CN205519427U - Numerical control taper pipe swaging machine - Google Patents

Abstract

The utility model discloses a numerical control taper pipe swaging machine, including setting up organism and the adversion motor on the base, set up the abversion motor above the organism, adversion motor top is equipped with the drift axle, and the lead screw that servo motor connects passes through nut drive drift axle axial feed, and the drift axle passes through the drift connecting axle and connects the drift, and the friction ring is installed to the big flywheel of abversion motor connection between big flywheel and the rolling element, and the band pulley is connected to the adversion motor, and the band pulley connection is outer, and outer axle passes through the connecting plate and drives the rotation of internal shaft connection board, internal shaft connection board and spindle nose rigid connection, and the rolling element contacts with the arc surface of tup, tup other end contact mould. The beneficial effects of the utility model are that: all pivoted motion mode rotational speed is higher for inside and outside axle to make the tup higher, more accurate to the strike frequency of work piece, make the surface precision of work piece better, the shape design's of tup pitch arc is more mild, and vibrations are little when radial reciprocating motion is to the tup.

Description

A kind of numerical control Taper Pipe swager

Technical field

This utility model relates to a kind of swager, belongs to Machining Technology field.

Background technology

Existing bar processing swager, the range of work is little, and processing vibrations are big, part after processing Fineness is bad.

Utility model content

For solving the defect that prior art exists, the purpose of this utility model is to provide a kind of processing Shaking little, the range of work is big, and the numerical control Taper Pipe swager that processing technique is good.

The technical solution of the utility model is: a kind of numerical control Taper Pipe swager, including being arranged on base Body on seat and interior rotating motor, body is provided above outer rotating motor, above described interior rotating motor Being provided with drift axle, the leading screw that servomotor connects drives drift axle axial feed, wedge by nut Ferrum axle connects drift by drift connecting shaft, and outer rotating motor connects big flywheel, big flywheel and rolling Drag ring is installed between body, during big flywheel turns, drives rolling element to do rotation fortune by drag ring Dynamic, interior rotating motor connects belt wheel, and belt wheel connects outer shaft, and outer shaft is by axle in connecting plate drive even Fishplate bar rotates, and interior axle connecting plate is rigidly connected with spindle nose, and rolling element contacts with the arc surface of tup, Tup other end contact mould.

Described drift is four, and is oppositely arranged two-by-two, and drift end is provided with for fixing mould Hook formation.

Described drag ring interference is installed between big flywheel and rolling element.

Described tup is four.

Described connecting plate is bowl-type connecting plate.

Described drift is the most gradient.

Described outer rotating motor, interior rotating motor and servomotor connect digital control system.

The beneficial effects of the utility model are: the motion mode that interior outer shaft all rotates turns in individually Or outer turning has higher rotating speed, can promote mould that workpiece is hit faster, so The outer surface precision of workpiece can be more preferably.The camber line of the shape design of the tup in this utility model is more For gently, so shake little when tup diametrically reciprocates.

Accompanying drawing explanation

This utility model has accompanying drawing 3 width.

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

Fig. 2 is partial sectional view of the present utility model；

Fig. 3 is partial enlarged drawing of the present utility model.

In figure, reference is as follows: 1, outer rotating motor, 2, drift axle, 3, interior rotating motor, 4, Servomotor, 5, pedestal, 6, body, 7, big flywheel, 8, drag ring, 9, rolling element, 10, belt wheel, 11, outer shaft, 12, connecting plate, 13, interior axle connecting plate, 14, spindle nose, 15, Tup, 16, mould, 17, leading screw, 18, drift, 19, drift connecting shaft, 20, nut.

Detailed description of the invention

This utility model is described further by 1-3 below in conjunction with the accompanying drawings:

A kind of numerical control Taper Pipe swager, including the body 6 being arranged on pedestal 5 and interior rotating motor 3, body 6 is provided above outer rotating motor 1, and described interior rotating motor 3 is arranged over drift axle 2, The leading screw 17 that servomotor 4 connects drives drift axle 2 axial feed, drift by nut 20 Axle 2 connects drift 18 by drift connecting shaft 19, and outer rotating motor 1 connects big flywheel 7, greatly Being provided with drag ring 8 between flywheel 7 and rolling element 9, big flywheel 7 passes through drag ring when rotating 8 drive rolling element 9 to rotate, and interior rotating motor 3 connects belt wheel 10, and belt wheel 10 connects Outer shaft 11, outer shaft 11 drives interior axle connecting plate 13 to rotate by connecting plate 12, and interior axle connects Plate 13 is rigidly connected with spindle nose 14, and rolling element 9 contacts with the arc surface of tup 15, tup 15 other end contact moulds 16.

