CN211539761U - Inner hole deburring device - Google Patents

Abstract

An inner hole deburring device comprises a clamp assembly, a movable base arranged on one side of the clamp assembly and a deburring assembly arranged on the top of the movable base; the movable base comprises a fixed bottom plate, an X-axis moving plate, a first driving unit, a Y-axis moving plate and a second driving unit, and the sliding direction of the Y-axis moving plate is vertical to that of the X-axis moving plate; the deburring component comprises a mounting base, a lifting plate, a third driving unit, a rotary driving unit and a chamfering tool. So the deburring effect is good, the work efficiency is high.

Description

Inner hole deburring device

Technical Field

The utility model relates to an engine part production technical field, especially a hole burring device.

Background

Referring to fig. 6, the oil nozzle drain pipe 100 has an inner hole 110 in the middle, and two cross holes 120 are radially formed on the outer side wall and communicate with the inner hole 110. The bottom of the oil nozzle liquid discharge pipe 100 is connected with a connecting base 130, and two mounting holes 131 are formed in the connecting base 130. After the inner hole 110 of the oil nozzle liquid discharge pipe 100 is formed, a plurality of burrs are arranged on the inner surface of the oil nozzle liquid discharge pipe, the existing deburring mode is manual deburring, the volume of the oil nozzle liquid discharge pipe 100 is small, the manual deburring effect is poor, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an effectual, the high hole burring device of work efficiency of burring to solve above-mentioned problem.

An inner hole deburring device comprises a clamp assembly, a movable base arranged on one side of the clamp assembly and a deburring assembly arranged on the top of the movable base; the movable base comprises a fixed bottom plate, an X-axis moving plate, a first driving unit, a Y-axis moving plate and a second driving unit, the X-axis moving plate is arranged on the fixed bottom plate in a sliding mode, the first driving unit is used for driving the X-axis moving plate to slide relative to the fixed bottom plate, the Y-axis moving plate is arranged on the X-axis moving plate in a sliding mode, the second driving unit is arranged on the X-axis moving plate and used for driving the Y-axis moving plate to slide relative to the X-axis moving plate, and the sliding direction of; the deburring component comprises an installation base fixedly connected with the Y-axis moving plate, a lifting plate slidably connected with one side of the installation base, a third driving unit arranged on the installation base and used for driving the lifting plate to slide up and down relative to the installation base, a rotary driving unit arranged on the lifting plate and a chamfering tool arranged at the tail end of an output shaft of the rotary driving unit.

Further, the clamp assembly comprises a positioning plate, a first limiting block positioned on the first side of the positioning plate, a second limiting block positioned on the second side of the positioning plate, a workpiece sensor arranged on the positioning plate, a plurality of clamps and a jacking cylinder arranged below the positioning plate; the top of anchor clamps is outstanding to be provided with two reference columns, and the location mouth has been seted up at the middle part of locating plate.

Furthermore, an additional plate is further arranged on the positioning plate, the additional plate is provided with an ear protruding out of the bottom of the positioning plate, and the workpiece inductor is mounted on the ear.

Furthermore, the top surface of the fixed bottom plate is provided with two first guide rails in parallel and at intervals, and the bottom of the X-axis moving plate is provided with a first sliding block in sliding connection with the first guide rails.

Furthermore, two second guide rails are arranged on the top surface of the X-axis moving plate in parallel and at intervals, a second sliding block in sliding connection with the second guide rails is arranged at the bottom of the Y-axis moving plate, and the second guide rails are perpendicular to the first guide rails.

Furthermore, a plurality of first position sensors are further arranged on one side of the fixed bottom plate, and a plurality of first induction blocks are arranged on one side of the X-axis moving plate corresponding to the first position sensors.

Furthermore, a plurality of second position sensors are further arranged on the other side of the X-axis moving plate, and a plurality of second induction blocks are arranged on one side of the Y-axis moving plate corresponding to the second position sensors.

Furthermore, the mounting base is provided with a bottom plate and a side plate vertically connected with the bottom plate, the side plate is connected with an extension plate, and the third driving unit is mounted on the extension plate; one side of the extension plate, which is far away from the installation base, is provided with a third guide rail, one side of the lifting plate, which faces the installation base, is provided with a third sliding block which is connected with the third guide rail in a sliding manner, and the output end of the third driving unit is connected with the third sliding block.

