CN114378899A - Rotary multi-station blanking device for manufacturing computer mainboard - Google Patents

Abstract

The invention discloses a rotary multi-station blanking device for manufacturing a computer mainboard, which comprises an operation table, a material receiving mechanism, four supporting boxes, a blanking mechanism, a rotating seat, a rotating mechanism and four supporting legs, wherein the material receiving mechanism is arranged on the operation table, the supporting boxes are fixedly connected to the operation table, the four supporting boxes are uniformly distributed on the operation table, the blanking mechanism is arranged on the supporting boxes, the rotating seat is fixedly connected to the operation table, the rotating seat is provided with the rotating mechanism, and the lower end of the operation table is fixedly connected with the four supporting legs which are uniformly distributed. The invention relates to a rotary multi-station blanking device for manufacturing a computer mainboard, which has the characteristics of convenience for replacing the mainboard and convenience for collecting the blanked mainboard.

Description

Rotary multi-station blanking device for manufacturing computer mainboard

Technical Field

The invention belongs to the technical field of computer mainboard manufacturing, and particularly relates to a rotary multi-station blanking device for manufacturing a computer mainboard.

Background

A computer main board, also called a main board, a system board or a mother board, is divided into a commercial main board and an industrial main board, is arranged in a case, is one of the most basic and important components of a microcomputer, is generally a rectangular circuit board, is provided with a main circuit system forming the computer, and needs to be punched by a punching device when the computer main board is produced, and the existing punching device can be processed in multiple stations. However, the current blanking device has some problems: 1. the main board is inconvenient to replace in multi-station processing, and the main board is easy to break in the blanking process, so that workers are easy to accidentally hurt; 2. the punched main board is inconvenient to collect after blanking. Therefore, it is necessary to design a rotary multi-station blanking device for manufacturing computer main boards.

Disclosure of Invention

The present invention is directed to a rotary multi-station blanking device for manufacturing computer motherboard, which solves the above problems.

In order to solve the problems, the invention provides a technical scheme of a rotary multi-station blanking device for manufacturing a computer mainboard, which comprises the following steps:

the utility model provides a rotation type multistation blanking device for computer motherboard makes, includes operation panel, receiving agencies, supports box, blanking mechanism, rotates seat, slewing mechanism, supporting leg, be provided with receiving agencies on the operation panel, fixedly connected with supports the box on the operation panel, the quantity that supports the box is four, four it is in to support the box evenly distributed on the operation panel, be provided with blanking mechanism on the support box, fixedly connected with rotates the seat on the operation panel, it is provided with slewing mechanism on the seat to rotate, four evenly distributed's supporting leg of the lower extreme fixedly connected with of operation panel.

Preferably, the receiving mechanism comprises a driving wheel, a first material guide belt, a first speed reduction motor, a first material guide roller, a conveying belt, a second speed reduction motor, a guide rail, a dovetail strip, a receiving box, a buffer sleeve, a buffer plate and a first tension spring, wherein the supporting box is internally and rotatably connected with four driving wheels which are uniformly distributed, every two driving wheels are contacted with the material guide belt in the outer side, the first speed reduction motor is fixedly connected with the outer side of the supporting box, an output shaft of the first speed reduction motor is connected with the driving wheels through bolts, the operating platform is internally provided with two symmetrically distributed material guide rollers through bearings, the conveying belt is contacted with the outer side of the material guide roller, the second speed reduction motor is fixedly connected with the outer side of the operating platform, an output shaft of the second speed reduction motor is connected with the material guide roller through bolts, the operating platform is fixedly connected with the guide rail, and the dovetail strip is slidably connected with the inner part of the guide rail, the outside fixedly connected with of dovetail strip receives the workbin, the inside fixedly connected with cushion collar of receiving the workbin, the inside of receiving the workbin articulates there is the buffer board, be provided with extension spring one on the buffer board, the guide rail with receive the workbin contact.

Preferably, one end of the first tension spring is fixedly connected with the material receiving box, and the other end of the first tension spring is fixedly connected with the buffer plate.

