CN109093179B

CN109093179B - Hydraulic tappet two-end flattening device

Info

Publication number: CN109093179B
Application number: CN201811080233.1A
Authority: CN
Inventors: 张锋毅
Original assignee: Zhangzhou Longwen Yangding Machinery Co ltd
Current assignee: Guangdong Yude Electric Technology Co.,Ltd.
Priority date: 2018-09-17
Filing date: 2018-09-17
Publication date: 2020-07-10
Anticipated expiration: 2038-09-17
Also published as: CN109093179A

Abstract

The invention relates to the technical field of automobile part machining equipment, in particular to hydraulic tappet two-end flattening equipment.

Description

Hydraulic tappet two-end flattening device

Technical Field

The invention relates to the technical field of automobile part machining equipment, in particular to a hydraulic tappet two-end flattening device.

Background

The hydraulic tappet is an automobile accessory, and both ends on the hydraulic tappet are the cooperation department, therefore require the machining precision higher, and the processing of cutting flat of this kind of hydraulic tappet among the prior art all adopts the lathe to carry out single face processing, then changes the process and carries out the cutting flat of another side again, all adopts the manual work to carry out feed and material returned moreover, and efficiency is very low.

Disclosure of Invention

In order to solve the defects and problems existing in the hydraulic tappet flattening process in the prior art, the hydraulic tappet two-end flattening equipment is provided.

The technical scheme adopted by the invention for solving the technical problem is as follows: the two-end flattening equipment for the hydraulic tappet comprises a workbench, wherein an automatic feeding mechanism, two-end flattening mechanisms and a material ejecting mechanism are arranged on the workbench; the automatic feeding mechanism comprises a feeding chassis, the feeding chassis is fixed on a workbench through a supporting rod, two adjusting plates are arranged on the feeding chassis, an inclined rail is formed between the two adjusting plates, two distance adjusting devices are arranged on the side edge of one adjusting plate and used for adjusting the distance between the two adjusting plates, namely the width of the inclined rail is adjusted, one end of each distance adjusting device is fixed on the feeding chassis, the other end of each distance adjusting device is propped against the adjusting plate through an ejector rod, a material pressing device is arranged on the side edge of the automatic feeding mechanism, the material pressing device comprises a base, a supporting rod extends out of the base, the supporting rod is downwards connected with a pressing plate, and the pressing plate is matched with the inclined rail; the tail end of the automatic feeding mechanism is also provided with a gate device, the gate device comprises a supporting seat, the supporting seat is clamped outside the inclined rail, the lower end of the supporting seat is provided with a material through hole, the material through hole faces the inclined rail, the material through hole is provided with a gate, and the gate is controlled by a gate cylinder arranged at the upper end of the supporting seat; the two-end cutting mechanism comprises a clamping seat, a left cutting device and a right cutting device, the clamping seat is matched with a gate device of the automatic feeding mechanism, a feeding hole is arranged on the clamping seat, the feeding hole faces to the discharging position of the gate device, the feeding hole is directly communicated to a material clamping through hole, and a clamping air cylinder is arranged on the clamping seat; the left flattening device and the right flattening device are arranged on a slide rail, the left flattening device and the right flattening device can slide along the slide rail, the left flattening device and the right flattening device are provided with rotary cutter sets, the rotary cutter sets are driven by motors on the left flattening device and the right flattening device to rotate, the rotary cutter sets are distributed at two ends of the clamping seat, and the rotary cutter sets are used for flattening two ends of a workpiece on the clamping seat; the ejection mechanism be equipped with the pay-off seat, the pay-off seat set up on a track, be equipped with a feeding cylinder at the track end, the pay-off seat can slide along the track under feeding cylinder drives, be equipped with on the pay-off seat and connect the material seat, be equipped with on connecting the material seat and connect the material hole, connect the material hole can be by the material cylinder control elasticity of connecing of setting up in the pay-off seat upper end, still be equipped with an ejector beam at ejection mechanism side, the ejector beam is controlled by an ejector cylinder, the ejector beam pushes up the work piece on the cassette to connect the material downthehole under the drive of ejector cylinder.

