CN207953301U - A kind of flushing type boring head guide sleeve - Google Patents

Abstract

A kind of flushing type boring head guide sleeve, it include the guide sleeve ontology in hollow cylindrical, its circumferencial direction of the outer wall upper edge of the guide sleeve ontology, which is sequentially arranged at intervals with outside multiple cutting emulsions, passes through slot, it is recessed to be formed inside cutting emulsion through slot along inner wall to outer wall direction in the middle part of the guide sleeve inner body wall, is connected by liquid-passing hole by slot inside emulsion with cutting by slot outside the cutting emulsion.

Description

A kind of flushing type boring head guide sleeve

Technical field

The utility model is related to be machined manufacturing technology field more particularly to a kind of flushing type boring head guide sleeve.

Background technology

Boring head is processed to tube blank inner wall, and boring head generally all includes cutterhead and the mandrel with movable knife disc rotation, cutterhead On cutter head is installed, cutter head moves in a circle with cutterhead, cuts tube blank inner wall, and cutterhead rotates a circle, cutter head complete one The cutting of circle.In order to reduce the axial deviation of mandrel when moving, it can be arranged with guide sleeve on mandrel, be sheathed on leading on mandrel It is moved to set with the movement of mandrel.

The iron filings that cutter head is cut can influence the movement of boring head, and production efficiency is caused to reduce, or even damage boring head, at present In process of production, iron filings are rinsed by the way that flusher is arranged in the front of boring head, but flushing effect is bad, iron filings are still It is easy to be bonded on guide sleeve, boring head movement can be influenced.

Utility model content

In order to solve to be easy to bond iron filings on guide sleeve, iron filings influence boring head movement and reduce the technology of production efficiency Problem, the purpose of this utility model are to provide a kind of flushing type boring head guide sleeve.

Technical solution used by the utility model is：A kind of flushing type boring head guide sleeve, includes in hollow cylindrical Guide sleeve ontology, its circumferencial direction of the outer wall upper edge of the guide sleeve ontology are sequentially arranged at intervals with outside multiple cutting emulsions By slot, it is recessed to be formed inside cutting emulsion through slot, institute along inner wall to outer wall direction in the middle part of the guide sleeve inner body wall It states and is connected by liquid-passing hole by slot with inside cutting emulsion by slot outside cutting emulsion.

Outside the multiple cutting emulsion by slot altogether there are six.

It is concordant with guide sleeve ontology both ends end face respectively by the both ends notch of slot outside the cutting emulsion.

Compared with prior art, the utility model has the advantages that：

A kind of flushing type boring head guide sleeve described in the utility model has and passes through slot, liquid-passing hole inside cutting emulsion With the cutting emulsion that by slot, circulates in boring head hollow core shaft outside cutting emulsion by the through-hole on hollow core shaft outer wall according to It is secondary flow through cutting emulsion inside by slot, liquid-passing hole and cutting emulsion outside by slot, then to the iron outside guide sleeve Bits are rinsed, and iron filings is effectively prevent to be bonded on guide sleeve, are rinsed to iron filings, and cutting emulsion is to rushing outside guide sleeve It hits, prevents iron filings from flowing back in guide sleeve, thus greatly reduce the influence that iron filings move boring head, improve production efficiency.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the schematic side view of Fig. 1.

Specific implementation mode

It elaborates in the following with reference to the drawings and specific embodiments to the utility model.

Embodiment 1

As shown in Figure 1 to Figure 2, a kind of flushing type boring head guide sleeve includes the guide sleeve ontology 1 in hollow cylindrical, institute The outer wall upper edge of guide sleeve ontology 1 its circumferencial direction is stated to be sequentially arranged at intervals with outside multiple cutting emulsions through slot 2.

It is recessed to be formed inside cutting emulsion through slot 3 along inner wall to outer wall direction in the middle part of 1 inner wall of guide sleeve ontology.

It is connected by liquid-passing hole 4 by slot 3 with inside cutting emulsion by slot 2 outside the cutting emulsion.

Outside the multiple cutting emulsion by slot 2 altogether there are six.

It is concordant with 1 both ends end face of guide sleeve ontology respectively by the both ends notch of slot 2 outside the cutting emulsion, to Cutting emulsion is set to rinse guide sleeve ontology 1 more comprehensive, thorough.

Circulation has the cutting emulsion flowed along boring head direction of advance, guide sleeve ontology 1 to be arranged in the hollow core shaft of boring head In hollow core shaft, and the inner wall of guide sleeve ontology 1 is affixed with hollow core shaft outer wall, has through-hole, cutting breast in hollow core shaft Change liquid to be entered inside cutting emulsion by slot 3, then entering by liquid-passing hole 4 logical outside cutting emulsion by the through-hole It crosses in slot 2, to be rinsed to the iron filings being bonded on 1 outer wall of guide sleeve ontology.