As preferred, blanking mechanism includes blanking seat, blanking die holder, case, extension spring two, guide way, guide arm, guide pin bushing, slurcam, spring, blanking head, every the blanking seat of two symmetric distributions of equal fixedly connected with on the support box, the inside sliding connection of blanking seat has blanking die holder, the outside fixedly connected with case that resets of blanking seat, the inside of case that resets is provided with extension spring two, set up four evenly distributed's guide way on the blanking seat, the inside fixedly connected with guide arm of guide way, the outside sliding connection of guide arm has the guide pin bushing, fixedly connected with slurcam on the guide pin bushing, the inside of guide pin bushing is provided with the spring, fixedly connected with blanking head on the slurcam, blanking head with blanking seat sliding connection.

Preferably, one end of the second tension spring is fixedly connected with the reset box, and the other end of the second tension spring is fixedly connected with the blanking die box.

Preferably, one end of the spring is fixedly connected with the guide sleeve, and the other end of the spring is fixedly connected with the guide rod.

As preferred, slewing mechanism includes servo motor, mount pad, ball, telescopic cylinder, connecting plate, connecting block, clamp plate, the inside fixedly connected with servo motor of rotation seat, the terminal fixedly connected with mount pad of servo motor's output shaft, sliding connection has the ball on the rotation seat, the ball with the mount pad contact, the inside fixedly connected with telescopic cylinder of mount pad, telescopic cylinder's output fixedly connected with connecting plate, fixedly connected with connecting block on the connecting plate, fixedly connected with clamp plate on the connecting block.

Preferably, the number of the balls is multiple, and the multiple balls are uniformly distributed on the rotating seat.

The invention has the beneficial effects that: the invention relates to a rotary multi-station blanking device for manufacturing a computer mainboard, which has the characteristics of convenience for replacing the mainboard and convenience for collecting the punched mainboard, and compared with the traditional rotary multi-station blanking device for manufacturing the computer mainboard, the rotary multi-station blanking device for manufacturing the computer mainboard has the following two beneficial effects in specific use:

firstly, an un-blanked main board can be accommodated into a blanking seat through sliding between a blanking die box and the blanking seat in the blanking mechanism, then the main board is blanked between blanking heads, and when the main board is blanked, the main board is positioned in the blanking seat, so that workers cannot be accidentally injured even if the main board is broken;

secondly, through adding on the operation panel and establishing the guide strip, conveyer belt and receipts workbin isotructure, with the mainboard blanking back, the mainboard falls on the guide strip, then the inside of receiving the workbin with its conveyer belt through the transmission of guide strip and conveyer belt to can avoid the manual work to take, make the mainboard be convenient for more collect, and can cushion the mainboard that drops through the buffer board and the cushion collar that receive workbin inside, can prevent that the mainboard from damaging.

Description of the drawings:

for ease of illustration, the invention is described in detail by the following detailed description and the accompanying drawings.

FIG. 1 is a perspective view of the overall construction of the present invention;

FIG. 2 is a front cross-sectional view of FIG. 1 of the present invention;

FIG. 3 is a left side view of FIG. 2 of the present invention;

FIG. 4 is a front cross-sectional view of the rotating hub of FIG. 1 in accordance with the present invention;

fig. 5 is an enlarged cross-sectional view of the blanking seat of fig. 2 of the present invention;

FIG. 6 is an enlarged view of the portion A of FIG. 2 according to the present invention;

fig. 7 is an enlarged view of the structure of the part B of fig. 2 according to the present invention.

In the figure: 1. an operation table; 2. a material receiving mechanism; 3. a support box; 4. a blanking mechanism; 5. a rotating seat; 6. a rotating mechanism; 7. supporting legs; 21. a drive wheel; 22. a material guide belt; 23. a first speed reducing motor; 24. a material guide roller; 25. a conveyor belt; 26. a second speed reducing motor; 27. a guide rail; 28. a dovetail strip; 29. a material receiving box; 20. a buffer sleeve; 201. a buffer plate; 202. a first tension spring; 41. blanking the base; 42. blanking the die box; 43. a reset box; 44. a tension spring II; 45. a guide groove; 46. a guide bar; 47. a guide sleeve; 48. a push plate; 49. a spring; 40. punching a head; 61. a servo motor; 62. a mounting seat; 63. a ball bearing; 64. a telescopic cylinder; 65. a connecting plate; 66. connecting blocks; 67. and (7) pressing a plate.

