CN110253644B

CN110253644B - Be applied to rubber section device of car back beam shock pad processing

Info

Publication number: CN110253644B
Application number: CN201910505106.XA
Authority: CN
Inventors: 佘才武
Original assignee: Wuhu Kairen Rubber And Plastic Co ltd
Current assignee: Wuhu Kairen Rubber And Plastic Co ltd
Priority date: 2019-06-12
Filing date: 2019-06-12
Publication date: 2021-04-20
Anticipated expiration: 2039-06-12
Also published as: CN110253644A

Abstract

The invention relates to a rubber slicing device applied to machining of a rear beam shock pad of an automobile, which comprises a workbench, wherein a conveying belt and a bearing platform which are mutually abutted are arranged on the workbench; the left and right sides of the conveying belt are both connected with belt wheels. The rear part of the workbench is provided with a standing plate, the standing plate is provided with a motor, the motor is connected with an incomplete gear, and the incomplete gear is respectively meshed with a left gear, a right gear, an upper gear and a lower gear; the right gear is coaxially connected with the belt wheel, and the upper gear is connected with an auxiliary pressurizing assembly; a belt transmission component connected with the upper gear and the lower gear is arranged between the upper gear and the lower gear; the left gear is connected with a slicing assembly. The automatic slicing machine is high in automation degree, and can circularly and sequentially execute five steps of rubber conveying, rubber compaction, sliding cutting of the blade, blade resetting and compression releasing through gear tooth alternating type meshing transmission, so that the automatic slicing and slicing treatment can be conveniently and automatically carried out on the flaky rubber.

Description

Be applied to rubber section device of car back beam shock pad processing

Technical Field

The invention relates to machining equipment, in particular to a rubber slicing device applied to machining of a rear beam shock pad of an automobile.

Background

The main material of car back beam shock pad is rubber, and the rubber after banbury mixer and mill processing all is the slice usually, before throwing into flaky rubber to subsequent mixing, must carry out burst, section with the longer flaky rubber of this length, cuts into the shorter composition of length promptly, can conveniently drop into to carry out mixing in subsequent mixer, but owing to need sliced piece number more, so traditional mechanical equipment is difficult to accomplish and cuts into slices the processing to it.

Disclosure of Invention

In order to overcome the defects of the conventional technology, the invention provides a rubber slicing device applied to machining of a rear beam shock pad of an automobile.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

the rubber slicing device applied to the processing of the automobile back beam shock pad comprises a workbench, wherein a conveying belt and a bearing platform which are mutually abutted are arranged on the workbench; the left and right sides of the conveying belt are both connected with belt wheels.

The rear part of the workbench is provided with a standing plate, the standing plate is provided with a motor, the motor is connected with an incomplete gear, and the incomplete gear is respectively meshed with a left gear, a right gear, an upper gear and a lower gear; the right gear is coaxially connected with the belt wheel, and the upper gear is connected with an auxiliary pressurizing assembly; a belt transmission component connected with the upper gear and the lower gear is arranged between the upper gear and the lower gear; the left gear is connected with a slicing assembly.

The upper gear and the lower gear are both connected with longitudinal split shafts which are arranged on the standing plate through bearings, and the belt transmission component comprises rope wheels which are respectively arranged on the longitudinal split shafts; a rope belt for connecting the two transmission wheels is arranged between the two rope wheels.

The auxiliary pressurizing assembly comprises a transverse frame plate, a transverse groove is formed in the transverse frame plate, and a convex block which is eccentrically arranged on the upper gear is horizontally and movably arranged in the transverse groove; the front end of the transverse frame plate is connected with two compaction components.

Each compaction component consists of a guide rail frame, a lower pressing block, an upper connecting frame and a first spring; the guide rail frame is fixedly arranged on the workbench, the upper connecting frame is in vertical sliding fit with the guide rail frame, the lower part of the upper connecting frame is provided with a guide rod for vertically and slidably mounting the lower pressing block, and the upper end and the lower end of the first spring are correspondingly connected with the upper connecting frame and the lower pressing block respectively.

The slicer assembly includes a pinion gear in meshing engagement with a left gear; the left gear and the pinion are connected with a left branch shaft which is installed on the standing plate through a bearing, a lead screw which is connected with the left branch shaft and corresponds to the pinion is arranged on the left gear and the pinion, a knife handle is installed on the lead screw in a threaded mode, a through groove which is installed on the front portion and the rear portion of the knife handle in a sliding mode is formed in the plummer, and a blade is arranged at the upper end of the knife handle.

The slicing assembly further comprises a rear shaft arranged on the standing plate through a bearing, a rear driving wheel is arranged on the rear shaft, and two gear tooth groups correspondingly matched with the incomplete gear and the left gear are arranged on the arc surface of the rear driving wheel.

In the present invention, the blade is located in the area between the two upper attachment brackets.