Furthermore, one side of the lifting plate, which is far away from the mounting base, is also provided with a guide block, and an output shaft of the rotary driving unit penetrates through the guide block.

Compared with the prior art, the inner hole deburring device comprises a clamp assembly, a movable base arranged on one side of the clamp assembly and a deburring assembly arranged on the top of the movable base; the movable base comprises a fixed bottom plate, an X-axis moving plate, a first driving unit, a Y-axis moving plate and a second driving unit, the X-axis moving plate is arranged on the fixed bottom plate in a sliding mode, the first driving unit is used for driving the X-axis moving plate to slide relative to the fixed bottom plate, the Y-axis moving plate is arranged on the X-axis moving plate in a sliding mode, the second driving unit is arranged on the X-axis moving plate and used for driving the Y-axis moving plate to slide relative to the X-axis moving plate, and the sliding direction of; the deburring component comprises an installation base fixedly connected with the Y-axis moving plate, a lifting plate slidably connected with one side of the installation base, a third driving unit arranged on the installation base and used for driving the lifting plate to slide up and down relative to the installation base, a rotary driving unit arranged on the lifting plate and a chamfering tool arranged at the tail end of an output shaft of the rotary driving unit. So the deburring effect is good, the work efficiency is high.

Drawings

Embodiments of the present invention are described below with reference to the accompanying drawings, in which:

fig. 1 is a schematic perspective view of the inner hole deburring device provided by the present invention.

Fig. 2 is a disassembled schematic view of the clamp assembly of fig. 1.

Fig. 3 is a perspective view of the movable base in fig. 1 from a first viewing angle.

Fig. 4 is a perspective view of the movable base in fig. 1 from a second viewing angle.

Fig. 5 is a perspective view of the deburring assembly of fig. 1.

Fig. 6 is a perspective view of a fuel injector drain.

Detailed Description

The following describes in further detail specific embodiments of the present invention based on the drawings. It should be understood that the description herein of embodiments of the invention is not intended to limit the scope of the invention.

Referring to fig. 1, the present invention provides an inner hole deburring device, which comprises a clamp assembly 10, a movable base 20 disposed on one side of the clamp assembly 10, and a deburring assembly 30 disposed on the top of the movable base 20.

Referring to fig. 2, the clamp assembly 10 includes a positioning plate 11, a first limiting block 12 located on a first side of the positioning plate 11, a second limiting block 13 located on a second side of the positioning plate 11, a workpiece sensor 14 disposed on the positioning plate 11, a plurality of clamps 15, and a jacking cylinder disposed below the positioning plate 11.

Two positioning columns 151 are arranged on the tops of the clamps 15 in a protruding mode, the positioning columns 151 penetrate through the mounting holes 131 of the oil nozzle liquid discharge pipes 100, and the clamps 15 move on a transmission line.

Locating hole 111 has been seted up at the middle part of locating plate 11, the transmission line corresponds the position of locating hole 111 and has seted up the opening, the jacking cylinder sets up in the opening part, when anchor clamps 15 removed locating hole 111 department, the jacking cylinder upwards jacks up anchor clamps 15 and oil nozzle fluid-discharge tube 100, make oil nozzle fluid-discharge tube 100 enter into locating hole 111 of locating plate 11, thereby realize the fixed to oil nozzle fluid-discharge tube 100, in the course of working that prevents the burring, oil nozzle fluid-discharge tube 100 takes place to rock.

The positioning plate 11 is further provided with an additional plate, the additional plate is provided with an ear part protruding out of the bottom of the positioning plate 11, and the workpiece sensor 14 is mounted on the ear part and used for detecting whether the clamp 15 is jacked up in place.