The specific implementation mode is as follows:

as shown in fig. 1 to 7, the following technical solutions are adopted in the present embodiment:

example (b):

the utility model provides a rotation type multistation blanking device for computer motherboard makes, includes operation panel 1, receiving agencies 2, supports box 3, blanking mechanism 4, rotates seat 5, slewing mechanism 6, supporting leg 7, be provided with receiving agencies 2 on the operation panel 1, fixedly connected with supports box 3 on the operation panel 1, the quantity that supports box 3 is four, four it is in to support box 3 evenly distributed on the operation panel 1, be provided with blanking mechanism 4 on the support box 3, fixedly connected with rotates seat 5 on the operation panel 1, be provided with slewing mechanism 6 on rotating seat 5, four evenly distributed's supporting leg 7 of lower extreme fixedly connected with of operation panel 1.

Wherein, the receiving mechanism 2 comprises a driving wheel 21, a material guiding belt 22, a first reducing motor 23, a material guiding roller 24, a conveying belt 25, a second reducing motor 26, a guide rail 27, a dovetail strip 28, a material receiving box 29, a buffer sleeve 20, a buffer plate 201 and a first tension spring 202, the supporting box 3 is internally and rotatably connected with four driving wheels 21 which are uniformly distributed, every two driving wheels 21 are in contact with the outer side of each driving wheel 21 to form the material guiding belt 22, the first reducing motor 23 is fixedly connected with the outer side of the supporting box 3, the output shaft of the first reducing motor 23 is connected with the driving wheels 21 through bolts, the two material guiding rollers 24 which are symmetrically distributed are arranged in the operating platform 1 through bearings, the conveying belt 25 is in contact with the outer side of the material guiding roller 24, the second reducing motor 26 is fixedly connected with the outer side of the operating platform 1, the output shaft of the second reducing motor 26 is connected with the material guiding rollers 24 through bolts, fixedly connected with guide rail 27 on the operation panel 1, the inside sliding connection of guide rail 27 has dovetail strip 28, the outside fixedly connected with of dovetail strip 28 receives workbin 29, the inside fixedly connected with cushion collar 20 of receiving workbin 29, the inside of receiving workbin 29 articulates there is buffer board 201, be provided with extension spring 202 on the buffer board 201, guide rail 27 with receive workbin 29 contact, cushion collar 20 is made by electrically conductive sponge material.

One end of the first tension spring 202 is fixedly connected with the material receiving box 29, the other end of the first tension spring 202 is fixedly connected with the buffer board 201, and the first tension spring 202 can drive the buffer board 201 to buffer the impact force of the falling main board through elastic force.

Wherein, the blanking mechanism 4 comprises a blanking seat 41, a blanking die box 42, a reset box 43, two extension springs 44, a guide groove 45, a guide rod 46, a guide sleeve 47, a push plate 48, a spring 49 and a blanking head 40, each of the support boxes 3 is fixedly connected with two blanking seats 41 which are symmetrically distributed, the inner part of each blanking seat 41 is slidably connected with the blanking die box 42, the outer side of each blanking seat 41 is fixedly connected with the reset box 43, the inner part of each reset box 43 is provided with the two extension springs 44, the blanking seat 41 is provided with the four guide grooves 45 which are uniformly distributed, the guide rod 46 is fixedly connected with the inner part of each guide groove 45, the outer side of each guide rod 46 is slidably connected with the guide sleeve 47, the push plate 48 is fixedly connected with the guide sleeve 47, the spring 49 is arranged in the inner part of each guide sleeve 47, the blanking head 40 is fixedly connected with the push plate 48, and the blanking head 40 is slidably connected with the blanking seat 41, the guide groove 45 can secondarily guide the guide bush 47.

One end of the second extension spring 44 is fixedly connected with the reset box 43, the other end of the second extension spring 44 is fixedly connected with the blanking die box 42, and the second extension spring 44 can drive the blanking die box 42 to automatically slide into the blanking seat 41.