The invention has the beneficial effects that:

the automatic slicing machine is high in automation degree, and can circularly and sequentially execute five steps of rubber conveying, rubber compaction, sliding cutting of the blade, blade resetting and compression releasing through gear tooth alternating type meshing transmission, so that the automatic slicing and slicing treatment can be conveniently and automatically carried out on the flaky rubber.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a top view of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

fig. 3 is a sectional view B-B of fig. 1.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be described more clearly and more completely with reference to the drawings in the following embodiments, and it is understood that the described embodiments are only a part of the present invention, rather than all of the present invention, and based on the embodiments, other embodiments obtained by those skilled in the art without inventive exercise are within the protection scope of the present invention.

As shown in fig. 1 to 3, the rubber slicing device applied to the processing of the automobile back beam shock pad comprises a workbench 1, wherein a conveying belt 2 and a bearing platform 3 which are mutually abutted are arranged on the workbench 1; the left and right sides of the conveyer belt 2 are connected with belt wheels.

A standing plate 11 is arranged at the rear part of the workbench 1, a motor 5 is arranged on the standing plate 11, the motor 5 is connected with an incomplete gear 6, and the incomplete gear 6 is respectively meshed with a left gear 7, a right gear 8, an upper gear 9 and a lower gear 10; the right gear 8 is coaxially connected with the belt wheel, and the upper gear 9 is connected with an auxiliary pressurizing assembly; a belt transmission component connected with the upper gear 9 and the lower gear 10 is arranged between the two gears; the left gear 7 is connected with a slicing assembly.

The upper gear 9 and the lower gear 10 are both connected with a longitudinal split shaft 12 which is arranged on a standing plate 11 through a bearing, and the belt transmission component comprises rope wheels 13 which are respectively arranged on the longitudinal split shaft 12; a rope belt 14 for connecting the two transmission wheels is arranged between the two rope wheels 13.

The auxiliary pressurizing assembly comprises a transverse frame plate 15, a transverse groove 15a is formed in the transverse frame plate 15, and a convex block 9a which is eccentrically arranged on the upper gear 9 is horizontally and movably arranged in the transverse groove 15 a; the front end of the transverse frame plate 15 is connected with two compaction components.

Each compaction component consists of a guide rail bracket 16, a lower pressing block 17, an upper connecting bracket 18 and a first spring 19; the guide rail frame 16 is fixedly arranged on the workbench 1, the upper connecting frame 18 is vertically matched with the guide rail frame 16 in a sliding manner, a guide rod 18a for vertically and slidably mounting the lower pressing block 17 is arranged at the lower part of the upper connecting frame 18, and the upper end and the lower end of the first spring 19 are respectively and correspondingly connected with the upper connecting frame 18 and the lower pressing block 17.

The slicer assembly includes a pinion 25 in meshing engagement with the left gear 7; the left gear 7 and the pinion 25 are both connected with a left split shaft 20 which is arranged on the queue plate 11 through a bearing, a lead screw 21 which is connected with the left split shaft 20 corresponding to the pinion 25 is arranged, a knife handle 22 is arranged on the lead screw 21 in a threaded manner, a through groove 3a which is used for installing the knife handle 22 in a front-back sliding manner is formed in the bearing table 3, and a blade 22a is arranged at the upper end of the knife handle 22.

The slicing assembly further comprises a rear shaft 23 arranged on the standing plate 11 through a bearing, a rear driving wheel 24 is arranged on the rear shaft 23, and two gear tooth groups 24a correspondingly matched with the incomplete gear 6 and the left gear 7 are arranged on the arc surface of the rear driving wheel 24.

In the present invention, the blade 22a is located in the area between the two upper attachment brackets 18.

Before the rubber belt conveyor is used, the flaky rubber needs to be manually thrown onto the conveyor belt 2.

When the gear transmission mechanism is used, the incomplete gear 6 is driven by the motor 5 to rotate clockwise at a constant speed, and the incomplete gear 6 can be circularly and sequentially meshed with the right gear 8, the lower gear 10, one gear tooth group 24a of the rear transmission wheel 24, the left gear 7 and the upper gear 9 in a circulating and sequential manner in the rotating process.

In the first step, when the right gear 8 is in mesh transmission with the incomplete gear 6, the belt pulley on the left side rotates counterclockwise along with the right gear 8, thereby causing the conveyor belt 2 to convey the sheet-like rubber to the left by a constant distance.

And secondly, when the lower gear 10 is in meshing transmission with the incomplete gear 6, the lower gear 10 rotates 180 degrees, the upper gear 9 is also rotated 180 degrees through the transmission of the rope belt 14, the lug 9a rotates to the lower limit position from the upper limit position on the upper gear 9, and under the sliding fit action, the transverse frame plate 15 and the two pressing components are all caused to slide downwards, so that the lower pressing block 17 moves downwards and is pressed and fixed on the left part of the flaky rubber under the elastic force action of the first spring 19.

