CN104476356B - The top grinding process of hexagonal - Google Patents

Abstract

The open a kind of top grinding process of hexagonal of the present invention, it is characterised in that comprising the steps: step a: select an asessory shaft, the centre bore of asessory shaft is Mo Shi taper hole；Big footpath Duan Weizheng six prism structure of asessory shaft, six faces of six prisms are working face；Step b: by fixing with sinusoidal disk upper surface laminating for one outer surface of big footpath section of asessory shaft；Sinusoidal disk lower end is supported on base, and is supported on base by slip gauge in the middle part of sinusoidal disk；Step c: by top for the hexagonal centre bore being contained in asessory shaft, by first facet of wheel grinding；Step d: after having ground the facet that hexagonal is top, be rotated further by asessory shaft, remaining facet that grinding hexagonal is top.Due to big footpath Duan Weizheng six prism structure of asessory shaft employed in this technique, thus ensure top upper six faceted equal in magnitude, angles of inclination of hexagonal and circumferentially uniform, and asessory shaft is designed to three stage structure and can effectively reduce working (finishing) area.

Description

The top grinding process of hexagonal

Technical field

The invention belongs to the top manufacture field of hexagonal, specifically, particularly relate to a kind of hexagonal top grinding work Skill.

Background technology

Hexagonal is top is a kind of conventional tail spindle, and this top axle body has a Morse's taper, and top big End has six facets being evenly distributed, and these six are faceted equal in magnitude, and angle of inclination is identical, And these six facets are sequentially connected six angles of composition.At present, typically first pass through dividing head indexing, then pass through Emery wheel grinds this six facets, often occur after grinding six faceted not of uniform size, skewness or The discrepant situation in person angle of inclination, thus causes being unable to reach requirement on machining accuracy, is badly in need of for this solving Above-mentioned technical barrier.

Summary of the invention

The technical problem to be solved is to provide a kind of top grinding process of hexagonal, in order to by this Technique ensures top six the faceted machining accuracies of hexagonal.

Technical scheme is as follows: a kind of top grinding process of hexagonal, it is characterised in that include walking as follows Rapid:

Step a: select the asessory shaft (1) of a corresponding size according to the external diameter of hexagonal top (G), this is auxiliary Helping axle (1) is cast member, and is syllogic hierarchic structure small in the end and big in the middle, and asessory shaft (1) Centre bore (1a) be and the top Mo Shi taper hole coordinated；Big footpath section (1b) of described asessory shaft (1) is Positive six prism structures, six faces of this six prism are working face；

Step b: by one, big footpath section (1b) outer surface of asessory shaft (1) and sinusoidal disk (2) upper surface Laminating, and fixed by magnetic force, and the centre bore (1a) of asessory shaft (1) end greatly is upward；Described sine magnetic The lower end of dish (2) is supported directly on base (3), and sinusoidal disk (2) middle part is by slip gauge (4) It is supported on base (3), thus can adjust sinusoidal disk (2) by the height of slip gauge (4) Luffing angle, and base (3) is fixed on the end face of workbench (5)；The two of described sinusoidal disk (2) Side is provided with tension bar (6), is equipped with lock-screw (7), this locking screw in the bar hole on this tension bar top Nail is fixed on the corresponding side surface of sinusoidal disk (2), and the bottom of tension bar (6) is hinged with base (3), Thus by tension bar (6), sine disk (2) can be compressed；

Step c: top for hexagonal (G) being contained in the centre bore (1a) of asessory shaft (1), this hexagonal is top With centre bore (1a) tight fit of asessory shaft (1), then carry out grinding hexagonal top (G) by emery wheel (8) On first facet；

Step d: after having ground a facet of hexagonal top (G), be rotated further by asessory shaft (1), make auxiliary Big footpath section (1b) corresponding flat of axle (1) is fitted with sinusoidal disk (2) upper surface and passes through magnetic force admittedly Fixed, then by second facet in emery wheel (8) grinding hexagonal top (G)；By that analogy, until Six facets in hexagonal top (G) are ground.

Owing to employed in this technique, big footpath section (1b) of asessory shaft (1) is positive six prism structures, thus Ensure hexagonal top (G) upper six faceted equal in magnitude, angles of inclination and circumferentially uniform well, Thus ensure upper six the faceted requirement on machining accuracy of hexagonal top (G), this grinding process implement simple, Convenient, effectively overcome the defect of tradition grinding process, and asessory shaft (1) be designed to three stage structure can To effectively reduce working (finishing) area, consequently facilitating processing and manufacture, reduce the processing cost of asessory shaft (1).

In order to reduce the difficulty of processing of asessory shaft (1), the center of described asessory shaft (1) end face has one Groove (1c), this groove connects with the small end of described centre bore (1a), and the aperture of groove (1c) is more than The aperture of centre bore (1a) greatly end, and the degree of depth of groove (1c) is 2mm.

Beneficial effect: due to big footpath Duan Weizheng six prism structure of asessory shaft employed in this technique, thus Ensure top upper six faceted equal in magnitude, angles of inclination of hexagonal and circumferentially uniform well, thus Ensureing top upper six the faceted requirement on machining accuracy of hexagonal, this grinding process is implemented simple, convenient, has Effect ground overcomes the defect of traditional grinding process, and asessory shaft is designed to three stage structure and can effectively reduce and add Work area, consequently facilitating processing and manufacture, reduces the processing cost of asessory shaft.