One end of the spring 49 is fixedly connected with the guide sleeve 47, the other end of the spring 49 is fixedly connected with the guide rod 46, and the spring 49 can drive the guide sleeve 47 to automatically reset through elasticity.

Wherein, slewing mechanism 6 includes servo motor 61, mount pad 62, ball 63, telescopic cylinder 64, connecting plate 65, connecting block 66, clamp plate 67, the inside fixedly connected with servo motor 61 of rotation seat 5, the terminal fixedly connected with mount pad 62 of servo motor 61's output shaft, sliding connection has ball 63 on the rotation seat 5, ball 63 with the mount pad 62 contacts, the inside fixedly connected with telescopic cylinder 64 of mount pad 62, telescopic cylinder 64's output fixedly connected with connecting plate 65, fixedly connected with connecting block 66 on the connecting plate 65, fixedly connected with clamp plate 67 on the connecting block 66, servo motor 61's model is 80ST-M01330LB, belongs to prior art.

The number of the balls 63 is multiple, the balls 63 are uniformly distributed on the rotating seat 5, and the balls 63 can support the mounting seat 62.

The using state of the invention is as follows: when the blanking die box 42 is pulled, when the blanking die box 42 moves towards the outside of the blanking seat 41, the second tension spring 44 is stretched, then the non-punched main board is placed in the blanking die box 42, the blanking die box 42 is loosened, the second tension spring 44 is reset, the second tension spring 44 drives the blanking die box 42 to slide into the blanking seat 41 through elasticity, each blanking die box 42 is clamped in sequence, in the clamping process, the telescopic cylinder 64 is started, the telescopic cylinder 64 drives the pressing plate 67 to move upwards through the connecting plate 65 and the connecting block 66, the pressing plate 67 drives the pushing plate 48 through the pushing plate 48 in the moving process, the pushing plate 48 moves through the blanking head 40, the blanking head 40 can blank the main board in the blanking die box 42, after the main board with an angle is blanked, the servo motor 61 is started, the servo motor 61 drives the mounting seat 62 to rotate, when the connecting plate 65 rotates by 90 degrees, stopping the servo motor 61, and then starting the telescopic cylinder 64 to punch the mainboard at the current position;

the mainboard after the blanking is accomplished falls to guide belt 22, then start gear motor 23 and two 26 of gear motor, gear motor 23 drives guide belt 22 through drive wheel 21 and rotates, guide belt 22 drives the mainboard and removes, when the mainboard removes the edge, can fall on conveyer belt 25 through the opening part on the supporting box 3, two 26 of gear motor drive conveyer belt 25 through guide roller 24 and remove, conveyer belt 25 drives the mainboard and removes to the outside of operation panel 1, after the mainboard removes the edge of conveyer belt 25, slide into the inside of receiving box 29, when falling into the inside of receiving box 29, contact buffer board 201 in advance, buffer board 201 stimulates first extension spring 202, extension spring 202 drives buffer board 201 through elasticity and cushions the whereabouts impact force of mainboard, slide into the inside of cushion collar 20 after the buffering and avoid the mainboard to damage.

While there have been shown and described what are at present considered to be the fundamental principles of the invention and its essential features and advantages, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (8)

1. The utility model provides a rotation type multistation blanking device for computer motherboard makes, includes operation panel (1), receiving agencies (2), support box (3), blanking mechanism (4), rotates seat (5), slewing mechanism (6), supporting leg (7), its characterized in that: be provided with receiving agencies (2) on operation panel (1), fixedly connected with supports box (3) on operation panel (1), the quantity that supports box (3) is four, four support box (3) be in evenly distributed on operation panel (1), be provided with blanking mechanism (4) on supporting box (3), fixedly connected with rotates seat (5) on operation panel (1), it is provided with slewing mechanism (6) on seat (5) to rotate, supporting leg (7) of four evenly distributed of lower extreme fixedly connected with of operation panel (1).