Thirdly, when one gear tooth group 24a on the rear driving wheel 24 is in meshing transmission with the incomplete gear 6, the rear driving wheel 24 is caused to rotate anticlockwise, the other gear tooth group 24a of the rear driving wheel 24 can drive the left gear 7 to rotate for one circle, and under the action of differential transmission, the pinion 25 and the lead screw 21 can rotate anticlockwise for a plurality of circles, so that the knife handle 22 and the blade 22a slide forwards from the back, and one-time slicing of the flaky rubber is realized.

Fourthly, when the pinion 25 is in mesh transmission with the incomplete gear 6, the rear transmission wheel 24 is rotated and reset under the action of gear transmission, and the pinion 25 and the lead screw 21 can be rotated clockwise for several turns, namely, the tool holder 22 and the blade 22a are slidably reset from front to back.

Fifthly, when the upper gear 9 rotates to be in meshing transmission with the incomplete gear 6, the lug 9a rotates to the upper limit position from the lower limit position on the upper gear 9, and under the sliding fit action, the transverse frame plate 15 and the two pressing components slide upwards, so that the pressing state of the lower pressing block 17 on the right part of the flaky rubber is released.

Therefore, the sheet-shaped rubber can be automatically sliced by circularly and sequentially executing the five steps.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The rubber slicing device applied to the machining of the automobile back beam shock pad comprises a workbench (1), wherein a conveying belt (2) and a bearing table (3) which are mutually abutted are arranged on the workbench (1); the left side and the right side of the conveying belt (2) are both connected with belt wheels;

the method is characterized in that:

a standing plate (11) is arranged at the rear part of the workbench (1), a motor (5) is arranged on the standing plate (11), the motor (5) is connected with an incomplete gear (6), and the incomplete gear (6) is respectively meshed with a left gear (7), a right gear (8), an upper gear (9) and a lower gear (10); the right gear (8) is coaxially connected with the belt wheel, and the upper gear (9) is connected with an auxiliary pressurizing assembly; a belt transmission component connected with the upper gear (9) and the lower gear (10) is arranged between the upper gear and the lower gear; the left gear (7) is connected with a slicing assembly.

2. The rubber slicing device applied to the processing of the automobile back beam shock pad according to claim 1, is characterized in that: the upper gear (9) and the lower gear (10) are both connected with a longitudinal split shaft (12) which is arranged on a queue plate (11) through a bearing, and the belt transmission component comprises rope wheels (13) which are respectively arranged on the longitudinal split shaft (12); a rope belt (14) which is used for connecting the two transmissions is arranged between the two rope wheels (13).

3. The rubber slicing device applied to the processing of the automobile back beam shock pad according to claim 1, is characterized in that: the auxiliary pressurizing assembly comprises a transverse frame plate (15), a transverse groove (15a) is formed in the transverse frame plate (15), and a convex block (9a) which is eccentrically arranged on the upper gear (9) is horizontally and movably arranged in the transverse groove (15 a); the front end of the transverse frame plate (15) is connected with two compaction components.

4. The rubber slicing device applied to machining of the automobile back beam shock pad according to claim 3, is characterized in that: each compaction component consists of a guide rail bracket (16), a lower pressing block (17), an upper connecting bracket (18) and a first spring (19); the guide rail frame (16) is fixedly arranged on the workbench (1), the upper connecting frame (18) is vertically matched with the guide rail frame (16) in a sliding mode, a guide rod (18a) for vertically installing the lower pressing block (17) in a sliding mode is arranged on the lower portion of the upper connecting frame (18), and the upper end and the lower end of the first spring (19) are correspondingly connected with the upper connecting frame (18) and the lower pressing block (17) respectively.

5. The rubber slicing device applied to the processing of the automobile back beam shock pad according to claim 1, is characterized in that: the slicing assembly comprises a pinion (25) meshed with a left gear (7); the left gear (7) and the pinion (25) are connected with a left split shaft (20) which is mounted on the queue plate (11) through bearings, a lead screw (21) is connected with the left split shaft (20) corresponding to the pinion (25), a cutter handle (22) is mounted on the lead screw (21) in a threaded mode, a through groove (3a) which is slidably mounted in the front and back of the cutter handle (22) is formed in the bearing table (3), and a blade (22a) is arranged at the upper end of the cutter handle (22).

6. The rubber slicing device applied to machining of the automobile back beam shock pad according to claim 5, is characterized in that: the slicing assembly further comprises a rear shaft (23) arranged on the standing plate (11) through a bearing, a rear driving wheel (24) is arranged on the rear shaft (23), and two gear tooth sets (24a) correspondingly matched with the incomplete gear (6) and the left gear (7) are arranged on the arc surface of the rear driving wheel (24).