Referring to fig. 3 and 4, the movable base 20 includes a fixed bottom plate 21, an X-axis moving plate 22 slidably disposed on the fixed bottom plate 21, a first driving unit 23 disposed on the fixed bottom plate 21 and configured to drive the X-axis moving plate 22 to slide relative to the fixed bottom plate 21, a Y-axis moving plate 24 slidably disposed on the X-axis moving plate 22, and a second driving unit 25 disposed on the X-axis moving plate 22 and configured to drive the Y-axis moving plate 24 to slide relative to the X-axis moving plate 22. The sliding direction of the Y-axis moving plate 24 is perpendicular to the sliding direction of the X-axis moving plate 22.

Two first guide rails 211 are arranged on the top surface of the fixed bottom plate 21 in parallel and at intervals, and a first slider 221 slidably connected with the first guide rails 211 is arranged at the bottom of the X-axis moving plate 22.

Two second guide rails 222 are disposed in parallel and spaced apart on the top surface of the X-axis moving plate 22, and a second slider 241 slidably connected to the second guide rails 222 is disposed on the bottom of the Y-axis moving plate 24. The second guide rail 222 is perpendicular to the first guide rail 211.

A plurality of first position sensors 212 are further disposed on one side of the fixed base plate 21, and a plurality of first sensing blocks 223 are disposed on one side of the X-axis moving plate 22 corresponding to the first position sensors 212. When the X-axis moving plate 22 moves, the first sensing block 223 is driven to move, and the first position sensor 212 senses the position of the X-axis moving plate 22 by detecting the first sensing block 223.

A plurality of second position sensors 224 are further disposed on the other side of the X-axis moving plate 22, and a plurality of second sensing blocks 242 are disposed on one side of the Y-axis moving plate 24 corresponding to the second position sensors 224. The second position sensor 224 senses the position of the Y-axis moving plate 24 by detecting the second sensing block 242.

The bottom of the deburring assembly 30 is fixed to the Y-axis moving plate 24.

Referring to fig. 5, the deburring assembly 30 includes a mounting base 31 fixedly connected to the Y-axis moving plate 24, a lifting plate 32 slidably connected to one side of the mounting base 31, a third driving unit 33 disposed on the mounting base 31 and configured to drive the lifting plate 32 to slide up and down relative to the mounting base 31, a rotation driving unit 35 disposed on the lifting plate 32, and a chamfering blade 36 disposed at a distal end of an output shaft of the rotation driving unit 35.

The mounting base 31 has an L-shape, and includes a bottom plate and a side plate vertically connected to the bottom plate, an extension plate 34 is connected to the side plate, and the third driving unit 33 is mounted on the extension plate 34. The extension plate 34 is provided with a third guide rail 341 on a side away from the mounting base 31, the lifting plate 32 is provided with a third slider 321 slidably connected with the third guide rail 341 on a side facing the mounting base 31, and an output end of the third driving unit 33 is connected with the third slider 321.

The lifting plate 32 is further provided with a guide block 37 at a side thereof remote from the mounting base 31, and an output shaft of the rotation driving unit 35 passes through the guide block 37.

The diameter of the chamfer 36 is smaller than the radius of the inner bore 110 of the fuel injector drain 100. The position of the chamfer cutter 36 in the inner hole 110 of the oil nozzle drain pipe 100 can be adjusted through the first driving unit 23 and the second driving unit 25, specifically, the chamfer cutter 36 is controlled to move for a circle along the inner side wall of the inner hole 110 of the oil nozzle drain pipe 100, and meanwhile, the rotary driving unit 35 drives the chamfer cutter 36 to rotate, so that the inner hole 110 is deburred.

Compared with the prior art, the inner hole deburring device comprises a clamp assembly 10, a movable base 20 arranged on one side of the clamp assembly 10 and a deburring assembly 30 arranged on the top of the movable base 20; the movable base 20 comprises a fixed bottom plate 21, an X-axis moving plate 22 arranged on the fixed bottom plate 21 in a sliding manner, a first driving unit 23 arranged on the fixed bottom plate 21 and used for driving the X-axis moving plate 22 to slide relative to the fixed bottom plate 21, a Y-axis moving plate 24 arranged on the X-axis moving plate 22 in a sliding manner, and a second driving unit 25 arranged on the X-axis moving plate 22 and used for driving the Y-axis moving plate 24 to slide relative to the X-axis moving plate 22, wherein the sliding direction of the Y-axis moving plate 24 is perpendicular to the sliding direction of the X-axis moving plate 22; the deburring assembly 30 includes a mounting base 31 fixedly connected to the Y-axis moving plate 24, a lifting plate 32 slidably connected to one side of the mounting base 31, a third driving unit 33 provided on the mounting base 31 and configured to drive the lifting plate 32 to slide up and down relative to the mounting base 31, a rotation driving unit 35 provided on the lifting plate 32, and a chamfering tool 36 provided at a distal end of an output shaft of the rotation driving unit 35. So the deburring effect is good, the work efficiency is high.