The workbench is provided with a fixed pillow, one end of the support rod is fixed on the fixed pillow, and the other end of the support rod is propped against the feeding chassis.

The rotary knife group is driven to rotate by a rotating shaft, and the rotating shaft is connected by a motor through a belt to drive to rotate.

The invention has the beneficial effects that: compared with the prior art, the hydraulic tappet two-end flattening equipment disclosed by the invention adopts the automatic feeding mechanism, the two-end flattening mechanism and the ejection mechanism to automatically feed materials, simultaneously flatten two ends and automatically discharge materials, adopts an automatic design, and has the advantages of high processing efficiency, stable processing precision, high product qualification rate and the like.

Drawings

The two-end cutting device for the hydraulic tappet according to the present invention will be further described with reference to the accompanying drawings and the detailed description.

Fig. 1 is a schematic perspective view of a hydraulic tappet two-end flattening device according to the present invention.

Detailed Description

As shown in fig. 1, the two-end trimming device for the hydraulic tappet of the present invention includes a working table 1, and an automatic feeding mechanism 10, a two-end trimming mechanism 20, and an ejection mechanism 30 are disposed on the working table 1. The automatic feeding mechanism 10 is used for conveying the workpiece 0, namely, a semi-finished product of the hydraulic tappet, the two-end flattening mechanism 20 is used for flattening the workpiece 0 from two ends, and the ejection mechanism 30 is used for delivering the processed workpiece 0 from the two-end flattening mechanism 20.

As shown in fig. 1, the automatic feeding mechanism 10 includes a feeding chassis 11, a fixed pillow 2 is disposed on the working platform 1, a supporting rod 3 is connected to the fixed pillow 2, one end of the supporting rod 3 is fixed on the fixed pillow 2, the other end of the supporting rod abuts against the feeding chassis 11, and the feeding chassis 11 is fixed on the working platform 1 through the supporting rod 3. Two adjusting plates 12 are arranged on a feeding chassis 11, an inclined rail 13 is formed between the two adjusting plates 12, two distance adjusting devices 14 are arranged on the side edge of one adjusting plate 12, one end of each distance adjusting device 14 is fixed on the feeding chassis 11, the other end of each distance adjusting device 14 is propped against the corresponding adjusting plate 12 through an ejector rod 141, and the distance adjusting devices 14 are used for adjusting the distance between the two adjusting plates 12, namely the width of the inclined rail 13. The inclined rail 13 is used for placing the workpiece 0, the workpiece 0 is transversely placed in the inclined rail 13, the inclined rail 13 is matched with the workpiece 0, namely the width of the inclined rail 13 is matched with the length of the workpiece 0, and the inclined rail 13 has a certain inclination angle, so that the cylindrical workpiece 0 can roll down along the inclined rail 13 under the self-gravity factor.

As shown in fig. 1, a pressing device 40 is disposed at a side of the automatic feeding mechanism 10, the pressing device 40 includes a base 41, a supporting rod 42 extends from the base 41, the supporting rod 42 is connected with a pressing plate 43 downward, and the pressing plate 43 is engaged with the inclined rail 13; the pressing plate 43 presses the workpiece 0 on the inclined rail 13, and the pressing plate 43 is used for preventing the workpiece 0 from jumping out due to extrusion in the process of rolling down.

As shown in fig. 1, the end of the automatic feeding mechanism 10 is further provided with a gate device, the gate device includes a supporting seat 16, the supporting seat 16 is clamped outside the inclined rail 13, a material passing hole 17 is formed at the lower end of the supporting seat 16, the material passing hole faces the inclined rail 13, a gate 18 is arranged on the material passing hole 17, and the gate 18 is controlled by a gate cylinder 15 arranged at the upper end of the supporting seat 16. The workpiece 0 rolled down from the inclined rail 13 directly rolls down to the through hole 17 of the gate device, and rolls down to the two-end flattening mechanism 20 from the through hole 17 for processing. And the gate 18 arranged at the through-material hole 17 is used for controlling the rolling of the workpiece 0, so that the previous workpiece 0 can roll into the through-material hole after the machining is finished.

