CN202088084U

CN202088084U - Grinding mechanism

Info

Publication number: CN202088084U
Application number: CN2011201053489U
Authority: CN
Inventors: 陈伯仲; 中田智治; 王明钦
Original assignee: Green Energy Technology Inc
Current assignee: Green Energy Technology Inc
Priority date: 2011-01-28
Filing date: 2011-04-12
Publication date: 2011-12-28
Anticipated expiration: 2021-04-12
Also published as: US20120196518A1; DE202011050478U1; TWM417989U; JP3171268U

Abstract

The utility model relates to a grinding mechanism, including a rotor, a first grinding miller, a first locking part, a second grinding miller, a second locking part, a spacer group. The first locking piece passes through the first body part of the first grinding wheel and is locked into the rotating body. The second grinding wheel comprises a second body part and a second grinding part, wherein the second grinding part and the first grinding part of the first grinding wheel have different diameters and are axially spaced and have different grinding precisions. The spacing piece group is clamped between the first grinding wheel and the second grinding wheel. The second locking piece passes through the second body part and the spacing piece group and is locked into the first body part, and the second body part and the spacing piece group are pressed against and fixed on the first body part. Therefore, the rough grinding and the fine grinding can be completed in one grinding step, and the adjustment of the distance between the grinding wheels is also convenient.

Description

Grinding mechanism

Technical field

The utility model is about a kind of grinding mechanism, refers to a kind of grinding mechanism of tool adjustment abrasive wheel (grindingwheel) position functions especially.

Background technology

Milling apparatus is used by popular widely now, especially be engaged in manufacturing inside plants in now, all as seen, reach the use of abrasive wheel (for example emery wheel or bristle brush wheel), with its usefulness that becomes smooth planar surface that makes as the grinding work-piece surface, so abrasive wheel can be subjected to mass consumption person's welcome widely and and then buy and use.

The general existing emery wheel of traditional type, because of the abrasive grains that is positioned at same emery wheel inside is with a kind of granularity, if when user's desire is ground the workpiece grinding for mirror finish, then must workpiece can be ground to desired degree by corase grind and fine grinding procedure in regular turn.That is to say, use the emery wheel of multiple granularity specification to process respectively or carry out fine grinding work with bristle brush wheel.It is that emery wheel with two kinds of different sizes is installed in two drive units on the same board that a kind of design is arranged, and grinder for example shown in Figure 1 has two emery wheels 1,2 and uses different CD-ROM drive motor 3,4 respectively.

But for the person of manipulating, above-mentioned machining clearance is quite loaded down with trivial details.Even rough grinding wheel and fine grinding emery wheel (or bristle brush wheel) are to utilize same drive unit, also must carry out the step of dismounting emery wheel/bristle brush wheel.In this occasion, the user need consider problems such as the dynamic balancing of abrasive wheel when dismounting, concentricity, out of roundness, and the processing of these problems is quite time-consuming.

The utility model content

A purpose of the present utility model is to provide a kind of grinding mechanism, can save procedure of processing, can adjust the abrasive wheel position easily again.

For reaching above-mentioned purpose, grinding mechanism of the present utility model comprises a rotor, one first abrasive wheel, one second abrasive wheel, one first locking part, one second locking part, a distance piece group.The distance piece group is located between first abrasive wheel and second abrasive wheel.

Above-mentioned first abrasive wheel includes one first body and one first grind section, and second abrasive wheel includes one second body and one second grind section, and wherein first grind section is different with the second grind section path length, axially separately and have different grinding precisions.

Above-mentioned first locking part passes first body and locks rotor, first body is compressed be fixed in rotor.Second locking part passes second body and distance piece group and locks first body, second body and distance piece group is compressed be fixed on first body.

Wherein, this first abrasive wheel is an emery wheel; Wherein, this second abrasive wheel is a bristle brush wheel; Wherein, this second abrasive wheel is a bristle brush wheel; Wherein, this distance piece group includes at least one flexure strip; Wherein, this flexure strip is the rubber material; Wherein, this first locking part is a bolt; Wherein, this second locking part is a bolt; Wherein, this rotor inside is provided with a lapping liquid runner.

The beneficial effects of the utility model: by the said structure design, not only drive two abrasive wheels and save the energy and equipment cost, also reach and in a grinding steps, promptly obtain corase grind and fine grinding effect with single drive unit.In addition, adjust two abrasive wheel spacings also very simply easily.

Above-mentioned first abrasive wheel and second abrasive wheel can be the combination of an emery wheel and a bristle brush wheel, and particularly suitable is in the higher grinding precision occasion of needs, for example grinding wafers.Above-mentioned first locking part and second locking part can be bolt.

Above-mentioned distance piece group can include at least one flexure strip, and for example rubber material flexure strip helps to carry out the fine setting of two abrasive wheel spacings, also has the function that absorbs locking part pressure in addition concurrently.

Rotor inside can be provided with a lapping liquid runner and circulate for lapping liquid.

Description of drawings

Fig. 1 is the grinder stereogram of existing tool double abrasive wheel.

Fig. 2 is the grinding mechanism cutaway view of the utility model one preferred embodiment.

