CN204584834U - Four line rail ram double lead-screw drive systems - Google Patents

Abstract

Four line rail ram double lead-screw drive systems disclosed in the utility model, comprise four the line rails be arranged on square ram and the double lead-screw drive system be arranged on saddle, article four, line rail is symmetricly set on the both sides of ram, the outside of every bar line rail is equipped with one piece of slide block, slide block is fixed on the inner side of saddle, saddle is arranged on the outside of ram, the center of gravity of ram is positioned on the center line of double lead-screw drive system, double lead-screw drive system comprises the driver element that two symmetries are arranged on ram both sides, and each driver element is connected with ram respectively.The utility model four line rail ram double lead-screw drive system has the advantages such as high rigidity, high speed, high accuracy and high stability, be applicable to the roughing of part, semifinishing and Precision Machining, be applicable to very much the processing of all kinds of part in high speed and high accuracy manufacture field simultaneously, such as Mould Machining field, working (machining) efficiency is high, meets lathe future development demand.

Description

Four line rail ram double lead-screw drive systems

Technical field

The utility model relates to the ram drive system of machining tool, specifically four line rail ram double lead-screw drive systems.

Background technology

Along with the fast development of modern mechanical manufacturing industry, the technology of machining tool is had higher requirement.Ram is one of core texture of machining tool, and be the direct executing agency to part processing, its whether reasonable processing result on machining center of structural design has direct impact, and thus the structural design of the ram of machining tool is particularly important.

Common machining tool, its ram track adopts the hard rail in four sides or Double line rail, and single screw complex equilibrium hydraulic oil cylinder driving ram moves up and down along saddle.The good rigidly of the hard rail in four sides, but frictional resistance is comparatively large, is not suitable for quick cutting; Double line rail can ensure higher speed, machining accuracy and stability, but rigidity is not enough, is not suitable for high strength, heavy cutting processing; In addition, single screw complex equilibrium hydraulic oil cylinder driving, because single screw and balancing cylinder exist deviation on the response time, affects machining accuracy.Visible, above-mentioned ram structure is difficult to take into account different processing requests, can not meet use needs.

Summary of the invention

Technical problem to be solved in the utility model is: for the deficiencies in the prior art, a kind of four line rail ram double lead-screw drive systems are provided, there is the advantages such as high rigidity, high speed, high accuracy and high stability, be applicable to the roughing of part, semifinishing and Precision Machining, be applicable to very much the processing of all kinds of part in high speed and high accuracy manufacture field simultaneously, such as Mould Machining field, meets lathe future development demand.

The utility model solves the problems of the technologies described above adopted technical scheme: four line rail ram double lead-screw drive systems, comprise four the line rails be arranged on square ram and the double lead-screw drive system be arranged on saddle, four described line rails are symmetricly set on the both sides of described ram, the outside of the line rail described in every bar is equipped with one piece of slide block, described slide block is fixed on the inner side of described saddle, described saddle is arranged on the outside of described ram, the center of gravity of described ram is positioned on the center line of described double lead-screw drive system, described double lead-screw drive system comprises the driver element that two symmetries are arranged on described ram both sides, each described driver element is connected with described ram respectively.

The utility model adopts four line rail structures on ram, has both remained the advantage of line rail, and has had again high rigidity and intensity, is applicable to the processing of all kinds part.On four line rail architecture basics, adopt double lead-screw drive system, double lead-screw reasonable stress, easy for installation.The use of double lead-screw drive system; the synchronous driving of two driver elements to ram can be realized; double lead-screw drive system instead of traditional balancing cylinder simultaneously; solve the nonsynchronous problem of driving that single screw side causes because the response time is different from balancing cylinder side; stability and reliability that ram moves up and down along saddle can be strengthened, guarantee machine finish.

In addition, the center of gravity of ram is positioned on the center line of double lead-screw drive system, and the center of gravity that can realize ram movement drives, and center of gravity actuation techniques can shorten part process time, improves contour machining precision, improves the quality of machined surface.After adopting center of gravity type of drive, even if ram carries out high speed motion, its center of gravity also can not change, therefore there is good anti seismic efficiency, the wearing and tearing of cutter can be reduced, significantly improve the production efficiency of lathe, very be applicable to high speed and high accuracy manufacture field, such as Mould Machining field.

Each described driver element comprises heavy load ball-screw, screw, nut seat, high positive coupling, two groups of bearing assemblies and AC servo motor, one end of described heavy load ball-screw is connected with the output of described AC servo motor by described high positive coupling, often organize described bearing assembly and comprise the some bearings be arranged on described saddle, two groups of described bearing assemblies are arranged on the upper and lower side of described saddle respectively, described heavy load ball-screw is arranged on two groups of described bearing assemblies, described nut sleeve is located on described heavy load ball-screw, described nut seat is arranged on the center of the side of described ram, described nut seat is connected with described screw.During work, double cross flow servo motor is connected with heavy load ball-screw by high positive coupling, directly drives heavy load ball screw turns, finally realizes the up and down high accuracy of ram along saddle, the reciprocating motion of high speed.

