KR101805709B1 - Penetration-typed scribing wheel with chip grooves in an axle hole thereof - Google Patents

Abstract

The present invention relates to a through-scriing scriber wheel for cutting glass, wherein the through-scriber scriber wheel has chip grooves in the shaft bore. It is an object of the present invention to provide a through-hole scriing wheel capable of removing glass fragments between the axis of the through-scriber scriber wheel and the axis hole wall. A chip ground portion is disposed on the shaft hole wall of the through-type scriber wheel, and the chip grooves communicate with the disk surface (2) of the scriber wheel. In the case of a through-scriber scriber wheel with chip grooves in the shaft hole according to the invention, the glass pieces falling between the shaft and the shaft hole wall will be released from the scraping wheel along the chip grooves, .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a through-hole scribing wheel having chip grooves in a shaft hole,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the technical field of machining tools and, more particularly, to a through-hole scriing wheel for cutting glass.

During the cutting of the glass through the through-scriing wheel, a small intermittent mark will appear on the glass surface when a small pressing force is applied to the scribing wheel, resulting in micro-cracking, Large crack depths may appear or the glass may be cut even with a single impact. The through-type scriing wheel is in the shape of a circular disk, the through-type scriber wheel includes a disk surface on both sides, the outer edges of the disk surfaces on both sides extend outward to form two symmetrical slopes, And the intersection line between the two inclined surfaces constitutes the circumferential cutting edge of the scribing wheel. The shaft hole mutually penetrating the two disk surfaces is disposed at the center of the disk surface of the through-type scriing wheel, the shaft hole and the through-type scriber wheel are provided coaxially, the shaft can be mounted to the shaft hole, Where the shaft rotates to drive the scribing wheel to cut the glass. During cutting of the glass through the through-scriber scraping wheel, the glass fragments are likely to enter between the shaft and the shaft bore wall, thus causing a fragment jam between the shaft and the through-bore scraping wheel, Thereby increasing the discard rate of the cut product.

The present invention provides a through-scriber scraping wheel with chip grooves in the shaft bore, which can remove glass fragments between the shaft of the through-scriber scraper wheel and the shaft bore wall.

In a through-hole scriing wheel with chip grooves in the shaft hole according to the invention, the chip grooves are through grooves communicating with the two disc surfaces of the scriber wheel, and the through grooves are formed on the shaft hole wall .

In a through-hole scriing wheel having chip grooves in the shaft hole according to the present invention, the number of the through grooves is 5 to 12, the through grooves are uniformly arranged along the circumference of the shaft hole wall, The grooves have a U-shaped cross section.

In a through-hole scriing wheel having chip grooves in the shaft hole according to the present invention, the maximum width of the through grooves is 0.375% to 0.625% of the diameter of the shaft hole, and the outer diameter of the scraping wheel is 2mm And the length between the two disk surfaces is 0.65 mm.

In a through-going scribing wheel with chip grooves in the shaft bore according to the invention, the shape of the cutting edge of the scribing wheel is a single cutting edge, a double cutting edge or an entire cutting edge.

In a through-bore scribing wheel with chip grooves in the shaft bore according to the present invention, the single cutting edge and the double cutting edge have a cutting edge structure with U-shaped or V-shaped teeth or no teeth.

In a through-hole scriing wheel having chip grooves in the shaft hole according to the present invention, the chip grooves are respectively arranged at the two hole ends of the shaft hole, and the chip grooves are formed in the grooves And the grooves on each hole end communicate with the disk surface of the scraping wheel on the hole end.

In a through-hole scriber wheel having chip grooves in the shaft holes according to the present invention, the number of grooves on each hole end is 5 to 12, and all of the grooves on each hole end are round And the grooves have a U-shaped cross section.

In a through-hole scriing wheel having chip grooves in the shaft hole according to the present invention, the grooves disposed on the two hole ends are distributed in a cross shape on the shaft hole wall.

In a through-hole scriber wheel having chip grooves in the shaft hole according to the present invention, the outer diameter of the scriber wheel is 2 mm to 4 mm, the length between the two disk surfaces 2 is 0.65 mm, The depth h of each groove is 0.1 mm to 0.15 mm, and the maximum width of the grooves is 0.375% to 0.625% of the diameter of the shaft hole.