The above description is only for the preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention, and any modification, equivalent replacement or improvement within the spirit of the present invention is encompassed by the claims of the present invention.

Claims (9)

1. The utility model provides an inner hole burring device which characterized in that: the deburring machine comprises a clamp assembly, a movable base arranged on one side of the clamp assembly and a deburring assembly arranged on the top of the movable base; the movable base comprises a fixed bottom plate, an X-axis moving plate, a first driving unit, a Y-axis moving plate and a second driving unit, the X-axis moving plate is arranged on the fixed bottom plate in a sliding mode, the first driving unit is used for driving the X-axis moving plate to slide relative to the fixed bottom plate, the Y-axis moving plate is arranged on the X-axis moving plate in a sliding mode, the second driving unit is arranged on the X-axis moving plate and used for driving the Y-axis moving plate to slide relative to the X-axis moving plate, and the sliding direction of; the deburring component comprises an installation base fixedly connected with the Y-axis moving plate, a lifting plate slidably connected with one side of the installation base, a third driving unit arranged on the installation base and used for driving the lifting plate to slide up and down relative to the installation base, a rotary driving unit arranged on the lifting plate and a chamfering tool arranged at the tail end of an output shaft of the rotary driving unit.

2. The internal bore deburring apparatus of claim 1 wherein: the clamp assembly comprises a positioning plate, a first limiting block positioned on the first side of the positioning plate, a second limiting block positioned on the second side of the positioning plate, a workpiece sensor arranged on the positioning plate, a plurality of clamps and a jacking cylinder arranged below the positioning plate; the top of anchor clamps is outstanding to be provided with two reference columns, and the location mouth has been seted up at the middle part of locating plate.

3. The internal bore deburring apparatus of claim 2 wherein: the positioning plate is further provided with an additional plate, the additional plate is provided with an ear protruding out of the bottom of the positioning plate, and the workpiece inductor is mounted on the ear.

4. The internal bore deburring apparatus of claim 1 wherein: the top surface of the fixed bottom plate is provided with two first guide rails in parallel and at intervals, and the bottom of the X-axis moving plate is provided with a first sliding block in sliding connection with the first guide rails.

5. The internal bore deburring apparatus of claim 4 wherein: the top surface of the X-axis moving plate is provided with two second guide rails in parallel and at intervals, the bottom of the Y-axis moving plate is provided with a second sliding block in sliding connection with the second guide rails, and the second guide rails are perpendicular to the first guide rails.

6. The internal bore deburring apparatus of claim 5 wherein: one side of the fixed bottom plate is also provided with a plurality of first position inductors, and one side of the X-axis moving plate is provided with a plurality of first induction blocks corresponding to the first position inductors.

7. The internal bore deburring apparatus of claim 6 wherein: and a plurality of second position sensors are further arranged on the other side of the X-axis moving plate, and a plurality of second induction blocks are arranged on one side of the Y-axis moving plate corresponding to the second position sensors.

8. The internal bore deburring apparatus of claim 1 wherein: the mounting base is provided with a bottom plate and a side plate vertically connected with the bottom plate, the side plate is connected with an extension plate, and the third driving unit is mounted on the extension plate; one side of the extension plate, which is far away from the installation base, is provided with a third guide rail, one side of the lifting plate, which faces the installation base, is provided with a third sliding block which is connected with the third guide rail in a sliding manner, and the output end of the third driving unit is connected with the third sliding block.

9. The internal bore deburring apparatus of claim 8 wherein: one side of the lifting plate, which is far away from the installation base, is also provided with a guide block, and an output shaft of the rotary driving unit penetrates through the guide block.

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