CN204276916U - A kind of numerically controlled lathe - Google Patents

Abstract

The utility model relates to a kind of numerically controlled lathe, comprises machine tool main body, main spindle box device, mair motor, hydraulic tailstock device and power cutter tower mechanism; Described machine tool main body is split 45 ° of oblique lathe beds; Described machine tool main body one end is provided with main spindle box device; Described main spindle box device is connected with the mair motor be tiltedly located in machine tool main body; The described machine tool main body other end is provided with hydraulic tailstock device; Described power cutter embarkation structure is arranged between main spindle box device and hydraulic tailstock device, numerically controlled lathe of the present utility model, it has high rigidity, working (machining) efficiency is high, and chip removal ability is strong, is easy to carry out swelling to belt, and automatically can carry out programming self shifter to the speed of mainshaft according to processing technology, well meet the processing of high-precision part, be applicable to most Processing Firm, there is good practical value and promotional value.

Description

A kind of numerically controlled lathe

Technical field

The utility model relates to digital control processing field, particularly relates to a kind of high rigidity hard guide rail inclined numerically controlled lathe.

Background technology

Numerically controlled lathe, be a kind of high accuracy, high efficiency automated machine tool, be equipped with multistation cutter tower or power cutter tower, lathe just has process industrial art performance widely, can the Various Complex workpiece such as processing linear cylinder, oblique line cylinder, in the batch production of complex parts, played good economic effect.Its rigidity of existing numerically controlled lathe is low, and chip removal ability is poor, working (machining) efficiency and automaticity low, simultaneously because mair motor is arranged on lathe inside, cause not easily carrying out swelling to the belt of mair motor, had a strong impact on development and the application of numerically controlled lathe.

Utility model content

The utility model object provides a kind of rigidity high to overcome the deficiencies in the prior art, and chip removal ability is strong, easily carries out swelling to the belt of mair motor, and working (machining) efficiency and the high numerically controlled lathe of automation.

For achieving the above object, the technical solution adopted in the utility model is: a kind of numerically controlled lathe, comprises machine tool main body, main spindle box device, mair motor, hydraulic tailstock device and power cutter tower mechanism; Described machine tool main body is split 45 ° of oblique lathe beds; Described machine tool main body one end is provided with main spindle box device; Described main spindle box device is connected with the mair motor be tiltedly located in machine tool main body; The described machine tool main body other end is provided with hydraulic tailstock device; Described power cutter embarkation structure is arranged between main spindle box device and hydraulic tailstock device.

Preferably, described main spindle box device comprises gear drive in main spindle box setting up and down and hydraulic gear-shifting mechanism, is arranged on the sensor of main spindle box device outside; The first gear, the second gear and the 3rd gear that concentric is arranged is provided with in described gear drive; The triple gear be positioned on gear transmission structure power transmission shaft is provided with above described first gear, the second gear and the 3rd gear; Described gear drive is connected with hydraulic gear-shifting mechanism by triple gear; Described sensor is connected with the 3rd gear with the first gear, the second gear.

Preferably, described power cutter tower mechanism comprises X-axis upper slide rest, Z axis saddle, Z axis screw mandrel, X-axis screw mandrel, X-axis motor, Z axis motor and power cutter tower; Described Z axis saddle is slidably arranged in machine tool main body by Z axis screw mandrel; Described Z axis screw mandrel one end is connected with Z axis motor; Described X-axis upper slide rest is slidably arranged on Z axis saddle by X-axis screw mandrel; Described X-axis screw mandrel one end is connected with X-axis motor; Power cutter tower is provided with above described X-axis upper slide rest.

Due to the utilization of technique scheme, the utility model compared with prior art has following advantages: the numerically controlled lathe of the utility model scheme, it has high rigidity, working (machining) efficiency is high, and chip removal ability is strong, is easy to carry out swelling to belt, and automatically can carry out programming self shifter to the speed of mainshaft according to processing technology, well meet the processing of high-precision part, be applicable to most Processing Firm, there is higher practical value and promotional value.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, technical solutions of the utility model are described further.

Accompanying drawing 1 is the perspective view of the utility model numerically controlled lathe.

Accompanying drawing 2 is the two-dimension plane structure schematic diagram of the utility model numerically controlled lathe.

Accompanying drawing 3 is the right view of accompanying drawing 2.

Accompanying drawing 4 omits the structural representation of hydraulic tailstock device for the utility model numerically controlled lathe.

Accompanying drawing 5 is the structural representation of main spindle box device.

Wherein: 1, machine tool main body; 2, main spindle box device; 3, mair motor; 4, gear drive; 5, hydraulic gear-shifting mechanism; 6, the first gear; 7, the second gear; 8, the 3rd gear; 9, main spindle box; 10, X-axis upper slide rest; 11, Z axis saddle; 12, Z axis screw mandrel; 13, X-axis screw mandrel; 14, power cutter tower; 15, power cutter tower mechanism; 16, hydraulic tailstock device; 17, triple gear; 18, X-axis motor; 19, Z axis motor; 20, power transmission shaft.

Detailed description of the invention

Below in conjunction with drawings and the specific embodiments, the utility model is described in further detail.

