CN217756097U - Roller feeding structure of IC rib cutting forming machine - Google Patents

Abstract

The utility model discloses a gyro wheel pay-off structure of IC muscle make-up machine of cutting relates to electron device production technical field. The automatic feeding device comprises a bottom plate, wherein a first motor, a second motor, a first feeding assembly and a second feeding assembly are respectively installed on the bottom plate, the first motor is in transmission connection with the first feeding assembly, the second motor is in transmission connection with the second feeding assembly, the second feeding assembly is in transmission connection with the first feeding assembly through a synchronous belt, and the first feeding assembly and the second feeding assembly respectively comprise a shaft supporting seat, a front transmission shaft, a rear transmission shaft, a lower roller, a pedestal, a front jacking cylinder, a rear jacking cylinder, a pressing plate and an upper roller. The bar cutting material strips are longitudinally shifted under the guide of the rollers distributed from top to bottom, and can be conveyed according to linear stepping, pause bar cutting and linear stepping paths by means of sequential driving of the first motor and the second motor, the adjustment process is completed along with the work of the feeding assembly, no additional control device is needed, and the system stability and efficiency are high.

Description

Roller feeding structure of IC rib cutting forming machine

Technical Field

The utility model relates to an electron device production technical field specifically is a gyro wheel pay-off structure of IC tendon cutting and forming machine.

Background

The semiconductor and IC rib cutting system is mainly used for cutting off connecting ribs of plastic packaged electronic components, is indispensable equipment for a semiconductor production process, and comprises a feeding device, a cutting device and the like.

The feeding process refers to longitudinally pushing the plastic packaging material strip into the feeding track, the shifting rod is required to hook a positioning hole of the plastic packaging material strip in the feeding process, the plastic packaging material strip after feeding is completed corresponds to the shifting rod in position, a special displacement adjusting step needs to be set in the feeding process, and in order to complete displacement adjustment, the feeding device in the prior art comprises an air cylinder and a moving block connected to the output end of the air cylinder, and the moving block longitudinally shifts to push the plastic packaging material strip through the air cylinder.

Because longitudinal feeding and longitudinal displacement adjustment of the plastic packaging material strip need to be performed in sequence, in the feeding device in the prior art, a control module needs to be arranged to coordinate the action time of different cylinders, and the control module needs to accurately adjust the time sequence of the system, so that the feeding device in the prior art has low efficiency, poor system stability and high failure rate.

SUMMERY OF THE UTILITY MODEL

The utility model provides a gyro wheel pay-off structure of IC tendon cutting make-up machine to solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a roller feeding structure of an IC (integrated circuit) rib cutting forming machine comprises a bottom plate, wherein a first motor, a second motor, a first feeding assembly and a second feeding assembly are respectively installed on the bottom plate, the first motor is in transmission connection with the first feeding assembly, the second motor is in transmission connection with the second feeding assembly, and the second feeding assembly is in transmission connection with the first feeding assembly through a synchronous belt;

first pay-off subassembly and second pay-off subassembly all include axle supporting seat, preceding transmission shaft, rear drive shaft, lower gyro wheel, pedestal, preceding jacking cylinder, back jacking cylinder, clamp plate and go up the gyro wheel, preceding transmission shaft and rear drive shaft are installed respectively in the front and back both ends of axle supporting seat, the gyro wheel is installed respectively in the both ends of preceding transmission shaft and rear drive shaft down, the pedestal passes through the connecting rod and installs in the both sides of axle supporting seat, preceding jacking cylinder and back jacking cylinder are installed respectively in the front and back both ends of pedestal, clamp plate and last gyro wheel are installed respectively on the output of preceding jacking cylinder and back jacking cylinder.

Furthermore, the second motor is in transmission connection with a rear transmission shaft of the second feeding assembly through a coupler, and the rear transmission shaft of the second feeding assembly is in transmission connection with a front transmission shaft of the second feeding assembly through a synchronous belt.

Furthermore, the front transmission shaft of the second feeding assembly is in transmission connection with the rear transmission shaft of the first feeding assembly through a synchronous belt, and the first motor is in transmission connection with the front transmission shaft of the first feeding assembly through a coupler.

Furthermore, a material removing opening is formed in the bottom plate and is located between the first feeding assembly and the second feeding assembly.