Embodiment 2

As shown in Figure 1 to Figure 2, a kind of flushing type boring head guide sleeve includes the guide sleeve ontology 1 in hollow cylindrical, institute The outer wall upper edge of guide sleeve ontology 1 its circumferencial direction is stated to be sequentially arranged at intervals with outside multiple cutting emulsions through slot 2.

It is recessed to be formed inside cutting emulsion through slot 3 along inner wall to outer wall direction in the middle part of 1 inner wall of guide sleeve ontology.

It is connected by liquid-passing hole 4 by slot 3 with inside cutting emulsion by slot 2 outside the cutting emulsion.

Outside the multiple cutting emulsion by slot 2 altogether there are six, uniformly set along 1 excircle wall surface of guide sleeve ontology It sets.

It is concordant with 1 both ends end face of guide sleeve ontology respectively by the both ends notch of slot 2 outside the cutting emulsion.

Circulation has the cutting emulsion flowed along boring head direction of advance, guide sleeve ontology 1 to be arranged in the hollow core shaft of boring head In hollow core shaft, and the inner wall of guide sleeve ontology 1 is affixed with hollow core shaft outer wall, has through-hole, cutting breast in hollow core shaft Change liquid to be entered inside cutting emulsion by slot 3, then entering by liquid-passing hole 4 logical outside cutting emulsion by the through-hole It crosses in slot 2, to be rinsed to the iron filings being bonded on 1 outer wall of guide sleeve ontology.

Embodiment 3

As shown in Figure 1 to Figure 2, a kind of flushing type boring head guide sleeve includes the guide sleeve ontology 1 in hollow cylindrical, institute The outer wall upper edge of guide sleeve ontology 1 its circumferencial direction is stated to be sequentially arranged at intervals with outside multiple cutting emulsions through slot 2.

It is recessed to be formed inside cutting emulsion through slot 3 along inner wall to outer wall direction in the middle part of 1 inner wall of guide sleeve ontology.

It is connected by liquid-passing hole 4 by slot 3 with inside cutting emulsion by slot 2 outside the cutting emulsion.

Outside the multiple cutting emulsion by slot 2 altogether there are six.

It is concordant with 1 both ends end face of guide sleeve ontology respectively by the both ends notch of slot 2 outside the cutting emulsion.

It is rectangular by slot 2 outside the cutting emulsion.

Circulation has the cutting emulsion flowed along boring head direction of advance, guide sleeve ontology 1 to be arranged in the hollow core shaft of boring head In hollow core shaft, and the inner wall of guide sleeve ontology 1 is affixed with hollow core shaft outer wall, has through-hole, cutting breast in hollow core shaft Change liquid to be entered inside cutting emulsion by slot 3, then entering by liquid-passing hole 4 logical outside cutting emulsion by the through-hole It crosses in slot 2, to be rinsed to the iron filings being bonded on 1 outer wall of guide sleeve ontology.

Embodiment 4

As shown in Figure 1 to Figure 2, a kind of flushing type boring head guide sleeve includes the guide sleeve ontology 1 in hollow cylindrical, institute The outer wall upper edge of guide sleeve ontology 1 its circumferencial direction is stated to be sequentially arranged at intervals with outside multiple cutting emulsions through slot 2.

It is recessed to be formed inside cutting emulsion through slot 3 along inner wall to outer wall direction in the middle part of 1 inner wall of guide sleeve ontology.

It is connected by liquid-passing hole 4 by slot 3 with inside cutting emulsion by slot 2 outside the cutting emulsion.

Outside the multiple cutting emulsion by slot 2 altogether there are six.

It is concordant with 1 both ends end face of guide sleeve ontology respectively by the both ends notch of slot 2 outside the cutting emulsion.

It is cylindrical by slot 3 inside the cutting emulsion.

Circulation has the cutting emulsion flowed along boring head direction of advance, guide sleeve ontology 1 to be arranged in the hollow core shaft of boring head In hollow core shaft, and the inner wall of guide sleeve ontology 1 is affixed with hollow core shaft outer wall, has through-hole, cutting breast in hollow core shaft Change liquid to be entered inside cutting emulsion by slot 3, then entering by liquid-passing hole 4 logical outside cutting emulsion by the through-hole It crosses in slot 2, to be rinsed to the iron filings being bonded on 1 outer wall of guide sleeve ontology.

Embodiment 5

As shown in Figure 1 to Figure 2, a kind of flushing type boring head guide sleeve includes the guide sleeve ontology 1 in hollow cylindrical, institute The outer wall upper edge of guide sleeve ontology 1 its circumferencial direction is stated to be sequentially arranged at intervals with outside multiple cutting emulsions through slot 2.

It is recessed to be formed inside cutting emulsion through slot 3 along inner wall to outer wall direction in the middle part of 1 inner wall of guide sleeve ontology.

It is connected by liquid-passing hole 4 by slot 3 with inside cutting emulsion by slot 2 outside the cutting emulsion.

Outside the multiple cutting emulsion by slot 2 altogether there are six.

It is concordant with 1 both ends end face of guide sleeve ontology respectively by the both ends notch of slot 2 outside the cutting emulsion.