In a through-going scribing wheel with chip grooves in the shaft bore according to the invention, the shape of the cutting edge of the scribing wheel is a single cutting edge, a double cutting edge or an entire cutting edge.

In a through-bore scribing wheel with chip grooves in the shaft bore according to the present invention, the single cutting edge and the double cutting edge have a cutting edge structure with U-shaped or V-shaped teeth or no teeth.

The technical solution provided by embodiments of the present invention may have the following beneficial effects, i.e., during cutting of the glass through the through-scriber scraping wheel, the glass pieces falling between the shaft and the shaft hole walls are moved along the chip grooves Will be discharged from the scribing wheel, thus preventing debris clogging.

In a through-type scriber wheel with chip grooves in the shaft bore according to the invention, the chip grooves have five to twelve U-shaped through holes arranged on the shaft bore wall communicating with the two disc surfaces of the scraping wheel And the through grooves are uniformly arranged along the circumference of the axial hole wall so that the axial hole wall will be discontinuous and since the axis and the axial hole are in a clearance fit state, A vibration phenomenon will occur. Such vibrations will increase the secondary crack depth of the glass to some extent and thus improve the possibility of separation of the glass.

In a through-bore scribing wheel with chip grooves in the shaft bore according to the invention, the chip grooves have 5 to 12 U < RTI ID = 0.0 > U < / RTI > disposed on each hole end of the shaft bore uniformly arranged along the circumference of the shaft bore wall. Grooves and grooves on each hole end communicate with the disk surface of the scraping wheel on the hole end. The grooves do not communicate with the two disk surfaces of the scribing wheel, but instead the grooves are distributed in a cross shape on the two hole ends of the shaft hole. When the shaft rotates in the shaft hole, no oscillation phenomenon will occur, and instead, debris clogging between the shaft and the scraping wheel is reduced by reducing the contact area between the shaft and the shaft hole, The debris will be released from the scribing wheel along the grooves.

In a through-hole scriber wheel having chip grooves in the shaft hole according to the present invention, the maximum width d of the chip grooves is 0.375% to 0.625% of the diameter of the shaft hole. If the chip grooves are too shallow, the debris removal effect will not be noticeable, and if the chip grooves are too deep, the strength of the shaft hole of the scraping wheel will deteriorate.