The major opposing side of the line rail described in every bar bears against on described ram, and opposite side is fixed by pressing plate.By pressing plate static line rail, easy accessibility.

Compared with prior art, the utility model has the advantage of: four line rail ram double lead-screw drive systems disclosed in the utility model, ram adopts four line rail structures and by double lead-screw drive systems, four line rail structures can retain the advantage of line rail and have high rigidity and intensity, double lead-screw drive system can realize the synchronous driving of two driver elements to ram, the stability that strong ram moves up and down along saddle and reliability, guarantee machine finish; The center of gravity of ram is positioned on the center line of double lead-screw drive system, the center of gravity that can realize ram movement drives, center of gravity actuation techniques can shorten part process time, improve contour machining precision, improve the quality of machined surface, center of gravity type of drive has good anti seismic efficiency simultaneously, can reduce the wearing and tearing of cutter, significantly improve the production efficiency of lathe.The utility model four line rail ram double lead-screw drive system has the advantages such as high rigidity, high speed, high accuracy and high stability, be applicable to the roughing of part, semifinishing and Precision Machining, be applicable to very much the processing of all kinds of part in high speed and high accuracy manufacture field simultaneously, such as Mould Machining field, meets lathe future development demand.

Accompanying drawing explanation

Fig. 1 is the outside drawing of embodiment four line rail ram double lead-screw drive system;

Fig. 2 is the section of structure of embodiment four line rail ram double lead-screw drive system;

Fig. 3 is the assembling schematic diagram (overlook, amplify 2 times) corresponding to the line rail of Fig. 1, ram and nut seat.

Detailed description of the invention

Below in conjunction with accompanying drawing embodiment, the utility model is described in further detail.

Four line rail ram double lead-screw drive systems as shown in the figure, comprise four the line rails 1 be arranged on square ram 3 and the double lead-screw drive system be arranged on saddle 4, the bottom of ram 3 is provided with main shaft 5, article four, line rail 1 is symmetricly set on the both sides of ram 3, the major opposing side of every bar line rail 1 bears against on ram 3, opposite side is fixed by pressing plate 12, the outside of every bar line rail 1 is equipped with one piece of slide block 11, slide block 11 is fixed on the inner side of saddle 4, saddle 4 is arranged on the outside of ram 3, the center of gravity of ram 3 is positioned on the center line of double lead-screw drive system, double lead-screw drive system comprises the driver element 2 that two symmetries are arranged on ram 3 both sides, each driver element 2 comprises heavy load ball-screw 21, screw 22, nut seat 23, high positive coupling 24, two groups of bearing assemblies and AC servo motor 25, one end of heavy load ball-screw 21 is connected with the output of AC servo motor 25 by high positive coupling 24, often organize bearing assembly and comprise the some bearings 26 be arranged on saddle 4, two groups of bearing assemblies are arranged on the upper and lower side of saddle 4 respectively, heavy load ball-screw 21 is arranged on two groups of bearing assemblies, screw 22 is set on heavy load ball-screw 21, screw 22 is arranged on the center of the side of ram 3, nut seat 23 is connected with screw 22.

During work, the power source that heavy load ball-screw 21 rotates is from AC servo motor 25, and under the driving of AC servo motor 25, heavy load ball-screw 21 rotates and drives screw 22 to move up and down, thus drives ram 3 to move up and down along saddle 4.

Claims (3)

1. four line rail ram double lead-screw drive systems, it is characterized in that comprising four the line rails be arranged on square ram and the double lead-screw drive system be arranged on saddle, four described line rails are symmetricly set on the both sides of described ram, the outside of the line rail described in every bar is equipped with one piece of slide block, described slide block is fixed on the inner side of described saddle, described saddle is arranged on the outside of described ram, the center of gravity of described ram is positioned on the center line of described double lead-screw drive system, described double lead-screw drive system comprises the driver element that two symmetries are arranged on described ram both sides, each described driver element is connected with described ram respectively.

2. four line rail ram double lead-screw drive systems according to claim 1, it is characterized in that each described driver element comprises heavy load ball-screw, screw, nut seat, high positive coupling, two groups of bearing assemblies and AC servo motor, one end of described heavy load ball-screw is connected with the output of described AC servo motor by described high positive coupling, often organize described bearing assembly and comprise the some bearings be arranged on described saddle, two groups of described bearing assemblies are arranged on the upper and lower side of described saddle respectively, described heavy load ball-screw is arranged on two groups of described bearing assemblies, described nut sleeve is located on described heavy load ball-screw, described nut seat is arranged on the center of the side of described ram, described nut seat is connected with described screw.

3. four line rail ram double lead-screw drive systems according to claim 1 and 2, it is characterized in that the major opposing side of the line rail described in every bar bears against on described ram, opposite side is fixed by pressing plate.