CN204235286U - The installing mechanism of numerically controlled lathe cooling fluid efferent duct - Google Patents

Abstract

The utility model discloses a kind of installing mechanism of numerically controlled lathe cooling fluid efferent duct, include numerically controlled lathe body, the side of the knife rest on numerically controlled lathe body is provided with cooling fluid efferent duct along the X-direction of numerically controlled lathe body, the working position of the cutter that the outlet of cooling fluid efferent duct is installed on the knife rest on numerically controlled lathe body.The utility model structure is simple, cooling fluid efferent duct is installed along the X-direction along numerically controlled lathe, effectively reduce operation easier and labour intensity, substantially increase working (machining) efficiency and processing effect, particularly larger help is had to one man operation two the even operator scheme of multiple stage numerically controlled lathe.

Description

The installing mechanism of numerically controlled lathe cooling fluid efferent duct

Technical field

The utility model relates to numerically controlled lathe field, specifically a kind of installing mechanism of numerically controlled lathe cooling fluid efferent duct.

Background technology

Numerically controlled lathe can process dish type component, because the external diameter coiling type component is larger, and the cooling fluid efferent duct of numerically controlled lathe carries out installing along the Z-direction of numerically controlled lathe mostly, along with the cutter of plane machining moves, that is the position along the X-direction of numerically controlled lathe is changing always, cooling fluid is so just caused to be poured into a mould less than cutter, when plane machining, operator needs cooling fluid efferent duct to be constantly shifted, only in this way cooling fluid could be cast on the cutter of processing in the moment, add operation easier and labour intensity undoubtedly, reduce working (machining) efficiency.

Utility model content

The purpose of this utility model is to provide a kind of installing mechanism of numerically controlled lathe cooling fluid efferent duct, is installed along along the X-direction of numerically controlled lathe by cooling fluid efferent duct, solving operator needs constantly to be carried out by cooling fluid efferent duct being shifted and the operation easier that causes and labour intensity increases, the problem of working (machining) efficiency reduction.

The technical solution of the utility model is as follows:

A kind of installing mechanism of numerically controlled lathe cooling fluid efferent duct, include numerically controlled lathe body, it is characterized in that: the side of the knife rest on described numerically controlled lathe body is provided with cooling fluid efferent duct along the X-direction of numerically controlled lathe body, the working position of the cutter that the outlet of described cooling fluid efferent duct is installed on the knife rest on described numerically controlled lathe body.

The installing mechanism of described numerically controlled lathe cooling fluid efferent duct, is characterized in that: the working position of the workpiece that the outlet of described cooling fluid efferent duct also can clamp on the fixture on described numerically controlled lathe body.

The beneficial effects of the utility model:

The utility model structure is simple, cooling fluid efferent duct is installed along the X-direction along numerically controlled lathe, effectively reduce operation easier and labour intensity, substantially increase working (machining) efficiency and processing effect, particularly larger help is had to one man operation two the even operator scheme of multiple stage numerically controlled lathe.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation.

Detailed description of the invention

See Fig. 1, a kind of installing mechanism of numerically controlled lathe cooling fluid efferent duct, include numerically controlled lathe body 1, the side of the knife rest 2 on numerically controlled lathe body 1 is provided with cooling fluid efferent duct 3 along the X-direction of numerically controlled lathe body 1, the working position of the cutter that the outlet of cooling fluid efferent duct 3 is installed on the knife rest 2 on numerically controlled lathe body 1.

In the utility model, the working position of the workpiece that the outlet of cooling fluid efferent duct 2 also can clamp on the fixture on numerically controlled lathe body 1.

Claims (2)

1. the installing mechanism of a numerically controlled lathe cooling fluid efferent duct, include numerically controlled lathe body, it is characterized in that: the side of the knife rest on described numerically controlled lathe body is provided with cooling fluid efferent duct along the X-direction of numerically controlled lathe body, the working position of the cutter that the outlet of described cooling fluid efferent duct is installed on the knife rest on described numerically controlled lathe body.

2. the installing mechanism of numerically controlled lathe cooling fluid efferent duct according to claim 1, is characterized in that: the working position of the workpiece that the outlet of described cooling fluid efferent duct also can clamp on the fixture on described numerically controlled lathe body.