It should be noted that the foregoing general description and the following detailed description are exemplary and illustrative, and they are not used to limit the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a front view of a first embodiment of a through-going scriing wheel having chip grooves in a shaft hole according to the present invention.
Fig. 2 is a left side view of Fig. 1; Fig.
3 is a perspective view of a first embodiment of a through-scriber scraping wheel with chip grooves in the shaft hole according to the present invention.
4 is a front view of a second embodiment of a through-scriber scraping wheel having chip grooves in the shaft bore according to the present invention.
5 is a left side view of Fig.
6 is a perspective view of a second embodiment of a through-scriing scriber wheel having chip grooves in a shaft hole according to the present invention.
7 is a front view of a third embodiment of a through-scriber scraping wheel with chip grooves in the shaft bore according to the present invention.
8 is a left side view of Fig.
9 is a perspective view of a third embodiment of a through-scriber scraping wheel with chip grooves in the shaft hole according to the present invention.
10 is a front view of a fourth embodiment of a through-scriber scriing wheel having chip grooves in the shaft bore according to the present invention.
11 is a left side view of Fig.
12 is a perspective view of a fourth embodiment of a through-scriber scraping wheel having chip grooves in the shaft hole according to the present invention.
13 is a front view of a fifth embodiment of a through-scriber scriing wheel having chip grooves in the shaft bore according to the present invention.
14 is a partially enlarged view of A in Fig.
Fig. 15 is a left side view of Fig. 13; Fig.
16 is a perspective view of a fifth embodiment of a through-going scriing wheel having chip grooves in a shaft hole according to the present invention.
Figure 17 is a front view of a sixth embodiment of a through-scriber scriing wheel having chip grooves in the shaft bore according to the present invention.
18 is a partial enlarged view of B in Fig.
Fig. 19 is a left side view of Fig. 17; Fig.
20 is a perspective view of a sixth embodiment of a through-hole scriing wheel having chip grooves in a shaft hole according to the present invention.
21 is a front view of a seventh embodiment of a through-scriber scraping wheel having chip grooves in a shaft hole according to the present invention.
22 is a partially enlarged view of C in Fig.
FIG. 23 is a left side view of FIG. 21. FIG.
Fig. 24 is a perspective view of a seventh embodiment of a through-hole scriing wheel having chip grooves in a shaft hole according to the present invention. Fig.
25 is a front view of an eighth embodiment of a through-scriber scriber wheel having chip grooves in a shaft hole according to the present invention.
26 is a partially enlarged view of D in Fig.
Fig. 27 is a left side view of Fig. 25. Fig.
28 is a perspective view of an eighth embodiment of a through-hole scriing wheel having chip grooves in a shaft hole according to the present invention.
29 is a front view of a ninth embodiment of a through-hole scriing wheel having chip grooves in a shaft hole according to the present invention.
FIG. 30 is a partially enlarged view of FIG. 29E. FIG.
FIG. 31 is a left side view of FIG. 29; FIG.
32 is a perspective view of a ninth embodiment of a through-hole scriing wheel having chip grooves in a shaft hole according to the present invention.
33 is a front view of a tenth embodiment of a through-hole scriing wheel having chip grooves in the shaft hole according to the present invention.
34 is a partially enlarged view of F in Fig.
Fig. 35 is a left side view of Fig. 33; Fig.
FIG. 36 is a perspective view of a tenth embodiment of a through-hole scriing wheel having chip grooves in the shaft hole according to the present invention. FIG.
37 is a front view of an eleventh embodiment of a through-type scriing wheel having chip grooves in a shaft hole according to the present invention.
38 is a partially enlarged view of G in Fig.
Fig. 39 is a left side view of Fig. 37; Fig.
FIG. 40 is a perspective view of an eleventh embodiment of a through-hole scriing wheel having chip grooves in a shaft hole according to the present invention. FIG.
41 is a front view of a twelfth embodiment of a through-hole scriing wheel having chip grooves in the shaft hole according to the present invention.
42 is a partial enlarged view of H in Fig.
FIG. 43 is a left side view of FIG. 41; FIG.
44 is a perspective view of a twelfth embodiment of a through-hole scriing wheel having chip grooves in a shaft hole according to the present invention.

The through-type scriber wheel having chip grooves in the shaft hole according to the present invention is in the form of a circular disk. The penetrating scribing wheel includes a disk surface on both sides and the outer edges of the disk surfaces on both sides extend outward to arrange two symmetrical sloping surfaces and the intersection line between the two sloping surfaces and the two sloping surfaces, Constitutes a circumferential cutting edge of the ice wheel. When the number of crossing lines between two slopes is 1, there is only one circumferential cutting edge, i.e. a single cutting edge. In the case of the shape of a double cutting edge, Beijing W. Dia. Filed on March 13, 2013 by Beijing Worldia Superhard Tools Co., Ltd., and published on July 23, 2014, entitled "Double Edge Type Scraper "Quot; Double-Edged Scribing Wheel for Cutting Coated Glass ", which is hereby incorporated by reference in its entirety, describes the shape of the double cutting edge in detail. In the case of the shape of the full cutting edge, Beijing Wardia Super Hard Tools Co., Penetration Glass Scribing Wheel With A Full, "filed on April 26, 2013, and published July 24, 2013, entitled " High-Penetration Glass Scribing Wheel with Full Cutting Edge &Quot; Cutting Edge ", which is a detailed description of the shape of the entire cutting edge. In the embodiments of the present invention, only improvements to existing through-scriber wheels are described in detail.