As shown in fig. 1, the two-end flattening mechanism 20 includes a clamping seat 21, a left flattening device 22 and a right flattening device 23. The clamping seat 21 is matched with a gate device of the automatic feeding mechanism 10, a feeding hole 24 is arranged on the clamping seat 21, the feeding hole 24 faces to a discharging position of the gate device, a workpiece 0 discharged from the gate device directly rolls into the feeding hole 24, the feeding hole 24 is directly communicated to a clamping through hole 25, and a clamping cylinder 26 is arranged on the clamping seat 21; after the workpiece 0 enters the material clamping through hole 25 from the material inlet hole 24, the clamping cylinder 26 clamps and releases the workpiece 0 in the material clamping through hole 25.

As shown in fig. 1, the left leveling device 22 and the right leveling device 23 are both disposed on a slide rail 27, the left leveling device 22 and the right leveling device 23 can slide along the slide rail 27, the left leveling device 22 and the right leveling device 23 are provided with a rotary knife set 28, the rotary knife set 28 is driven to rotate by a motor 29 on the left leveling device 22 and the right leveling device 23, the rotary knife set 28 is driven to rotate by a rotating shaft 281, and the rotating shaft 281 is driven to rotate by the motor 29 through a belt connection. The rotary cutter sets 28 are distributed at two ends of the clamping seat 21, and the rotary cutter sets 28 simultaneously flatten two ends of the workpiece 0 on the clamping seat 21.

As shown in fig. 1, the material ejecting mechanism 30 is provided with a material feeding seat 31, the material feeding seat 31 is arranged on a rail 32, a material feeding cylinder 33 is arranged at the end of the rail 32, and the material feeding seat 31 can slide along the rail 32 under the driving of the material feeding cylinder 33. The feeding seat 31 is provided with a receiving seat 34, the receiving seat 34 is provided with a receiving hole 35, and the tightness of the receiving hole 35 can be controlled by a receiving cylinder 38 arranged at the upper end of the feeding seat 31. An ejection rod 36 is further arranged on the side of the ejection mechanism 30, the ejection rod 36 is controlled by an ejection cylinder 37, and the ejection rod 36 ejects the workpiece 0 on the clamping seat 21 into the material receiving hole 35 under the driving of the ejection cylinder 37.

As shown in fig. 1, in operation, the workpiece 0 is placed on the inclined rail 13, the workpiece 0 rolls down along the inclined rail 13, when the workpiece rolls down to the gate device, the gate cylinder 15 controls the gate 18 to be opened, the workpiece 0 rolls out from the through hole 17, and then the gate cylinder 15 controls the gate 18 to be closed. The workpiece 0 rolls from the material passing hole 17 to the material passing hole 24 of the two-end flattening mechanism 20, and rolls from the material passing hole 24 to the material clamping through hole 25, then the clamping cylinder 26 acts to clamp the workpiece 0 in the material clamping through hole 25, the left flattening device 22 and the right flattening device 23 at the two ends of the clamping seat 21 are close to the workpiece 0 clamped on the clamping seat 21 along the slide rail 27, meanwhile, the motor 29 drives the rotary cutter group 28 to rotate at a high speed, when the rotary cutter group 28 contacts the workpiece 0, the workpiece 0 is flattened, and then the left flattening device 22 and the right flattening device 23 return to the original position. The clamping cylinder 26 acts to loosen the workpiece 0 in the clamping through hole 25, the feeding seat 31 of the ejection mechanism 30 is driven by the feeding cylinder 33 to approach the clamping seat 21 along the rail 32, when the material receiving hole 35 on the ejection mechanism 30 is aligned with the workpiece 0 on the clamping seat 21, namely, is positioned on the same central line, the ejection rod 36 is driven by the ejection cylinder 37 to eject the workpiece 0 on the clamping seat 21 into the material receiving hole 35, then the material receiving cylinder 38 acts to clamp the workpiece 0 of the material receiving hole 35, then the feeding cylinder 33 drives the feeding seat 31 to move outwards along the rail 32 to the upper part of the material loading frame, then the material receiving cylinder 38 loosens the workpiece 0 of the material receiving hole 35, and the workpiece 0 is taken down and placed into the material loading frame, so that the process of automatic material loading, automatic material leveling and automatic material discharging at two ends is completed. The automatic processing machine has high automation degree and high processing efficiency.