Described drift 18 is four, and is oppositely arranged two-by-two, and drift 18 end is provided with for solid The hook formation of fixed mold.

The interference of described drag ring 8 is installed between big flywheel 7 and rolling element 9.

Described tup 15 is four.

Described connecting plate 12 is bowl-type connecting plate.

Described drift 18 is the most gradient.

Described outer rotating motor 1, interior rotating motor 3 and servomotor 4 connect digital control system.

Interior axle connecting plate 13 is to be rigidly connected with spindle nose 14, so spindle nose 14 synchronous axial system. So, drive rolling element 9 to rotate by outer rotating motor 1, drive spindle nose by interior rotating motor 3 14 rotate, and such rolling element 9 and spindle nose 14 can produce and relatively rotate speed at a high speed, by rolling Kinetoplast 9 coordinates with the curved surface of tup 15 makes hammerhead radial move back and forth, and then promotes mould 16 Diametrically reciprocate at a high speed, workpiece is formed processing.The fortune that this interior outer shaft all rotates Flowing mode is than interior turn or outer turning has higher rotating speed, mould can be promoted faster to work Part hits, so the outer surface precision of workpiece can be more preferably.Tup in this utility model The camber line of shape design is the mildest, so shake little when tup diametrically reciprocates.? During processing, servomotor 4 drives drift axle 18 axle by leading screw 17 and nut 20 To movement, drift axle 18 drives drift 18 to move axially by drift connecting shaft 19.Due to Drift 18 two ends internal diameter is different, i.e. the most gradient, so when drift 18 moves axially, Mould 16 radial feed can be made, coordinate the axial feed of workpiece, just can forge tapered Workpiece.

The above is only preferred implementation of the present utility model, it is noted that for this skill For the those of ordinary skill in art field, in the premise without departing from this utility model know-why Under, it is also possible to making some improvement and modification, these improve and modification also should be regarded as this practicality newly The protection domain of type.

Claims (7)

1. a numerical control Taper Pipe swager, is characterized in that, including being arranged on pedestal (5) Body (6) and interior rotating motor (3), body (6) is provided above outer rotating motor (1), described Interior rotating motor (3) is arranged over drift axle (2), the leading screw (17) that servomotor (4) connects Driving drift axle (2) axial feed by nut (20), drift axle (2) is by drift even Spindle (19) connects drift (18), and outer rotating motor (1) connects big flywheel (7), big flywheel (7) drag ring (8) and is installed between rolling element (9), logical when big flywheel (7) rotates Crossing drag ring (8) drives rolling element (9) to rotate, and interior rotating motor (3) connects band Wheel (10), belt wheel (10) connects outer shaft (11), and outer shaft (11) passes through connecting plate (12) In driving, axle connecting plate (13) rotates, and interior axle connecting plate (13) is with spindle nose (14) rigidity even Connecing, rolling element (9) contacts with the arc surface of tup (15), another termination of tup (15) Touch tool (16).

Numerical control Taper Pipe swager the most according to claim 1, is characterized in that, described drift (18) being four, and be oppositely arranged two-by-two, drift (18) end is provided with for fixing mould Hook formation.

Numerical control Taper Pipe swager the most according to claim 1, is characterized in that, described friction Ring (8) interference is installed between big flywheel (7) and rolling element (9).

Numerical control Taper Pipe swager the most according to claim 1, is characterized in that, described tup (15) it is four.

Numerical control Taper Pipe swager the most according to claim 1, is characterized in that, described connection Plate (12) is bowl-type connecting plate.

Numerical control Taper Pipe swager the most according to claim 2, is characterized in that, described drift (18) the most gradient.

7., according to the numerical control Taper Pipe swager described in any one of claim 1-6, it is characterized in that, Described outer rotating motor (1), interior rotating motor (3) and servomotor (4) connect digital control system.