CN201720469U - Cutter clamp for improving machining efficiency and precision of numerical control deep groove - Google Patents

Abstract

The utility model belongs to the technical field of the machining of a numerical control deep groove, in particular to a cutter clamp for improving the machining efficiency and precision of a numerical control deep groove. The cutter clamp mainly comprises a fixed sliding system, a frame (2), a cutter disc (3) and a self-locking device, wherein the sliding system consists of a sliding positioning sleeve (1) and a sliding wheel device (5); the sliding positioning sleeve (1) is arranged at the upper part of a frame (2) device and is fixedly connected with the frame device; the sliding positioning sleeve (1) is arranged at the outer side of the sliding wheel device (5); the sliding wheel device (5) is formed by the fit of a sliding steel ball (8), a spring (9) and a pressing screw (10); the pressing screw (10) presses one end of the spring (9); the other end of the spring (9) presses the sliding steel ball (8); the frame (2) is formed by the welding of a plurality of symmetrical square irons; the frame (2) device is coaxial with the cutter disc (3); the cutter disc (3) is provided with a cutter arranging position (6) and a pressing position (7); the self-locking device is fixed at the lower part of the cutter disc (3); the self-locking device consists of a spring clamp head (11) and a locking sleeve (12); and the middle of the locking device is provided with a self-locking hole. The cutter clamp has smaller vibration when powerfully feeding and machining, guarantees the requirement of the roughness of a product, improves the low machining efficiency, and slows down the damage of the cutter.

Description

A kind of tool mounting that improves numerical control deep trouth working (machining) efficiency and precision

Technical field

The utility model belongs to numerical control deep trouth processing technique field, relates generally to a kind of tool mounting that improves numerical control deep trouth working (machining) efficiency and precision.

Background technology

Along with development of science and technology, Digit Control Machine Tool in the application of field of machining more and more widely, utilize Machine-Tool Control precision and different cutter to process various parts, some product is automobile crane mould, cladding member mold etc. particularly, all needs the processing of high accuracy deep trouth.

In the digital control processing industry, main feature obtains high efficiency, high-precision processing scheme exactly.This processing scheme needs the cutter of high life and the attached anchor clamps of cutter reasonable in design to realize.Deep trouth product for some shape specific (special) requirements complexity, cutter is stressed bigger in process, machine spindle is drawn longer, and it is bigger to carry out the vibration of powerful feeding and process, is difficult to guarantee the roughness requirement of product, the cutter shake causes that the product roughness reduces, the product roughness is low in the High-speed Computer number control processing deep trouth process, and working (machining) efficiency is low, and tool damage is too fast simultaneously, strengthen the attached input that helps the time, reduce operating efficiency.

Summary of the invention

The purpose of this utility model is to propose a kind of tool mounting that improves numerical control deep trouth working (machining) efficiency and precision, can prevent the cutter shake, and the product roughness is low in the solution High-speed Computer number control processing deep trouth process, and working (machining) efficiency is low, the problem that tool damage is fast.

The technical scheme that its technical problem that solves the utility model adopts is: a kind of tool mounting that improves numerical control deep trouth working (machining) efficiency and precision, mainly comprise fixedly sliding system, skeleton, cutterhead, self-locking device, described sliding system is made up of sliding positioning sleeve and movable pulley device; Sliding positioning sleeve is positioned at the top of frame device and connects firmly with frame device, and sliding positioning sleeve is arranged on the movable pulley device outside; Described movable pulley device is made of slip steel ball, spring, housing pin cooperation, housing pin holddown spring one end, and the spring other end compresses the slip steel ball; Described frame device is made of the square iron welding of symmetry, and frame device is coaxial with cutterhead, has the dress cutter spacing on the described cutterhead and compresses the position, and described self-locking device is fixed on the cutterhead bottom, and self-locking device is made of collet and lock sleeve; There is self-locking hole at middle part at self-locking device.

The beneficial effects of the utility model are: make that by self-locking device the cutter shake of dress cutter spacing reduces on the cutterhead, cutter is stressed less in process, machine spindle is drawn shorter, it is less to carry out the vibration of powerful feeding and process, guaranteed the roughness of product, it is low to have improved working (machining) efficiency, and tool damage is slowed down simultaneously.

Description of drawings

Fig. 1 analyses and observe the assembling schematic diagram for the utility model.

Fig. 2 is the fixing partial cross sectional views of sliding system of the utility model.

Fig. 3 is the partial exploded view of dissecing of the utility model self-locking device.

Among the figure: 1, sliding positioning sleeve, 2, skeleton, 3, cutterhead, 4, self-locking device, 5, the movable pulley device, 6, the dress cutter spacing, 7, compress the position, 8, the slip steel ball, 9, spring, 10, housing pin, 11, collet, 12, lock sleeve.

The specific embodiment

Further specify utility model is bright below in conjunction with drawings and Examples.

As shown in Figure 1, a kind of tool mounting that improves the processing of numerical control deep trouth mainly comprises fixedly sliding system, skeleton, cutterhead, self-locking device, and described sliding system is made up of sliding positioning sleeve 1 and movable pulley device 5; Sliding positioning sleeve 1 is positioned at the top of skeleton 2 and connects firmly with skeleton 2, and sliding positioning sleeve 1 is arranged on movable pulley device 5 outsides; Described movable pulley device is made of slip steel ball 8, spring 9, housing pin 10 cooperations, housing pin holddown spring one end, and the spring other end compresses the slip steel ball; Described skeleton 2 is made of the square iron welding of symmetry, skeleton 2 is coaxial with cutterhead 3, has dress cutter spacing 6 on the described cutterhead 3 and compresses position 4, and described self-locking device is fixed on cutterhead 3 bottoms, self-locking device is made of collet 11 and lock sleeve 12, at the middle part of locking device self-locking hole is arranged.

Claims (1)

1. a tool mounting that improves numerical control deep trouth working (machining) efficiency and precision is characterized in that: mainly comprise fixedly sliding system, skeleton (2), cutterhead (3) and self-locking device; Described sliding system is made up of sliding positioning sleeve (1) and movable pulley device (5); Sliding positioning sleeve (1) is positioned at the top of skeleton (2) device and connects firmly with frame device, and sliding positioning sleeve (1) is arranged on movable pulley device (5) outside; Described movable pulley device (5) cooperates formation by slip steel ball (8), spring (9), housing pin (10), housing pin (10) holddown spring one end (9), and spring (9) other end compresses slip steel ball (8); Described skeleton (2) is made of the square iron welding of symmetry, skeleton (2) device is coaxial with cutterhead (3), have dress cutter spacing (6) on the described cutterhead (3) and compress position (7), described self-locking device is fixed on cutterhead (3) bottom, and self-locking device is made of collet (11) and lock sleeve (12); There is self-locking hole at middle part at locking device.

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