CN203649569U - Deburring mechanism of numerical-control chamfering machine - Google Patents

Abstract

The utility model discloses a deburring mechanism of a numerical-control chamfering machine. The deburring mechanism comprises a workbench base (1). A linear guide rail (2) is vertically fixed on the workbench base (1) and is provided with a shifting fork (3) in a sliding-matching manner, the upper end of the shifting fork (3) is provided with a deburring cutter bar (4) parallel to the linear guide rail (2), a cylinder (5) is arranged adjacent to the shifting fork (3), the cylinder (5) is fixed to the workbench base (1), and the piston rod of the cylinder (5) extends upwardly and vertically and is connected to the upper end of the shifting fork (3). The deburring mechanism is ingenuous in design, easy to optimize and low in optimizing cost; the numerical-control chamfering machine can finishing chamfering and deburring, processing procedures are reduced, processing efficiency is improved, labor intensity of workers is reduced, workpieces can be processed more rapidly and reliably, and processing accuracy of the workpieces is guaranteed.

Description

Numerical control beveler burring mechanism

Technical field

The utility model belongs to numerical control machine tool technique field, specifically, and the particularly burring mechanism on numerical control beveler.

Background technology

At present, Gearburr removing mechanism is not generally set on numerical control beveler, after gear chamfering completes, need to carries out deburring processing by another equipment at subsequent processing, increased like this manufacturing procedure of workpiece, reduced working (machining) efficiency; Meanwhile, workpiece multiple clamping easily affects machining accuracy, and has increased operator's labour intensity.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of numerical control beveler burring mechanism that can improve working (machining) efficiency.

The technical solution of the utility model is as follows: a kind of numerical control beveler burring mechanism, comprise table base (1), on described table base (1), be vertically fixed with line slideway (2), this line slideway (2) is provided with the shift fork (3) being slidably matched with it, deburring knife bar (4) is installed in upper end at described shift fork (3), this deburring knife bar (4) parallels with line slideway (2), be provided with cylinder (5) on the side of described shift fork (3), the cylinder body of this cylinder (5) and table base (1) fix, the piston rod of cylinder (5) stretches out straight up, and be connected with the upper end of shift fork (3).

Adopt above technical scheme, line slideway plays guiding, and shift fork is only moved at above-below direction; The motion that cylinder is shift fork provides power, in the time that the piston rod of cylinder protrudes upward, can drive shift fork to move upward together with deburring knife bar, makes deburring knife bar approach workpiece, carries out deburring.As can be seen here, the utility model can complete chamfering and deburring on a number of units control beveler, not only reduce manufacturing procedure, save process time, effectively improve working (machining) efficiency, and reduced workman's labour intensity, and make workpiece processing faster, reliable, guarantee the machining accuracy of workpiece.

Described cylinder (5) and line slideway (2) are lived apart in the both sides of shift fork (3), are fixed with upper and lower two slide blocks (6) on shift fork (3), and each slide block (6) is slidably matched by chute and line slideway (2).Above structure is simple, compact on the one hand, is easy to assembling; On the other hand, the good stability of shift fork supporting on line slideway, and shift fork moves smooth and easy.

Upper end at described shift fork (3) is provided with rectangular aperture, and the lower end of described deburring knife bar (4) is flat-square shaped, and the lower end of deburring knife bar (4) stretches in the rectangular aperture of shift fork (3) upper end, is held out against by the soket head cap screw radially wearing.Above structure deburring knife bar install and disassembling section convenient, fast, and deburring knife bar connects firmly on shift fork, can not shake.

Side in described shift fork (3) upper end is provided with locating piece (7), this locating piece (7) is " L " shape, one of the upper end of the perpendicular section of locating piece (7) and crosspiece is connected, and perpendicular section of locating piece (7) is fitted on shift fork (3), fixed by upper and lower two bolts, the crosspiece of described locating piece (7) is connected with the piston rod of cylinder (5).The moulding of above structure locating piece is simple, is easy to processing and fabricating, and the fixing that cylinder piston rod is connected with shift fork by locating piece is good.

