly 1; when the protruding member 552 and the protruding portion 542 are no longer in rolling contact, the intermittent rotary base 54 is again caught in the limiting groove 531 by inertia, and the dial 52 is no longer rotated, and the next circuit board 2 is caught.

In order to enable the intermittent rotary table 54 to be smoothly switched between the click-in into the stopper groove 531 and the click-out from the stopper groove 531, a reset member may be provided on the intermittent rotary table 54. The specific structure of the reset assembly is not limited in this embodiment, and a structure common in the prior art, such as a torsion spring, may be selected.

Further, the buffering assembly 5 further comprises a rotating shaft 57, and the dial 52 and the limiting disc 53 are both mounted on the rotating shaft 57.

Further, the buffering assembly 5 further includes a fixing seat 56, the fixing seat 56 is disposed between the dial 52 and the limiting plate 53, and the rotating shaft 57 is rotatably disposed on the fixing seat 56.

In order to prevent the buffer assembly 5 from damaging the circuit board 2, a buffer material may be provided on the outer surface of the shift lever 51. In the present embodiment, the specific structure of the cushion material is not limited, and a conventional cushion material such as foam may be used.

As shown in fig. 5, the magazine assembly 3 further includes a lifting assembly 32, the lifting assembly 32 includes a pallet 321, the pallet 321 is liftably disposed in the magazine frame 31, and the pallet 321 is configured to store the stacked circuit boards 2.

Further, the lifting assembly 32 further comprises a lifting cylinder 322, the lifting cylinder 322 is installed in the material storage frame 31, and the telescopic end of the lifting cylinder 322 is connected with the supporting plate 321.

Further, a storage cavity 311 is formed in the storage frame 31, the lifting cylinder 322 is installed in the storage cavity 311, and the supporting plate 321 is arranged in the storage cavity 311 in a lifting manner. The telescopic end of the lifting cylinder 322 extends and retracts to drive the supporting plate 321 to move up and down, and further drive the stacked circuit boards 2 to move up and down, so that the circuit boards 2 are exposed from the opening of the material storage cavity 311, and the push plate 41 can push the exposed circuit boards 2 into the inclined rail 61. The elevating assembly 32 is provided such that the stacked circuit boards 2 are sequentially introduced into the inclined rails 61.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the utility model. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (9)

1. The utility model provides a loading attachment is used in circuit board production which characterized in that includes:

a transfer assembly (1);

the feeding track (6) is obliquely arranged, and the feeding track (6) is connected with the conveying assembly (1);

a magazine assembly (3) comprising a magazine frame (31), the magazine frame (31) being configured to store stacked circuit boards (2);

the feeding assembly (4) comprises a push plate (41), the push plate (41) is slidably arranged on the feeding track (6), and the push plate (41) can push the circuit board (2) into the feeding track (6);

the buffer assembly (5) comprises a driving lever (51) and a driving plate (52), the driving plate (52) can rotate intermittently, a plurality of driving levers (51) are arranged on the circumferential direction of the driving plate (52) at intervals, and the circuit board (2) sliding on the feeding rail (6) can be clamped between any two adjacent driving levers (51).

2. The feeding device for circuit board production according to claim 1, wherein the buffering component (5) further comprises a limiting disc (53), the limiting disc (53) is coaxially connected with the driving disc (52), and the limiting disc (53) can intermittently rotate.

3. The feeding device for circuit board production as claimed in claim 2, wherein the buffer assembly (5) further comprises an intermittent rotary seat (54), the limiting disc (53) is provided with a limiting groove (531), the intermittent rotary seat (54) can intermittently rotate, and the intermittent rotary seat (54) can be limited in the limiting groove (531).

4. The feeding device for circuit board production as claimed in claim 3, wherein the intermittent rotation seat (54) comprises a rotation seat body (543) and a position-limiting portion (541), the rotation seat body (543) is connected with the position-limiting portion (541), the rotation seat body (543) is intermittently rotatable, and the position-limiting portion (541) is capable of being limited in the position-limiting groove (531).

5. The feeding device for circuit board production as recited in claim 4, wherein the buffer assembly (5) further comprises a driving assembly (55), the driving assembly (55) comprises a driving wheel (551) and a protruding part (552), the intermittent rotary base (54) further comprises a protruding part (542), the protruding part (552) is arranged on the circumferential direction of the driving wheel (551), the protruding part (542) is connected with the rotary base body (543), the driving wheel (551) is rotatably arranged, and the protruding part (542) can be in rolling connection with the protruding part (552).

6. The feeding device for circuit board production according to claim 1, wherein the feeding assembly (4) further comprises a feeding cylinder (42), the feeding cylinder (42) is mounted on the feeding rail (6), and the telescopic end of the feeding cylinder (42) is connected with the push plate (41).

7. The feeding device for circuit board production according to claim 6, wherein the feeding assembly (4) further comprises a feeding seat (43), the feeding seat (43) is mounted on the feeding rail (6), and the feeding cylinder (42) is mounted on the feeding seat (43).

8. The feeding device for circuit board production according to claim 1, wherein the magazine assembly (3) further comprises a lifting assembly (32), the lifting assembly (32) comprises a pallet (321), the pallet (321) is liftably disposed in the magazine frame (31), and the pallet (321) is configured to store the stacked circuit boards (2).

9. The feeding device for circuit board production as claimed in claim 8, wherein the lifting assembly (32) further comprises a lifting cylinder (322), the lifting cylinder (322) is installed in the material storage frame (31), and a telescopic end of the lifting cylinder (322) is connected with the supporting plate (321).

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