Furthermore, one side of the pedestal is provided with a feed chute, and the top end of the lower roller penetrates into the feed chute.

Furthermore, one side of the pressing plate covers the feeding groove, and the bottom end of the upper roller penetrates through the pressing plate and extends into the feeding groove.

Compared with the prior art, the utility model provides a gyro wheel pay-off structure of IC eager muscle make-up machine possesses following beneficial effect:

according to the roller feeding structure of the IC tendon-cutting forming machine, tendon-cutting material strips are longitudinally displaced under the guiding of the rollers distributed from top to bottom, and can be conveyed according to linear stepping, pause tendon-cutting and linear stepping paths by virtue of sequential driving of the first motor and the second motor, the adjustment process is completed along with the work of the feeding assembly, no additional control device is needed, and the system stability and efficiency are high.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a structural diagram of a first feeding assembly of the present invention;

fig. 3 is a partial schematic view of the first feeding assembly of the present invention.

In the figure: 1. a base plate; 2. a first motor; 3. a second motor; 4. a first feeding assembly; 5. a second feeding assembly; 6. a shaft support seat; 7. a front drive shaft; 8. a rear drive shaft; 9. a lower roller; 10. a pedestal; 11. a front jacking cylinder; 12. a rear jacking cylinder; 13. pressing a plate; 14. an upper roller; 15. a material removing port; 16. a feed chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the utility model discloses a roller feeding structure of an IC tendon cutting forming machine, including a bottom plate 1, a first motor 2, a second motor 3, a first feeding component 4 and a second feeding component 5 are respectively installed on the bottom plate 1, the first motor 2 is in transmission connection with the first feeding component 4, the second motor 3 is in transmission connection with the second feeding component 5, and the second feeding component 5 is in transmission connection with the first feeding component 4 through a synchronous belt, tendon cutting strips are longitudinally displaced under the guide of rollers distributed up and down, and can be conveyed according to linear stepping, tendon cutting pause and linear stepping paths by virtue of the sequential driving of the first motor 2 and the second motor 3, the adjustment process is completed along with the work of the feeding components, no additional control device is needed, and the system stability and efficiency are high;

first feeding unit 4 and second feeding unit 5 all include axle supporting seat 6, preceding transmission shaft 7, rear drive axle 8, lower gyro wheel 9, pedestal 10, preceding jacking cylinder 11, back jacking cylinder 12, clamp plate 13 and go up gyro wheel 14, preceding transmission shaft 7 and rear drive axle 8 are installed respectively in axle supporting seat 6 both ends around, gyro wheel 9 is installed respectively in preceding transmission shaft 7 and rear drive axle 8's both ends down, pedestal 10 installs in the both sides of axle supporting seat 6 through the connecting rod, preceding jacking cylinder 11 and back jacking cylinder 12 install respectively in pedestal 10 both ends around, clamp plate 13 and last gyro wheel 14 are installed respectively on the output of preceding jacking cylinder 11 and back jacking cylinder 12.

Specifically, the second motor 3 is in transmission connection with a rear transmission shaft 8 of the second feeding assembly 5 through a coupler, and the rear transmission shaft 8 of the second feeding assembly 5 is in transmission connection with a front transmission shaft 7 of the second feeding assembly 5 through a synchronous belt.

In the embodiment, when the first feeding component 4 longitudinally shifts the bar cutting component, the rear half part and the second feeding component 5 keep a synchronous feeding state, so that the bar cutting component stops conveying after reaching the bar cutting position.

Specifically, the front transmission shaft 7 of the second feeding assembly 5 is in transmission connection with the rear transmission shaft 8 of the first feeding assembly 4 through a synchronous belt, and the first motor 2 is in transmission connection with the front transmission shaft 7 of the first feeding assembly 4 through a coupler.

In this embodiment, the first feeding assembly 4 is driven by the first motor 2 to longitudinally displace the fed bar cutting material strip.

Specifically, a material removing opening 15 is formed in the bottom plate 1, and the material removing opening 15 is located between the first feeding assembly 4 and the second feeding assembly 5.

In this embodiment, the bar cutting material strip is after the bar cutting, and the product is discharged through the discharge opening 15, and the material strip is sent out through the drive of second motor 3.

Specifically, a feeding groove 16 is formed in one side of the pedestal 10, and the top end of the lower roller 9 penetrates into the feeding groove 16.