First Embodiment

1 to 3, the shape of the cutting edge 4 of the penetrating scribing wheel in this embodiment is the entire cutting edge, and the chip grooves are arranged on the axial hole wall of the scribing wheel Eight grooves 1 having a U-shaped cross section are arranged on the two hole ends of the shaft hole 3, respectively, and the grooves 1 on each hole end are all arranged in the form of squares And communicates with the disk surface 2 of the ice wheel. Grooves 1 on the end of each hole are all uniformly arranged along the circumference of the axial hole wall. Further, the grooves 1 arranged on the two hole ends are distributed in a cross shape on the shaft hole wall. The maximum width of the grooves 1 is 0.375% to 0.625% of the diameter of the shaft hole, the diameter of the shaft hole is 0.8 mm, and d is 3 to 5 占 퐉. The thickness of the through-scriber wheel with chip grooves in the shaft hole according to the invention, i.e. the length between the two disk surfaces 2 is 0.65 mm, the depth h of each groove 1 ) Is 0.1 mm to 0.15 mm. The depth h of the grooves 1 is 15.385% to 23.077% of the thickness of the scraping wheel, and when the grooves 1 are too deep, the axis of the scraping wheel and the shaft hole will not be in continuous contact , So that vibration will be generated on the scribing wheel. When the vibration is too great, the stability of rotation of the scribing wheel will be affected, the scribing wheel will be shaken, and therefore the cutting effect will be affected, furthermore the wear of the scribing wheel will be accelerated. The diameter of the cutting edge 4 is the outer diameter of the scraping wheel, which is between 2 mm and 4 mm.

In this embodiment, the grooves 1 do not communicate with the two disk surfaces 2 of the scribing wheel, and instead, the grooves 1 have a cross- . When the shaft rotates in the shaft hole 3, no oscillation phenomenon will occur and clogging between the shaft and the scraping wheel is reduced by reducing the contact area between the shaft and the shaft hole 3, Moreover, the debris produced during cutting will be discharged from the scraping wheel along the grooves 1, thus preventing debris clogging and improving the yield of the product. In this embodiment, the shape of the cross section of the grooves 1 is designed as a U shape, and this shape is more preferable for the discharge of debris, but the shape of the cross section of the grooves 1 is, for example, circular and trapezoidal It may be a different shape as well.

Second Embodiment

4 to 6, in this embodiment the shape of the cutting edge 4 of the penetrating scribing wheel is the entire cutting edge and the chip grooves are arranged on the axial bore wall of the scribing wheel , And the chip grooves are through grooves (5) communicating with the two disk surfaces (2) of the scribing wheel. The number of the penetrating grooves 5 is eight, the penetrating grooves 5 are uniformly arranged along the circumference of the axial hole wall, and the penetrating grooves 5 have a U-shaped cross section. The maximum width d of the through grooves 5 is 0.375% to 0.625% of the diameter of the shaft hole, the diameter of the shaft hole is 0.8 mm, and d is 3 탆 to 5 탆. The thickness of the through-scriber wheel with chip grooves in the shaft bore according to the invention, i.e. the length between the two disc faces 2, is 0.65 mm and the diameter of the cutting edge 4 is equal to the diameter of the scriber wheel & , Which is 2 mm to 4 mm.

In this embodiment, the chip grooves of the through-scriing wheel are eight U-shaped through grooves 5 arranged on the shaft hole wall that communicate with the two disk surfaces 2 of the scribing wheel, Since the grooves 5 are uniformly arranged along the circumference of the axial hole wall, the axial hole wall will be discontinuous and the shaft is in a state of a clearance fit with the axial hole, A vibration phenomenon will occur. Such vibrations will increase the secondary crack depth of the glass to some extent and thus improve the possibility of separation of the glass. The number of chip grooves may be set to 5 to 12. If the number is greater than 12, the vibration will be too large, the motion stability of the scribing wheel will be affected, and therefore the scribing wheel will be shaken and the cutting effect will be affected. During cutting, debris falling between the shaft and the axial bore wall will be ejected from the scraping wheel along the chip grooves, thus clogging of the debris can be prevented and the yield of the product will be improved. In this embodiment, the shape of the cross section of the through grooves 5 is designed as U-shape, and this shape is more preferable for the discharge of debris. However, the shape of the cross section of the through grooves 5 may be other shapes such as, for example, a circle and a trapezoid.