Beneficial effect: the utility model design is ingenious, transformation is easy, improvement cost is low; Numerical control beveler can complete chamfering and deburring, has not only reduced manufacturing procedure, has improved working (machining) efficiency, and has reduced workman's labour intensity, makes workpiece processing faster, reliable, has guaranteed the machining accuracy of workpiece.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

The specific embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail:

As shown in Figure 1, on the table base 1 of numerical control beveler, be vertically fixed with line slideway 2, this line slideway 2 right side is as shown provided with shift fork 3, is fixed with upper and lower two slide blocks 6 at the left surface of shift fork 3, and each slide block 6 is slidably matched by chute and line slideway 2.Upper end at described shift fork 3 is provided with rectangular aperture, and in the upper end of shift fork 3, deburring knife bar 4 is set.Described deburring knife bar 4 parallels with line slideway 2, and the lower end of deburring knife bar 4 is flat-square shaped, and the lower end of deburring knife bar 4 stretches in the rectangular aperture of shift fork 3 upper ends, is held out against by the soket head cap screw radially wearing.

As shown in Figure 1, be provided with cylinder 5 on the right side of shift fork 3, the cylinder body of this cylinder 5 and table base 1 fix, and the piston rod of cylinder 5 stretches out straight up, and are connected with shift fork 3 by locating piece 7.Described locating piece 7 is " L " shape, and one of the upper end of the perpendicular section of locating piece 7 and crosspiece is connected, and perpendicular section of locating piece 7 be fitted in the right flank of shift fork 3 upper ends, is fixed by upper and lower two bolts, and the crosspiece of described locating piece 7 is fixedly connected with the piston rod of cylinder 5.

Operation principle of the present utility model is as follows:

The piston rod of cylinder 5 protrudes upward, and drives shift fork 3 to move upward together with deburring knife bar 4 by locating piece 7, makes deburring knife bar 4 approach workpiece, carries out deburring.Line slideway 2 leads to shift fork 3, and 3 of shift forks are moved at above-below direction.

Claims (4)

1. a numerical control beveler burring mechanism, comprise table base (1), it is characterized in that: on described table base (1), be vertically fixed with line slideway (2), this line slideway (2) is provided with the shift fork (3) being slidably matched with it, deburring knife bar (4) is installed in upper end at described shift fork (3), this deburring knife bar (4) parallels with line slideway (2), be provided with cylinder (5) on the side of described shift fork (3), the cylinder body of this cylinder (5) and table base (1) fix, the piston rod of cylinder (5) stretches out straight up, and be connected with the upper end of shift fork (3).

2. numerical control beveler burring mechanism according to claim 1, it is characterized in that: described cylinder (5) and line slideway (2) separation are in the both sides of shift fork (3), on shift fork (3), be fixed with upper and lower two slide blocks (6), each slide block (6) is slidably matched by chute and line slideway (2).

3. numerical control beveler burring mechanism according to claim 2, it is characterized in that: the upper end at described shift fork (3) is provided with rectangular aperture, the lower end of described deburring knife bar (4) is flat-square shaped, and the lower end of deburring knife bar (4) is stretched in the rectangular aperture of shift fork (3) upper end, is held out against by the soket head cap screw radially wearing.

4. according to the numerical control beveler burring mechanism described in claim 1 or 2 or 3, it is characterized in that: the side in described shift fork (3) upper end is provided with locating piece (7), this locating piece (7) is " L " shape, one of the upper end of the perpendicular section of locating piece (7) and crosspiece is connected, and perpendicular section of locating piece (7) is fitted on shift fork (3), fixed by upper and lower two bolts, the crosspiece of described locating piece (7) is connected with the piston rod of cylinder (5).

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