CN201427212Y - Triaxial numerical control gear shaft chamfering machine suitable for production line - Google Patents

Abstract

The utility model relates to a triaxial numerical control gear shaft chamfering machine suitable for the production line, which is characterized in that a middle machine tool body is mounted in the front of the machine tool body; a Y-axis guiding rail is fixedly mounted at the rear part of the machine tool body; a workpiece box is mounted on the left of the middle machine tool body; a workpiece main shaft is mounted in the workpiece box; a hollow power clamp is mounted on the end surface of the workpiece main shaft; a front tip is mounted in the center of the workpiece main shaft; a rear tip of a tailstock is mounted on the right of the middle machine tool body through a tailstock guiding rail; a feeding mechanism is mounted in the middle of the middle machine tool body; a coarse positioning mechanism is mounted on the feeding mechanism; the Y-axis guiding rail is connected with a Y-axis slide plate provided with an X-axis guiding rail thereon; the X-axis guiding rail is connected withan X-axis slide plate provided with a rotary plate thereon; a cutter box is mounted on the rotary plate; a cutter main shaft is mounted in the cutter box; and a fine positioning mechanism is mountedon the left of the cutter box. The feeding, mounting and accurate positioning operations of the workpiece can be achieved through the concerted action among the feeding mechanism, the coarse positioning mechanism and the fine positioning mechanism, so that the automation degree and the processing efficiency are high, and the chamfering machine is particularly suitable for the mass and automatic production line.

Description

Be fit to the three-axis numerical control gear shaft beveler that production line uses

Technical field

The utility model belongs to gear working machine, particularly relates to the three-axis numerical control gear shaft beveler that a kind of suitable production line uses.

Background technology

Three-axis numerical control radiusing machine in the known technology, its X-axis track base is packed in the left side of lathe bed, the X-axis guide rail is packed on the X-axis track base, workpiece box is slidingly connected by X-axis guide rail and X-axis track base, the Y-axis track base is packed in the right of lathe bed, the Y-axis guide rail is packed on the Y-axis track base, and toolbox is slidingly connected by Y-axis guide rail and Y-axis track base, has therefore limited the scope of gear chamfering processing.Above-mentioned beveler is not provided with the tailstock back centre, so be not suitable for the chamfer machining of gear shaft.In addition, existing three-axis numerical control gear chamfering lathe need manually carry out material loading, and each step operation of lathe all need manually finish, and so not only labour intensity is big and production efficiency is low.Along with the fast development of science and technology, traditional three-axis numerical control radiusing machine can't satisfy the increasingly automated and high efficiency processing request of production line.

Summary of the invention

The utility model provides a kind of reasonable in design, reduces labour intensity for solving the technical problem that exists in the known technology, can make the numerical control radiusing machine realize the three-axis numerical control radiusing machine that production line uses that is suitable for of full-automatic operation.

The technical scheme that the utility model is taked for the technical problem that exists in the solution known technology is:

Be fit to the three-axis numerical control gear shaft beveler that production line uses, comprise lathe bed, medial bed, toolbox and workpiece box, it is characterized in that: be fixed with medial bed in the lathe bed front portion, the lathe bed rear portion is fixed with the Y-axis guide rail, left part is equipped with the workpiece box that can adjust its position on the medial bed, work spindle is installed in the workpiece box, and the work spindle end face is equipped with and is used for the tight hollow power chuck of work piece positioning, and preceding top that hydraulic jack drives is equipped with in work spindle heart portion; By tailstock guide the tailstock back centre is housed at the medial bed right part, the medial bed middle part is equipped with feed mechanism, and coarse positioning mechanism is housed on the feed mechanism; The lathe bed rear portion slidely connects the Y-axis slide plate by the Y-axis guide rail, is fixed with the X-axis guide rail on the Y-axis slide plate, and the X-axis guide rail slidely connects the X-axis slide plate, on the X-axis slide plate finger plate is housed, toolbox is housed on the finger plate, cutter spindle is housed in toolbox, fine positioning mechanism is equipped with in the toolbox left side.

Advantage and the good effect that the utlity model has are: after the utility model has adopted above technical scheme, guaranteed that toolbox all can move flexibly in X-axis and Y-axis both direction, enlarged the range of work, improved machining accuracy.And, by the co-operating between feed mechanism, coarse positioning mechanism and the fine positioning mechanism, can finish material loading, installation and accurate location to workpiece, the automaticity height, shorten and process required non-cutting time, improved working (machining) efficiency, especially be fit to use in enormous quantities and the automatic assembly line.In addition, this beveler is equipped with hollow power chuck at the work spindle end face, matches by hollow power clamp head and tail seat back centre, also can realize the processing to gear shaft.

