CN202934144U - Tailstock built-in structure of numerically controlled lathe - Google Patents

Abstract

The utility model discloses a tailstock built-in structure of a numerically controlled lathe. The tailstock built-in structure of the numerically controlled lathe comprises a tailstock main body which is installed on the lathe body through a tailstock base plate. A tailstock main shaft is arranged in the tailstock main body in a perforating mode. A center mechanism is arranged in one end of the tailstock main shaft in an inlaid mode. The tailstock built-in structure of the numerically controlled lathe has the advantages of being reasonable in design, simple in structure, convenient to install, and good in stability of workpieces, reducing application of resources and saving space because of a simple structure, being high in drive efficiency, being good in precision maintenance, ensuring processing precision and a long service life of the numerically controlled lathe, being compact in structure, optimizing appearance of the numerically controlled lathe so as to enable the appearance of the numerically controlled lathe to be artistic, greatly reducing plane occupied room of the numerically controlled lathe, reducing cost, and therefore improving production efficiency.

Description

A kind of numerically controlled lathe hydraulic tailstock embedding structure

Technical field:

The utility model relates to a kind of numerically controlled lathe, is specifically related to a kind of numerically controlled lathe hydraulic tailstock embedding structure.

Background technology:

Hydraulic drive is as working media, energy to be carried out a kind of type of belt drive of transmission and control with liquid, utilization has the liquid of pressure to transmit motion and power after parts are controlled, and hydraulic drive has High power output, and is lightweight, inertia is little, and speed governing is convenient and be easy to the advantage such as control; Hydraulic tailstock can improve mechanization and the automatization level of process, enhances productivity, and reduces workman's labour intensity, reduces entreprise cost.Traditional hydraulic tailstock is to add a hydraulic jack in original tailstock back, and shortcoming is complex structure, and is not compact, and tailstock length is long, and cost is high.

The utility model content:

The purpose of this utility model is in order to make up the deficiency of prior art, a kind of numerically controlled lathe hydraulic tailstock embedding structure to be provided, so just having solved the long problem of existing tailstock length.

The utility model solution is as follows:

A kind of numerically controlled lathe hydraulic tailstock embedding structure, include the tailstock main body, described tailstock main body is arranged on lathe bed by slide of tail stock bottom, be equipped with the tailstock main shaft in described tailstock main body, be embedded with tip mechanism in described tailstock main shaft one end, be equipped with hydraulic jack in the described tailstock main shaft other end, described hydraulic jack tail end top is provided with the hydraulic oil oil-in, the tail end bottom of described hydraulic jack is provided with the hydraulic oil oil-out, is provided with the piston that is connected with push rod in described hydraulic jack.

its operation principle is: be embedded with tip mechanism in tailstock main shaft one end, be equipped with hydraulic jack in the tailstock main shaft other end, hydraulic jack is by the push rod control piston, hydraulic oil enters hydraulic jack by the hydraulic oil oil-out, during work, hydraulic jack is controlled the advance and retreat of tailstock main shaft and tailstock centre by the push rod pushing piston, so just make machine when work, workpiece is more stable, simultaneously simple in structure, reduced the application of resource, saved the space, transmission efficiency is high, precision keeps, guaranteed the long-life of machining accuracy and equipment, compact conformation, the lathe profile optimization is attractive in appearance, the position is taken up an area on the plane that has greatly reduced lathe, reduced cost, therefore improved production efficiency.

The utility model is reasonable in design, and is simple in structure, easy for installation, workpiece is more stable, and is simultaneously simple in structure, reduced the application of resource, saved the space, transmission efficiency is high, and precision keeps, guaranteed the long-life of machining accuracy and equipment, compact conformation, the lathe profile optimization is attractive in appearance, and the position is taken up an area on the plane that has greatly reduced lathe, reduce cost, therefore improved production efficiency.

Description of drawings:

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

Wherein: 1, tailstock main body, 2, slide of tail stock bottom, 3, the tailstock main shaft, 4, tip mechanism, 5, hydraulic jack, 6, the hydraulic oil oil-in, 7, the hydraulic oil oil-out, 8, push rod, 9, piston.

The specific embodiment:

Referring to accompanying drawing, a kind of numerically controlled lathe hydraulic tailstock embedding structure, include the tailstock main body, described tailstock main body is arranged on lathe bed by slide of tail stock bottom, be equipped with the tailstock main shaft in described tailstock main body, be embedded with tip mechanism in described tailstock main shaft one end, be equipped with hydraulic jack in the described tailstock main shaft other end, described hydraulic jack tail end top is provided with the hydraulic oil oil-in, the tail end bottom of described hydraulic jack is provided with the hydraulic oil oil-out, is provided with the piston that is connected with push rod in described hydraulic jack.

be embedded with tip mechanism in tailstock main shaft one end, be equipped with hydraulic jack in the tailstock main shaft other end, hydraulic jack is by the push rod control piston, hydraulic oil enters hydraulic jack by the hydraulic oil oil-out, during work, hydraulic jack is controlled the advance and retreat of tailstock main shaft and tailstock centre by the push rod pushing piston, so just make machine when work, workpiece is more stable, simultaneously simple in structure, reduced the application of resource, saved the space, transmission efficiency is high, precision keeps, guaranteed the long-life of machining accuracy and equipment, compact conformation, the lathe profile optimization is attractive in appearance, the position is taken up an area on the plane that has greatly reduced lathe, reduced cost, therefore improved production efficiency.

Claims (1)

1. numerically controlled lathe hydraulic tailstock embedding structure, include the tailstock main body, described tailstock main body is arranged on lathe bed by slide of tail stock bottom, it is characterized in that: be equipped with the tailstock main shaft in described tailstock main body, be embedded with tip mechanism in described tailstock main shaft one end, be equipped with hydraulic jack in the described tailstock main shaft other end, described hydraulic jack tail end top is provided with the hydraulic oil oil-in, the tail end bottom of described hydraulic jack is provided with the hydraulic oil oil-out, is provided with the piston that is connected with push rod in described hydraulic jack.

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