CN102941358A

CN102941358A - Numerical control side tool carrier structure of vertical lathe

Info

Publication number: CN102941358A
Application number: CN2012104439964A
Authority: CN
Inventors: 朱振强
Original assignee: Wuxi Jinghua Heavy Industry Equipment Manufacturing Co Ltd
Current assignee: Wuxi Jinghua Heavy Industry Equipment Manufacturing Co Ltd
Priority date: 2012-11-08
Filing date: 2012-11-08
Publication date: 2013-02-27
Anticipated expiration: 2032-11-08
Also published as: CN102941358B

Abstract

The invention relates to a numerical control side tool carrier structure of a vertical lathe. A servo motor is connected with a speed reducer. The output shaft of the speed reducer is connected with a ball screw through a coupling. The speed reducer is fixedly arranged on a too carrier box body. The ball screw is screwed into a cornering nut. The cornering nut is fixedly arranged on a ram by adjusting a second adjusting washer. A deep groove ball bearing is installed in the tool carrier box body. The shaft end of the ball screw penetrates through the inner hole of the deep groove ball bearing. An iron wedge is installed on the tool carrier box body. A pressing plate is fixedly arranged on the tool carrier box body. A tool chuck is installed on the ram. The numerical control side tool carrier structure of the vertical lathe has the advantages that the structure compact and reasonable; since the servo motor is used to drive the ball screw to rotate to realize feeding and the side tool carrier is controlled by using a numerical control device, the feeding amount is easy to control, the feeding is accurate and the machining accuracy is greatly improved.

Description

A kind of vertical lathe numerical control side tool post structure

Technical field

The present invention relates to a kind of side tool post structure, be specially adapted to vertical lathe numerical control side tool post, belong to the machinery industry technical field. Background technology

In the vertical lathe processing industry, the vertical cutter frame can be used for processing turning circle cylinder and turning end, side tool post is used for turning turning circle cylinder, in the existing end face processing of processing, there is again the turning circle cylinder to add man-hour, available vertical cutter frame processing end face, side tool post processing turning circle cylinder, two knife rests are processed simultaneously, can improve working (machining) efficiency.At present, the feeding structure mode that the side tool post structure generally adopts rack-and-pinion to be meshed, this kind feeding structure feed accuracy is low, and the workpiece crudy is not high.

Summary of the invention

The object of the invention is to overcome the deficiency of prior art, thereby a kind of numerical control side tool post structure rational in infrastructure is provided, this structure adopts the driven by servomotor ball screw to rotate feeding, and the amount of feeding is easy to control, has greatly improved machining accuracy.

According to technical scheme provided by the invention: a kind of vertical lathe numerical control side tool post structure comprises servomotor, decelerator, ram, shaft coupling, ball screw, wedge, pressing plate, cutter holder, jump ring and knife rest casing; Described servomotor is connected with decelerator, reducer output shaft is connected with ball screw by shaft coupling, decelerator is fixed on the knife rest casing, described the second thrust bearing is installed in the second bearing holder (housing, cover) Inner, the first thrust bearing is installed in the clutch shaft bearing cover, described ball screw screws in to be hung in the nut of angle, hanging the angle nut is fixed on the ram under the adjustment of the second adjusting pad, described deep groove ball bearing is installed in the knife rest casing, the ball screw axle head passes the deep groove ball bearing endoporus, with jump ring location bearing inner ring, described wedge is installed on the knife rest casing, is used for adjusting the gap of ram and knife rest casing, and pressing plate is fixed on the knife rest casing, be used for compressing ram, cutter holder is installed on the ram.

As a further improvement on the present invention, described the second bearing holder (housing, cover) is installed in the ball screw axle head, with ball screw shaft shoulder location.

As a further improvement on the present invention, described clutch shaft bearing cover is installed on the ball screw axle, under the adjustment of the first adjusting pad, by nut check.

As a further improvement on the present invention, described driven by servomotor ball screw rotates, and realizes feeding.

Compact conformation of the present invention, reasonable; Adopt the driven by servomotor ball screw to rotate, realize feeding, side tool post adopts numerical control device control, and the amount of feeding is easy to control, and accurately feeding has improved machining accuracy greatly.

