U.S. patent application number 14/818830 was filed with the patent office on 2015-12-03 for rotating wheel mounting structure.
The applicant listed for this patent is YUNG LI HSING ELECTRIC WORKS CO., LTD.. Invention is credited to Li-Wen CHANG, Kolin KUO, Chris LIN.
Application Number | 20150343600 14/818830 |
Document ID | / |
Family ID | 54700714 |
Filed Date | 2015-12-03 |
United States Patent
Application |
20150343600 |
Kind Code |
A1 |
CHANG; Li-Wen ; et
al. |
December 3, 2015 |
ROTATING WHEEL MOUNTING STRUCTURE
Abstract
A rotating wheel mounting structure includes a rotating shaft
having a flat segment, a rotating wheel mounted on the rotating
shaft, a locating member mounted on the rotating shaft and stopped
at one side of the rotating wheel, a locating member mounted has a
through hole and a flat engaging segment that structurally matches
the flat segment of the rotating shaft, and a lock member fastened
to the rotating shaft to lock the locating member and the rotating
wheel, and thus fixation between the locating member and the
rotating shaft prohibits the lock member from being rotated in the
reversed direction and loosened due to an inertia on the rotating
wheel.
Inventors: |
CHANG; Li-Wen; (TAICHUNG
CITY, TW) ; LIN; Chris; (TAICHUNG CITY, TW) ;
KUO; Kolin; (TAICHUNG CITY, TW) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
YUNG LI HSING ELECTRIC WORKS CO., LTD. |
TAICHUNG CITY |
|
TW |
|
|
Family ID: |
54700714 |
Appl. No.: |
14/818830 |
Filed: |
August 5, 2015 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
14293515 |
Jun 2, 2014 |
|
|
|
14818830 |
|
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Current U.S.
Class: |
451/548 |
Current CPC
Class: |
B24D 5/02 20130101 |
International
Class: |
B24D 5/02 20060101
B24D005/02 |
Claims
1. A rotating wheel mounting structure, comprising: a rotating
shaft comprising a threaded segment and a flat segment; a rotating
wheel mounted on said rotating shaft, said rotating wheel
comprising an inner wall and an opposing outer wall; an inner
gasket mounted on said rotating shaft and attached to said inner
wall of said rotating wheel; an locating member has a through hole
and a flat engaging segment that structurally matches the flat
segment of the rotating shaft, said locating member is mounted
around the rotating shaft and engages with the rotating shaft by
means of the flat engaging segment, said locating member is such
arranged that it abuts against the outer wall of the rotating
wheel; a lock member fastened to said threaded segment of said
rotating shaft and stopped against said locating member.
2. The rotating wheel mounting structure as claimed in claim 1,
further comprising an outer gasket mounted on said rotating shaft
and set between said outer wall of said rotating wheel and said
locating member.
3. The rotating wheel mounting structure as claimed in claim 2,
wherein said locating member comprises at least one connection
portion fastened to said outer gasket.
4. The rotating wheel mounting structure as claimed in claim 3,
wherein each said connection portion is a through hole, and said
outer gasket comprises at least one screw hole respectively
fastened to said at least one connection portion of said locating
member by a respective screw to prohibit said outer gasket from a
rotary motion relative to said locating member.
5. The rotating wheel mounting structure as claimed in claim 3,
wherein each said connection portion is a through hole, and said
outer gasket comprises at least one pin respectively press-fitted
into said at least one connection portion of said locating member
to prohibit said outer gasket from a rotary motion relative to said
locating member.
6. The rotating wheel mounting structure as claimed in claim 2,
wherein said locating member comprises at least one connection
portion fastened to said outer gasket.
7. The rotating wheel mounting structure as claimed in claim 1,
wherein, the flat segment of the rotating shaft extends along the
axis of the rotating shaft.
8. The rotating wheel mounting structure as claimed in claim 2,
wherein, the flat segment of the rotating shaft extends along the
axis of the rotating shaft.
9. The rotating wheel mounting structure as claimed in claim 3,
wherein, the flat segment of the rotating shaft extends along the
axis of the rotating shaft.
10. The rotating wheel mounting structure as claimed in claim 4,
wherein, the flat segment of the rotating shaft extends along the
axis of the rotating shaft.
11. The rotating wheel mounting structure as claimed in claim 5,
wherein, the flat segment of the rotating shaft extends along the
axis of the rotating shaft.
Description
CROSS-REFERENCE TO RELATED APPLICATION
[0001] This application is a continuation in part of U.S. patent
application Ser. No. 14/293,515 filed on Jun. 2, 2014. "ROTATING
WHEEL MOUNTING STRUCTURE" herein by reference.