Described in the utility model a kind of numerically controlled lathe as shown in accompanying drawing 1-5, comprises machine tool main body 1, main spindle box device 2, mair motor 3, hydraulic tailstock device 16 and power cutter tower mechanism 15; Described machine tool main body 1 is split 45 ° of oblique lathe beds; Described machine tool main body 1 one end is provided with main spindle box device 2; Described main spindle box device 2 is connected with the mair motor 3 be tiltedly located in machine tool main body 1; Described machine tool main body 1 other end is provided with hydraulic tailstock device 16; Described power cutter embarkation structure 15 is arranged between main spindle box device 2 and hydraulic tailstock device 16; Described main spindle box device 2 comprises gear drive 4 in main spindle box 9 setting up and down and hydraulic gear-shifting mechanism 5, is arranged on the sensor of main spindle box device 2 outside; The first gear 6, second gear 7 and the 3rd gear 8 of concentric setting is provided with in described gear drive 4; The triple gear 17 be positioned on gear transmission structure 4 power transmission shaft 20 is provided with above described first gear 6, second gear 7 and the 3rd gear 8; Described gear drive 4 is connected with hydraulic gear-shifting mechanism 5 by triple gear 17; Described sensor is connected with the 3rd gear 8 with the first gear 6, second gear 7; Described power cutter tower mechanism 15 comprises X-axis upper slide rest 10, Z axis saddle 11, Z axis screw mandrel 12, X-axis screw mandrel 13, X-axis motor 18, Z axis motor 19, power cutter tower 14; Described Z axis saddle 11 is slidably arranged in machine tool main body 1 by Z axis screw mandrel 12; Described Z axis screw mandrel 12 one end is connected with Z axis motor 19; Described X-axis upper slide rest 10 is slidably arranged on Z axis saddle 11 by X-axis screw mandrel 13; Described X-axis screw mandrel 13 one end is connected with X-axis motor 18; Power cutter tower 14 is provided with above described X-axis upper slide rest 10.

Described in the utility model a kind of numerically controlled lathe as shown in accompanying drawing 1-5, its X-axis upper slide rest adopts the two dovetail high rigidity of ultra-wide to quench hard guide rail, Z axis saddle adopts the high rigidity of ultra-wide one square one dovetail to quench hard guide rail, tailstock guide adopts the high rigidity of square one dovetail to quench hard guide rail, so high rigidity that can ensure overall numerically controlled lathe, wire gauge speed is fast, meets the demand of some high-precision parts processing preferably.

Machine tool main body adopts split 45 ° of oblique lathe beds simultaneously, makes its chip removal smooth and easy, and cutting force is reasonable, and tactical diameter is large, machine tool main body compact conformation, thus the assembling in convenient early stage and later period maintenance, substantially increase the practicality of numerically controlled lathe.

Main spindle box device and mair motor are tiltedly located on 45 ° of lathe beds of machine tool main body, and the easy like this belt to mair motor carries out swelling, conveniently carry out installation and debugging to numerically controlled lathe.

What adopt in main spindle box device is third gear transmitting hydraulic speed change, also sensor is provided with outward at main spindle box device, such sensor can sense that the triple gear in main spindle box device and that gear in the first gear, the second gear and the 3rd gear three carry out transmission automatically, thus make to coordinate the CNC system of processing can carry out programming self shifter according to technique to the rotating speed in main spindle box device with numerically controlled lathe, well achieve the automatic speed regulation processing of numerically controlled lathe, meet the high demand in actual processing.

Numerically controlled lathe of the present utility model, it has high rigidity, working (machining) efficiency is high, chip removal ability is strong, be easy to carry out swelling to belt, and automatically can carry out programming self shifter to the speed of mainshaft according to processing technology, well meet the processing of high-precision part, be applicable to most Processing Firm, there is fine practical value and promotional value.

Below be only embody rule example of the present utility model, protection domain of the present utility model is not constituted any limitation.The technical scheme that all employing equivalents or equivalence are replaced and formed, all drops within the utility model rights protection scope.

Claims (3)

1. a numerically controlled lathe, is characterized in that: comprise machine tool main body, main spindle box device, mair motor, hydraulic tailstock device and power cutter tower mechanism; Described machine tool main body is split 45 ° of oblique lathe beds; Described machine tool main body one end is provided with main spindle box device; Described main spindle box device is connected with the mair motor be tiltedly located in machine tool main body; The described machine tool main body other end is provided with hydraulic tailstock device; Described power cutter embarkation structure is arranged between main spindle box device and hydraulic tailstock device.

2. according to a kind of numerically controlled lathe described in claim 1, it is characterized in that: described main spindle box device comprises gear drive in main spindle box setting up and down and hydraulic gear-shifting mechanism, is arranged on the sensor of main spindle box device outside; The first gear, the second gear and the 3rd gear that concentric is arranged is provided with in described gear drive; The triple gear be positioned on gear transmission structure power transmission shaft is provided with above described first gear, the second gear and the 3rd gear; Described gear drive is connected with hydraulic gear-shifting mechanism by triple gear; Described sensor is connected with the 3rd gear with the first gear, the second gear.

3. a kind of numerically controlled lathe according to claim 1 and 2, is characterized in that: described power cutter tower mechanism comprises X-axis upper slide rest, Z axis saddle, Z axis screw mandrel, X-axis screw mandrel, X-axis motor, Z axis motor and power cutter tower; Described Z axis saddle is slidably arranged in machine tool main body by Z axis screw mandrel; Described Z axis screw mandrel one end is connected with Z axis motor; Described X-axis upper slide rest is slidably arranged on Z axis saddle by X-axis screw mandrel; Described X-axis screw mandrel one end is connected with X-axis motor; Power cutter tower is provided with above described X-axis upper slide rest.