Description of drawings

Fig. 1 is structural representation of the present invention.

The specific embodiment

The invention will be further described below in conjunction with concrete drawings and Examples.

As described in Figure 1: a kind of vertical lathe numerical control side tool post structure comprises servomotor 1, decelerator 2, ram 3, shaft coupling 4, nut 5, the first adjusting pad 6, clutch shaft bearing cover the 7, first thrust bearing 8, needle bearing 9, the second thrust bearing 10, the second bearing holder (housing, cover) 11, the second adjusting pad 12, hangs angle nut 13, ball screw 14, wedge 15, pressing plate 16, cutter holder 17, deep groove ball bearing 18, jump ring 19 and knife rest casing 20.

Described motor 1 is connected with decelerator 2, decelerator 2 output shafts are connected with ball screw 14 by shaft coupling 4, decelerator 2 is fixed on the knife rest casing 20, described the second thrust bearing 10 is installed on the second bearing holder (housing, cover) 11, the second bearing holder (housing, cover) 11 is installed in ball screw 9 axle heads, locate with screw mandrel 9 shaft shoulders, the first thrust bearing 8 is installed in the clutch shaft bearing cover 7, clutch shaft bearing cover 7 is installed on ball screw 14 axles, under the adjustment of the first adjusting pad 6, by nut 5 lockings, described ball screw 14 screws in to be hung in the angle nut 13, hangs angle nut 13 and is being fixed under the adjustment of the second adjusting pad 12 on the ram 3, described deep groove ball bearing 18 is installed in the knife rest casing 20, ball screw 14 axle heads pass deep groove ball bearing 18 endoporus, and with jump ring 19 location bearing inner rings, described wedge 15 is installed on the knife rest casing 20, be used for adjusting the gap of ram 3 and knife rest casing 20, pressing plate 16 is fixed on the knife rest casing 20, is used for compressing ram 3, and cutter holder 17 is installed on the ram 3.

The present invention adopts servomotor 1 to drive ball screw 14 and rotates, and realizes feeding, and side tool post adopts numerical control device control, and accurately feeding guarantees machining accuracy.

Claims

1. a vertical lathe numerical control side tool post structure is characterized in that: comprise servomotor (1), decelerator (2), ram (3), shaft coupling (4), ball screw (14), wedge (15), pressing plate (16), cutter holder (17), jump ring (19) and knife rest casing (20); Described servomotor (1) is connected with decelerator (2), decelerator (2) output shaft is connected with ball screw (14) by shaft coupling (4), decelerator (2) is fixed on the knife rest casing (20), described the second thrust bearing (10) is installed in the second bearing holder (housing, cover) (11) Inner, the first thrust bearing (8) is installed in the clutch shaft bearing cover (7), described ball screw (14) screws in to be hung in the angle nut (13), hanging angle nut (13) is being fixed under the adjustment of the second adjusting pad (12) on the ram (3), described deep groove ball bearing (18) is installed in the knife rest casing (20), ball screw (14) axle head passes deep groove ball bearing (18) endoporus, with jump ring (19) location bearing inner ring, described wedge (15) is installed on the knife rest casing (20), be used for adjusting the gap of ram (3) and knife rest casing (20), pressing plate (16) is fixed on the knife rest casing (20), be used for compressing ram (3), cutter holder (17) is installed on the ram (3).

2. a kind of vertical lathe numerical control side tool post structure as claimed in claim 1, it is characterized in that: described the second bearing holder (housing, cover) (11) is installed in ball screw (9) axle head, with ball screw (9) shaft shoulder location.

3. a kind of vertical lathe numerical control side tool post structure as claimed in claim 1, it is characterized in that: described clutch shaft bearing cover (7) is installed on ball screw (14) axle, under the adjustment of the first adjusting pad (6), by nut (5) locking.

4. a kind of vertical lathe numerical control side tool post structure as claimed in claim 1 is characterized in that: described servomotor (1) driving ball screw (14) rotation, realization feeding.