In conclusion, compared with the prior art, the hydraulic tappet two-end flattening equipment disclosed by the invention adopts the automatic feeding mechanism, the two-end flattening mechanism and the material ejecting mechanism to automatically feed, simultaneously flatten two ends and automatically discharge, adopts an automatic design, and has the advantages of high machining efficiency, stable machining precision, high product qualification rate and the like.

The present invention has been described in terms of embodiments thereof, which are illustrative and not restrictive, and it is to be understood that the scope of the invention is not limited thereto, and that variations and/or modifications may be made by those skilled in the art without departing from the scope of the invention as defined in the appended claims, and all such modifications and changes are intended to be included within the scope of the invention.

Claims

1. Hydraulic tappet both ends are surely flat equipment, its characterized in that: comprises a workbench, wherein an automatic feeding mechanism, two-end flattening mechanisms and a material ejecting mechanism are arranged on the workbench; the automatic feeding mechanism comprises a feeding chassis, the feeding chassis is fixed on a workbench through a supporting rod, two adjusting plates are arranged on the feeding chassis, an inclined rail is formed between the two adjusting plates, two distance adjusting devices are arranged on the side edge of one adjusting plate and used for adjusting the distance between the two adjusting plates, namely the width of the inclined rail is adjusted, one end of each distance adjusting device is fixed on the feeding chassis, the other end of each distance adjusting device is propped against the adjusting plate through an ejector rod, a material pressing device is arranged on the side edge of the automatic feeding mechanism, the material pressing device comprises a base, a supporting rod extends out of the base, the supporting rod is downwards connected with a pressing plate, and the pressing plate is matched with the inclined rail; the tail end of the automatic feeding mechanism is also provided with a gate device, the gate device comprises a supporting seat, the supporting seat is clamped outside the inclined rail, the lower end of the supporting seat is provided with a material through hole, the material through hole faces the inclined rail, the material through hole is provided with a gate, and the gate is controlled by a gate cylinder arranged at the upper end of the supporting seat; the two-end cutting mechanism comprises a clamping seat, a left cutting device and a right cutting device, the clamping seat is matched with a gate device of the automatic feeding mechanism, a feeding hole is arranged on the clamping seat, the feeding hole faces to the discharging position of the gate device, the feeding hole is directly communicated to a material clamping through hole, and a clamping air cylinder is arranged on the clamping seat; the left flattening device and the right flattening device are arranged on a slide rail, the left flattening device and the right flattening device can slide along the slide rail, the left flattening device and the right flattening device are provided with rotary cutter sets, the rotary cutter sets are driven by motors on the left flattening device and the right flattening device to rotate, the rotary cutter sets are distributed at two ends of the clamping seat, and the rotary cutter sets are used for flattening two ends of a workpiece on the clamping seat; the ejection mechanism is provided with a feeding seat, the feeding seat is arranged on a track, a feeding cylinder is arranged at the tail end of the track, the feeding seat can slide along the track under the driving of the feeding cylinder, a receiving seat is arranged on the feeding seat, a receiving hole is formed in the receiving seat, the tightness of the receiving hole can be controlled by the receiving cylinder arranged at the upper end of the feeding seat, an ejection rod is further arranged on the side edge of the ejection mechanism and controlled by an ejection cylinder, and the ejection rod ejects a workpiece on the clamping seat into the receiving hole under the driving of the ejection cylinder; a fixed pillow is arranged on the workbench, one end of the supporting rod is fixed on the fixed pillow, and the other end of the supporting rod is propped against the feeding chassis; the rotary knife group is driven to rotate by a rotating shaft, and the rotating shaft is connected by a motor through a belt to drive to rotate.