In this embodiment, the feeding chute 16 is a feeding track for the tendon-cutting material strips, and the lower roller 9 rotates under the action of the transmission shaft, so as to transfer the tendon-cutting material strips.

Specifically, one side of the pressing plate 13 covers the feeding chute 16, and the bottom end of the upper roller 14 passes through the pressing plate 13 and extends into the feeding chute 16.

In this embodiment, the pressing plate 13 may be used to limit the width of the feeding track, and the upper roller 14 is used to press and hold the bar-cutting material to keep the bar-cutting material stably moving.

When the automatic bar cutting machine is used, bar cutting material strips are longitudinally displaced under the guide of rollers distributed up and down, the bar cutting material strips are sequentially driven by the first motor 2 and the second motor 3 and are conveyed according to linear stepping, pause bar cutting and linear stepping paths through the first feeding assembly 4 and the second feeding assembly 5 respectively, the adjustment process is completed along with the work of the feeding assemblies, an additional control device is not needed, and the system stability and the efficiency are high.

In conclusion, according to the roller feeding structure of the IC rib cutting forming machine, the rib cutting material strips are longitudinally displaced under the guide of the rollers which are distributed up and down, the rib cutting material strips can be conveyed according to linear stepping, pause rib cutting and linear stepping paths by virtue of sequential driving of the first motor 2 and the second motor 3, the adjustment process is completed along with the work of the feeding assembly, no additional control device is needed, and the system stability and efficiency are high.

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

Claims (6)

1. The utility model provides a gyro wheel pay-off structure of IC eager muscle make-up machine, includes bottom plate (1), its characterized in that: a first motor (2), a second motor (3), a first feeding assembly (4) and a second feeding assembly (5) are respectively mounted on the bottom plate (1), the first motor (2) is in transmission connection with the first feeding assembly (4), the second motor (3) is in transmission connection with the second feeding assembly (5), and the second feeding assembly (5) is in transmission connection with the first feeding assembly (4) through a synchronous belt;

first pay-off subassembly (4) and second pay-off subassembly (5) all include axle supporting seat (6), preceding transmission shaft (7), rear drive axle (8), lower gyro wheel (9), pedestal (10), preceding jacking cylinder (11), back jacking cylinder (12), clamp plate (13) and go up gyro wheel (14), both ends around axle supporting seat (6) are installed respectively in preceding transmission shaft (7) and rear drive axle (8), install respectively in the both ends of preceding transmission shaft (7) and rear drive axle (8) down gyro wheel (9), install in the both sides of axle supporting seat (6) through the connecting rod in pedestal (10), both ends around pedestal (10) are installed respectively in preceding jacking cylinder (11) and back jacking cylinder (12), clamp plate (13) and last gyro wheel (14) are installed respectively on the output of preceding jacking cylinder (11) and back jacking cylinder (12).

2. The roller feeding structure of the IC tendon cutting and forming machine according to claim 1, wherein: the second motor (3) is in transmission connection with a rear transmission shaft (8) of the second feeding assembly (5) through a coupler, and the rear transmission shaft (8) of the second feeding assembly (5) is in transmission connection with a front transmission shaft (7) of the second feeding assembly (5) through a synchronous belt.

3. The roller feeding structure of the IC bar cutting and forming machine according to claim 1, wherein: the front transmission shaft (7) of the second feeding assembly (5) is in transmission connection with the rear transmission shaft (8) of the first feeding assembly (4) through a synchronous belt, and the first motor (2) is in transmission connection with the front transmission shaft (7) of the first feeding assembly (4) through a coupler.

4. The roller feeding structure of the IC tendon cutting and forming machine according to claim 1, wherein: and a stripping opening (15) is formed in the bottom plate (1), and the stripping opening (15) is positioned between the first feeding component (4) and the second feeding component (5).

5. The roller feeding structure of the IC bar cutting and forming machine according to claim 1, wherein: one side of the pedestal (10) is provided with a feeding groove (16), and the top end of the lower roller (9) penetrates into the feeding groove (16).

6. The roller feeding structure of the IC slitting molding machine according to claim 5, wherein: one side of the pressing plate (13) covers the feeding groove (16), and the bottom end of the upper roller (14) penetrates through the pressing plate (13) and extends into the feeding groove (16).

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