Third Embodiment

7 to 9, the difference between the through-type scribing wheel of this embodiment and the through-type scribing wheel of the second embodiment is that the shape of the cutting edge 4 of the scribing wheel is different from that of the tooth- Is a double cutting edge that does not have a cutting edge.

Fourth Embodiment

10 to 12, the difference between the through-type scribing wheel of this embodiment and the through-type scribing wheel of the first embodiment is that the shape of the cutting edge 4 of the scribing wheel is different from that of the tooth- Is a double cutting edge that does not have a cutting edge.

Fifth Embodiment

As shown in Figures 13-16, the difference between the through-scriing wheel of this embodiment and the through-scriber wheel of the second embodiment is that the shape of the cutting edge 4 of the scribe wheel is U- - is a tooth-type double cutting edge.

Sixth Embodiment

17 to 20, the difference between the through-type scribing wheel of this embodiment and the through-type scribing wheel of the first embodiment is that the shape of the cutting edge 4 of the scribing wheel is different from that of the U- - is a tooth-type double cutting edge.

Seventh Embodiment

21 to 24, the difference between the through-scriing wheel of this embodiment and the through-scriber wheel of the second embodiment is that the shape of the cutting edge 4 of the scribing wheel is different from that of the V- - is a tooth-type double cutting edge.

Eighth Embodiment

25 to 28, the difference between the through-type scribing wheel of this embodiment and the through-type scribing wheel of the first embodiment is that the cutting edge 4 of the scribing wheel has a shape of V- - is a tooth-type double cutting edge.

Example 9

29 to 32, the difference between the through-type scribing wheel of this embodiment and the through-type scribing wheel of the second embodiment is that the shape of the cutting edge 4 of the scribing wheel is different from that of the V- - the single cutting edge of the tooth profile.

Embodiment 10

33-36, the difference between the through-type scribing wheel of this embodiment and the through-type scribing wheel of the first embodiment is that the cutting edge 4 of the scribing wheel has a shape of V- - the single cutting edge of the tooth profile.

Example 11

As shown in Figures 37-40, the difference between the through-scriing wheel of this embodiment and the through-scriber wheel of the first embodiment is that the shape of the cutting edge 4 of the scribing wheel is U- - the single cutting edge of the tooth profile.

Example 12

41-44, the difference between the through-scriing wheel of this embodiment and the through-scriber wheel of the second embodiment is that the shape of the cutting edge 4 of the scribing wheel is U-shaped - the single cutting edge of the tooth profile.

The foregoing description illustrates only a few specific embodiments of the present invention. It should be understood by those skilled in the art that various improvements and modifications may be made without departing from the principles of the invention, and all such modifications and changes should be regarded as falling within the scope of protection of the present invention.

1: groove
2: Disc face
3: Axial hole
4: cutting edge
5: Through groove
d: Maximum width of chip grooves
h: depth of the chip groove disposed on the end of the two holes of the shaft hole

Claims (11)

delete delete delete delete delete A through-bore scraping wheel having chip grooves in a shaft hole (3)
The chip grooves are arranged in the two hole ends of the shaft hole (3), the chip grooves are grooves (1) arranged on the shaft hole wall, and the grooves (1) on each hole end (2) of said scribing wheel on said hole end,
The maximum width of the grooves (1) is 0.375% to 0.625% of the diameter of the shaft hole,
The number of the grooves (1) on each hole end is 5 to 12, and all of the grooves (1) on the end of each hole are uniformly arranged along the circumference of the axial hole wall, and the grooves ) Has a U-shaped cross section,
The grooves (1) disposed on the two hole end portions are cross-distributed in a cross shape so as not to penetrate each other in the thickness direction of the axial hole wall,
The outer diameter of the scribing wheel is 2 mm to 4 mm, the length between the two disc surfaces 2 is 0.65 mm, the depth h of each groove 1 is 0.1 mm to 0.15 mm,
The shape of the cutting edge (4) of the scribing wheel is a double cutting edge,
Wherein the double cutting edge has a cutting edge structure having a U-shaped tooth profile. delete delete delete delete delete

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