2. A rotary multi-station blanking apparatus for use in computer motherboard manufacturing as recited in claim 1 wherein: the receiving mechanism (2) comprises driving wheels (21), a material guide belt (22), a first speed reducing motor (23), a material guide roller (24), a conveyor belt (25), a second speed reducing motor (26), a guide rail (27), a dovetail strip (28), a receiving box (29), a buffer sleeve (20), a buffer plate (201) and a first tension spring (202), wherein the supporting box (3) is internally and rotatably connected with four driving wheels (21) which are uniformly distributed, the outer sides of every two driving wheels (21) are contacted with the material guide belt (22), the outer side of the supporting box (3) is fixedly connected with the first speed reducing motor (23), an output shaft of the first speed reducing motor (23) is connected with the driving wheels (21) through bolts, the operating platform (1) is internally provided with two symmetrically distributed material guide rollers (24) through bearings, the outer sides of the material guide rollers (24) are contacted with the conveyor belt (25), the outside fixedly connected with gear motor two (26) of operation panel (1), the output shaft of gear motor two (26) with material guide roller (24) pass through bolted connection, fixedly connected with guide rail (27) on operation panel (1), the inside sliding connection of guide rail (27) has dovetail strip (28), the outside fixedly connected with of dovetail strip (28) receives workbin (29), the inside fixedly connected with cushion collar (20) of receiving workbin (29), the inside of receiving workbin (29) articulates there is buffer board (201), be provided with extension spring (202) on buffer board (201), guide rail (27) with receive workbin (29) contact.

3. A rotary multi-station blanking apparatus for use in computer motherboard manufacturing as recited in claim 2 wherein: one end of the first tension spring (202) is fixedly connected with the material receiving box (29), and the other end of the first tension spring (202) is fixedly connected with the buffer plate (201).

4. A rotary multi-station blanking apparatus for use in computer motherboard manufacturing as recited in claim 1 wherein: the blanking mechanism (4) comprises a blanking seat (41), a blanking die box (42), a reset box (43), two tension springs (44), a guide groove (45), a guide rod (46), a guide sleeve (47), a push plate (48), a spring (49) and a blanking head (40), wherein each supporting box (3) is fixedly connected with two blanking seats (41) which are symmetrically distributed, the blanking seat (41) is connected with the blanking die box (42) in a sliding manner, the outer side of the blanking seat (41) is fixedly connected with the reset box (43), the reset box (43) is internally provided with the two tension springs (44), the blanking seat (41) is provided with four guide grooves (45) which are uniformly distributed, the guide rod (46) is fixedly connected in the guide groove (45), the outer side of the guide rod (46) is connected with the guide sleeve (47) in a sliding manner, the push plate (48) is fixedly connected with the guide sleeve (47), the spring (49) is arranged in the guide sleeve (47), the pushing plate (48) is fixedly connected with a punching head (40), and the punching head (40) is in sliding connection with the punching seat (41).

5. A rotary multi-station blanking device for manufacturing computer motherboard according to claim 4, characterized in that: one end of the second tension spring (44) is fixedly connected with the reset box (43), and the other end of the second tension spring (44) is fixedly connected with the blanking die box (42).

6. A rotary multi-station blanking device for manufacturing computer motherboard according to claim 4, characterized in that: one end of the spring (49) is fixedly connected with the guide sleeve (47), and the other end of the spring (49) is fixedly connected with the guide rod (46).

7. A rotary multi-station blanking apparatus for use in computer motherboard manufacturing as recited in claim 1 wherein: slewing mechanism (6) are including servo motor (61), mount pad (62), ball (63), telescopic cylinder (64), connecting plate (65), connecting block (66), clamp plate (67), the inside fixedly connected with servo motor (61) of rotation seat (5), terminal fixedly connected with mount pad (62) of the output shaft of servo motor (61), sliding connection has ball (63) on rotation seat (5), ball (63) with mount pad (62) contact, the inside fixedly connected with telescopic cylinder (64) of mount pad (62), the output fixedly connected with connecting plate (65) of telescopic cylinder (64), fixedly connected with connecting block (66) on connecting plate (65), fixedly connected with clamp plate (67) on connecting block (66).

8. A rotary multi-station blanking apparatus for use in computer motherboard manufacture according to claim 7, wherein: the number of the balls (63) is multiple, and the balls (63) are uniformly distributed on the rotating seat (5).

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