Fig. 3 is the grinding mechanism exploded view of the utility model one preferred embodiment.

The main element symbol description

Emery wheel 1,2 CD-ROM drive motor 3,4

Rotor 10 motor spindles 11

Flange 12 lapping liquid runners 121

First abrasive wheel, 13 first bodies 131

First grind section, 132 second abrasive wheels 14

Second body, 141 second grind section 142

Distance piece group 15 distance pieces 151

Bolt 30 first locking parts 31

Second locking part, 32 rotational axis x

Spacing h

The specific embodiment

With reference to figure 2 and Fig. 3, be the grinding mechanism cutaway view and the exploded view of the utility model one preferred embodiment.Grinder comprises a rotor 10, one first abrasive wheel 13, one second abrasive wheel 14, a distance piece group 15, one first locking part 31 and one second locking part 32.In the present embodiment, the rotor 10 of grinder is to be made of a motor spindle 11 and a flange 12, and wherein flange 12 locks the end that is fixed on motor spindle 11 with bolt 30, flange 12 and motor spindle 11 and coaxial setting and be able to synchronous rotation.Rotor 10 inside are provided with the lapping liquid runner 121 for the lapping liquid circulation.

First abrasive wheel 13 is a cup-shaped emery wheel, includes one first body 131 that is connected and has one first grind section 132 of abrasive grains.Second abrasive wheel 14 is a cup-shaped bristle brush wheel, includes one second body 141 that is connected and has one second grind section 142 of bristle.

First body 131 of first abrasive wheel 13 see through one first locking part 31 for example bolt and locking be fixed on flange 12 end faces.Distance piece group 15 is to be made of a plurality of distance pieces 151, can be identical or different material.Use at least one flexure strip, particularly flexible rubber web in this example.

Second locking part 32 a for example bolt passes second body 141 and the distance piece group 15 of second abrasive wheel 14 simultaneously and locks first body 131 of first abrasive wheel 13.Thus, second abrasive wheel 14 is stable in first abrasive wheel 13 with distance piece group 15.

In this example for first abrasive wheel 13 of emery wheel be used for workpiece corase grind, for 14 of second abrasive wheels of bristle brush wheel are used for the workpiece fine grinding, just second abrasive wheel 14 has higher grinding precision.In addition, first abrasive wheel 13 has the path length bigger than second abrasive wheel 14, the therefore rotational axis x of first grind section 132 compared to second grind section 142 further from rotor 10.Than the 132 more downward extensions of first grind section, the spacing h of the two decides on the demand in the application second grind section 142 in the axial direction.Spacing h is meant how far the outermost end face (free end face) of two grind section is separated by.

By said structure, grinder can be earlier with the 132 pairs of workpiece corase grind of first grind section than the outside when carrying out attrition process, and and then second grind section 142 of tool bristle carries out fine grinding.Therefore, can finish corase grind and fine grinding two steps in the stroke once grinding, very time saving and energy saving, and grind accuracy height as a result.

When wearing away because of grind section or changing the spacing h that need readjust or set two grind section 132,142, only need remove second locking part 32 earlier, change distance piece group gross thickness by the increase and decrease distance piece again and get final product.Therefore, the adjustable trickle degree of spacing h depends on the thickness of the distance piece of preparing, and has thin more distance piece adjustable range just big more.

Especially, employed in this example flexure strip has some advantages, that is not only helps to carry out spacing h fine setting by its elastic characteristic, also has the function that absorbs locking part pressure in addition concurrently.

The foregoing description only is to give an example for convenience of description, and the interest field that the utility model is advocated should be as the criterion so that claim is described certainly, but not only limits to the foregoing description.

Claims

1. a grinding mechanism is characterized in that, comprising:

One rotor;

One first abrasive wheel includes one first body and one first grind section;

One first locking part passes this first body and locks this rotor, this first body is compressed be fixed in this rotor;

One second abrasive wheel includes one second body and one second grind section, and wherein this first grind section is different with this second grind section path length, axially separately and have different grinding precisions;

One distance piece group is located between this first abrasive wheel and this second abrasive wheel; And

One second locking part passes this second body and this distance piece group and locks this first body, this second body and this distance piece group is compressed be fixed on this first body.

2. grinding mechanism as claimed in claim 1 is characterized in that, this first abrasive wheel is an emery wheel.

3. grinding mechanism as claimed in claim 2 is characterized in that, this second abrasive wheel is a bristle brush wheel.

4. grinding mechanism as claimed in claim 1 is characterized in that, this second abrasive wheel is a bristle brush wheel.

5. grinding mechanism as claimed in claim 1 is characterized in that, this distance piece group includes at least one flexure strip.

6. grinding mechanism as claimed in claim 5 is characterized in that, this flexure strip is the rubber material.

7. grinding mechanism as claimed in claim 1 is characterized in that, this first locking part is a bolt.

8. grinding mechanism as claimed in claim 1 is characterized in that, this second locking part is a bolt.

9. grinding mechanism as claimed in claim 1 is characterized in that, this rotor inside is provided with a lapping liquid runner.