Accompanying drawing explanation

Fig. 1 is present invention structural representation when implementing；

Fig. 2 is the schematic diagram of asessory shaft in Fig. 1；

Fig. 3 is that the A-A of Fig. 2 is to sectional view.

Detailed description of the invention

The invention will be further described with embodiment below in conjunction with the accompanying drawings:

As shown in Figure 1, 2, 3, a kind of top grinding process of hexagonal, it is characterised in that comprise the steps:

Step a: select the asessory shaft 1 of a corresponding size, this asessory shaft 1 according to the external diameter of the top G of hexagonal It is cast member, and is syllogic hierarchic structure small in the end and big in the middle, and the centre bore 1a of asessory shaft 1 is With the top Mo Shi taper hole coordinated；Big footpath section 1b of described asessory shaft 1 is positive six prism structures, this six prism Six faces be working face；The center of described asessory shaft 1 end face has a groove 1c, and this groove is with described The small end connection of centre bore 1a, and the aperture of groove 1c is more than the aperture of the big end of centre bore 1a, and groove 1c The degree of depth be 2mm.

Step b: by mono-outer surface of big footpath section 1b of asessory shaft 1 and sinusoidal disk 2 upper surface laminating, and Fixed by magnetic force, and the big end of centre bore 1a of asessory shaft 1 is upward；The lower end of described sinusoidal disk 2 is direct Support on the base 3, and support on the base 3 by slip gauge 4 in the middle part of sinusoidal disk 2, the most permissible Adjusted the luffing angle of sinusoidal disk 2 by the height of slip gauge 4, and base 3 is fixed on workbench 5 On end face；The both sides of described sinusoidal disk 2 are provided with tension bar 6, are equipped with in the bar hole on this tension bar top Lock-screw 7, this lock-screw is fixed on the corresponding side surface of sinusoidal disk 2, and strains bottom and the end of bar 6 Seat 3 is hinged, and thus can be compressed by sine disk 2 by tension bar 6；

Step c: be contained in the centre bore 1a of asessory shaft 1 by top for hexagonal G, this hexagonal is top and asessory shaft The centre bore 1a tight fit of 1, then first facet on the top G of grinding hexagonal is carried out by emery wheel 8；

Step d: after having ground a facet of the top G of hexagonal, be rotated further by asessory shaft 1, make asessory shaft 1 Big footpath section 1b corresponding flat is fitted with sinusoidal disk 2 upper surface and is fixed by magnetic force, then by emery wheel 8 Second facet on the top G of grinding hexagonal；By that analogy, until six ground on the top G of hexagonal Facet.

The foregoing is only presently preferred embodiments of the present invention, not with the present invention for limiting, all at this Any amendment, equivalent and the improvement etc. made within bright spirit and principle, should be included in the present invention Protection domain within.

Claims (2)

1. the top grinding process of hexagonal, it is characterised in that comprise the steps:

Step a: select the asessory shaft (1) of a corresponding size according to the external diameter of hexagonal top (G), this is auxiliary Helping axle (1) is cast member, and is syllogic hierarchic structure small in the end and big in the middle, and asessory shaft (1) Centre bore (1a) be the mohs tapered bore that coordinate top with hexagonal；Big footpath section (1b) of described asessory shaft (1) For positive six prism structures, six faces of this six prism are working face；

Step b: by one, big footpath section (1b) outer surface of asessory shaft (1) and sinusoidal disk (2) upper surface Laminating, and fixed by magnetic force, and the centre bore (1a) of asessory shaft (1) end greatly is upward；Described sine magnetic The lower end of dish (2) is supported directly on base (3), and sinusoidal disk (2) middle part is by slip gauge (4) It is supported on base (3), thus can adjust sinusoidal disk (2) by the height of slip gauge (4) Luffing angle, and base (3) is fixed on the end face of workbench (5)；The two of described sinusoidal disk (2) Side is provided with tension bar (6), is equipped with lock-screw (7), this locking screw in the bar hole on this tension bar top Nail is fixed on the corresponding side surface of sinusoidal disk (2), and the bottom of tension bar (6) is hinged with base (3), Thus by tension bar (6), sine disk (2) can be compressed；

Step c: top for hexagonal (G) being contained in the centre bore (1a) of asessory shaft (1), this hexagonal is top With centre bore (1a) tight fit of asessory shaft (1), then carry out grinding hexagonal top (G) by emery wheel (8) On first facet；

Step d: after having ground a facet of hexagonal top (G), be rotated further by asessory shaft (1), make auxiliary Big footpath section (1b) corresponding flat of axle (1) is fitted with sinusoidal disk (2) upper surface and passes through magnetic force admittedly Fixed, then by second facet in emery wheel (8) grinding hexagonal top (G)；By that analogy, until Six facets in hexagonal top (G) are ground.

The top grinding process of hexagonal the most according to claim 1, it is characterised in that: described asessory shaft (1) The center of end face has a groove (1c), and this groove connects with the small end of described centre bore (1a), and recessed The aperture of groove (1c) is more than the aperture of centre bore (1a) end greatly, and the degree of depth of groove (1c) is 2mm.