Description of drawings

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

Among the figure: 1, lathe bed; 2, feed mechanism; 3, medial bed; 4, hollow power chuck; 5, work spindle; 6, workpiece box; 7, fine positioning mechanism; 8, toolbox; 9, cutter spindle; 10, tailstock back centre; 11, coarse positioning mechanism; 12, Y-axis guide rail; 13, Y-axis slide plate; 14, X-axis slide plate; 15, X-axis guide rail; 16, finger plate; 17, preceding top; 18, tailstock guide.

The specific embodiment

For further understanding summary of the invention of the present utility model, characteristics and effect, exemplify following examples now, and conjunction with figs. is described in detail as follows:

See also Fig. 1, be fit to the three-axis numerical control gear shaft beveler that production line uses, comprise lathe bed 1, medial bed 3, toolbox 8, workpiece box 6, tailstock back centre 10, feed mechanism 2, coarse positioning mechanism 11 and fine positioning mechanism 7.Be fixed with medial bed 3 in lathe bed 7 front portions, lathe bed 1 rear portion is fixed with Y-axis guide rail 12, left part is equipped with the workpiece box 6 that can adjust its position on the medial bed 3, work spindle 5 is installed in workpiece box 6, work spindle 5 end faces are equipped with the high accuracy hollow power chuck 4 of the location clamping that is used for workpiece, and preceding top 17 of hydraulic jack driving is equipped with in work spindle 5 heart portions; By tailstock guide 18 tailstock back centre 9 is housed at medial bed 3 right parts, medial bed 3 middle parts are equipped with feed mechanism 2, and coarse positioning mechanism 11 is installed on the feed mechanism 2; Lathe bed 1 rear portion slidely connects Y-axis slide plate 13 by Y-axis guide rail 12, on Y-axis slide plate 13, be fixed with X-axis guide rail 15, X-axis guide rail 15 slidely connects X-axis slide plate 14, finger plate 16 is housed on X-axis slide plate 14, toolbox 8 is housed on finger plate 16, cutter spindle 9 is housed in toolbox 8, and toolbox 8 left sides are equipped with fine positioning mechanism 7.

Operating principle of the present utility model is:

Add man-hour, at first workpiece is put on the stock shelf of feed mechanism 2,11 pairs of workpiece of coarse positioning mechanism carry out coarse positioning, and preceding top 17 and tailstock back centre 10 of work spindle 5 heart portions stretch out workpiece jack-up afterwards, stock shelf descends, before top and tailstock back centre together workpiece is delivered on the location end face in the hollow power chuck 4, fine positioning mechanism 7 contacts stretch out accurately locatees workpiece, and accurately back, location high accuracy hollow power chuck 4 clamps workpiece, and working cycles begins.Toolbox 8 moves by the straight line of X-axis slide plate 14 on X-axis guide rail 15 and forms the X-axis motion, and Y-axis slide plate 13 straight line on Y-axis guide rail 12 moves, and then drives toolbox 8 formation Y-axis motions.For spur gear,, can process gear chamfering by the X-axis motion of toolbox 8 and the resultant motion of Y-axis motion.For helical gear,, can process gear chamfering by the resultant motion that X-axis motion, Y-axis are moved and work spindle 9 rotates of toolbox 8.After working cycles finished, preceding top 17 together sent workpiece with tailstock back centre 10, and stock shelf rises and catches workpiece, preceding toply return with the tailstock back centre.

Claims (1)

1, a kind of three-axis numerical control gear shaft beveler of suitable production line use, comprise lathe bed, medial bed, toolbox and workpiece box, it is characterized in that: be fixed with medial bed in the lathe bed front portion, the lathe bed rear portion is fixed with the Y-axis guide rail, left part is equipped with the workpiece box that can adjust its position on the medial bed, work spindle is installed in the workpiece box, and the work spindle end face is equipped with and is used for the tight hollow power chuck of work piece positioning, and preceding top that hydraulic jack drives is equipped with in work spindle heart portion; By tailstock guide the tailstock back centre is housed at the medial bed right part, the medial bed middle part is equipped with feed mechanism, and coarse positioning mechanism is housed on the feed mechanism; The lathe bed rear portion slidely connects the Y-axis slide plate by the Y-axis guide rail, is fixed with the X-axis guide rail on the Y-axis slide plate, and the X-axis guide rail slidely connects the X-axis slide plate, on the X-axis slide plate finger plate is housed, toolbox is housed on the finger plate, cutter spindle is housed in toolbox, fine positioning mechanism is equipped with in the toolbox left side.

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