The liquid-passing hole 4 is cylindrical, for the cutting emulsion that circulates.

Circulation has the cutting emulsion flowed along boring head direction of advance, guide sleeve ontology 1 to be arranged in the hollow core shaft of boring head In hollow core shaft, and the inner wall of guide sleeve ontology 1 is affixed with hollow core shaft outer wall, has through-hole, cutting breast in hollow core shaft Change liquid to be entered inside cutting emulsion by slot 3, then entering by liquid-passing hole 4 logical outside cutting emulsion by the through-hole It crosses in slot 2, to be rinsed to the iron filings being bonded on 1 outer wall of guide sleeve ontology.

Embodiment 6

As shown in Figure 1 to Figure 2, a kind of flushing type boring head guide sleeve includes the guide sleeve ontology 1 in hollow cylindrical, institute The outer wall upper edge of guide sleeve ontology 1 its circumferencial direction is stated to be sequentially arranged at intervals with outside multiple cutting emulsions through slot 2.

It is recessed to be formed inside cutting emulsion through slot 3 along inner wall to outer wall direction in the middle part of 1 inner wall of guide sleeve ontology.

It is connected by liquid-passing hole 4 by slot 3 with inside cutting emulsion by slot 2 outside the cutting emulsion.

Outside the multiple cutting emulsion by slot 2 altogether there are six, uniformly set along 1 excircle wall surface of guide sleeve ontology It sets.

It is concordant with 1 both ends end face of guide sleeve ontology respectively by the both ends notch of slot 2 outside the cutting emulsion.

The liquid-passing hole 4 is cylindrical, for the cutting emulsion that circulates.

Circulation has the cutting emulsion flowed along boring head direction of advance, guide sleeve ontology 1 to be arranged in the hollow core shaft of boring head In hollow core shaft, and the inner wall of guide sleeve ontology 1 is affixed with hollow core shaft outer wall, has through-hole, cutting breast in hollow core shaft Change liquid to be entered inside cutting emulsion by slot 3, then entering by liquid-passing hole 4 logical outside cutting emulsion by the through-hole It crosses in slot 2, to be rinsed to the iron filings being bonded on 1 outer wall of guide sleeve ontology.

Embodiment 7

As shown in Figure 1 to Figure 2, a kind of flushing type boring head guide sleeve includes the guide sleeve ontology 1 in hollow cylindrical, institute The outer wall upper edge of guide sleeve ontology 1 its circumferencial direction is stated to be sequentially arranged at intervals with outside multiple cutting emulsions through slot 2.

It is recessed to be formed inside cutting emulsion through slot 3 along inner wall to outer wall direction in the middle part of 1 inner wall of guide sleeve ontology.

It is connected by liquid-passing hole 4 by slot 3 with inside cutting emulsion by slot 2 outside the cutting emulsion.

Outside the multiple cutting emulsion by slot 2 altogether there are six, uniformly set along 1 excircle wall surface of guide sleeve ontology It sets.

It is concordant with 1 both ends end face of guide sleeve ontology respectively by the both ends notch of slot 2 outside the cutting emulsion.

The liquid-passing hole 4 is cylindrical, for the cutting emulsion that circulates.

It is cylindrical by slot 3 inside the cutting emulsion.

Circulation has the cutting emulsion flowed along boring head direction of advance, guide sleeve ontology 1 to be arranged in the hollow core shaft of boring head In hollow core shaft, and the inner wall of guide sleeve ontology 1 is affixed with hollow core shaft outer wall, has through-hole, cutting breast in hollow core shaft Change liquid to be entered inside cutting emulsion by slot 3, then entering by liquid-passing hole 4 logical outside cutting emulsion by the through-hole It crosses in slot 2, to be rinsed to the iron filings being bonded on 1 outer wall of guide sleeve ontology.

Above-described embodiment gives detailed embodiment and specific operation premised on technical solutions of the utility model Process, but the scope of protection of the utility model is not limited to the above embodiments.

Claims (3)

1. a kind of flushing type boring head guide sleeve includes the guide sleeve ontology in hollow cylindrical（1）, it is characterised in that：It is described to lead To set ontology（1）Outer wall upper edge its circumferencial direction be sequentially arranged at intervals with outside multiple cutting emulsions and pass through slot（2）, described Guide sleeve ontology（1）It is recessed to be formed inside cutting emulsion along inner wall to outer wall direction in the middle part of inner wall and passes through slot（3）, the cutting Pass through slot outside emulsion（2）Pass through slot with inside cutting emulsion（3）Pass through liquid-passing hole（4）It is connected.

2. a kind of flushing type boring head guide sleeve as described in claim 1, it is characterised in that：Outside the multiple cutting emulsion Pass through slot（2）There are six altogether.

3. a kind of flushing type boring head guide sleeve as described in claim 1, it is characterised in that：Pass through outside the cutting emulsion Slot（2）Both ends notch respectively with guide sleeve ontology（1）Both ends end face is concordant.