BACKGROUND OF THE INVENTION
[0002] 1. Field of the Invention
[0003] The present invention relates to rotary machine tools and
more particularly, to a rotating wheel mounting structure.
[0004] 2. Description of the Related Art
[0005] Currently, many machine tools use a rotating wheel for
different applications, for example, a sand wheel in a sander, a
grinding wheel in a grinding machine, or a drive wheel in a band
saw. These machine tools commonly use a power drive, for example, a
motor to rotate a rotating shaft, thereby rotating the rotating
wheel for processing. As illustrated in FIG. 1, the rotating wheel
10 is mounted on a rotating shaft 11 that is connected to and
rotatable by a power drive (not shown). Further, two gaskets 12 are
mounted on the rotating shaft 11 and respectively abutted at two
opposite sides of the rotating wheel 10. Further, a lock member 13
is threaded onto the rotating shaft 11 and stopped at one gasket 12
against the rotating wheel 10, enabling the gasket 12 be firmly
secured to the rotating shaft 11 for synchronous rotation.
[0006] The aforesaid rotating wheel mounting structure is
functional; however, when the power drive is switched between a
high speed mode and a low speed mode, a connection problem between
the lock member and the rotating wheel can occur. Because the
rotating wheel is heavy and its rotating speed is fast. When the
rotating speed of the rotating wheel is changed from a high level
to a low level, for example, changed from 3600 rpm to 1200 rpm, the
rotating shaft can be quickly changed from high speed to low speed;
however the rotating speed of the rotating wheel cannot be rapidly
reduced due to inertia. At this time, the gasket and the lock
member can be rotated in the reversed direction and loosened. In
order to prevent the occurrence of this problem, it is the normal
way to bond the lock member to the rotating shaft with an adhesive
or to affix the lock member to the rotating shaft by rivets. These
measures can prevent loosening of the lock member and the gasket;
however these measures will make the rotating wheel dismountable,
causing a rotating wheel repair problem.
SUMMARY OF THE INVENTION
[0007] The present invention has been accomplished under the
circumstances in view. It is the main object of the present
invention to provide a rotating wheel mounting structure, which
assures fixation accuracy of the rotating wheel and simplifies its
dismounting.
[0008] To achieve this and other objects of the present invention,
a rotating wheel mounting structure of the invention comprises a
rotating shaft having a key slot, a rotating wheel mounted on the
rotating shaft, a locating member mounted on the rotating shaft at
one side of the rotating wheel and fastened to the key slot of the
locating member, and a lock member fastened to the rotating shaft
to lock the locating member and the rotating wheel. Fixation
between the locating member and the rotating shaft can prohibit the
rotating wheel from reverse rotation due to inertia, preventing the
lock member from being rotated in the reversed direction and
loosened.
[0009] To achieve this and other objects of the present invention,
an another rotating wheel mounting structure of the invention
comprises a rotating shaft comprising a threaded segment and a flat
segment, a rotating wheel mounted on said rotating shaft, said
rotating wheel comprising an inner wall and an opposing outer wall,
an inner gasket mounted on said rotating shaft and attached to said
inner wall of said rotating wheel, an locating member has a through
hole and a flat engaging segment that structurally matches the flat
segment of the rotating shaft, said locating member is mounted
around the rotating shaft and engages with the rotating shaft by
means of the flat engaging segment, said locating member is such
arranged that it abuts against the outer wall of the rotating
wheel, a lock member fastened to said threaded segment of said
rotating shaft and stopped against said locating member.
[0010] wherein, the flat segment of the rotating shaft extends
along the axis of the rotating shaft.
[0011] Since the outer gasket is combined with the locating member,
and the flat engaging segment of the locating member structurally
matches the flat segment of the rotating shaft.
[0012] Other advantages and features of the present invention will
be fully understood by reference to the following specification in
conjunction with the accompanying drawings, in which like reference
signs denote like components of structure.
BRIEF DESCRIPTION OF THE DRAWINGS
[0013] FIG. 1 is a front view of a rotating wheel mounting
structure according to the prior art.
[0014] FIG. 2 is a front view of a rotating wheel mounting
structure in accordance with a first embodiment of the present
invention.
[0015] FIG. 3 is a sectional view taken along line 2-2 of FIG.
2.
[0016] FIG. 4 is an exploded view of a part of the rotating wheel
mounting structure in accordance with the first embodiment of the
present invention.
[0017] FIG. 5 is a front view of a rotating wheel mounting
structure in accordance with a second embodiment of the present
invention.
[0018] FIG. 6 is a front view of a rotating wheel mounting
structure in accordance with a third embodiment of the present
invention.
[0019] FIG. 7 is an applied view of a fourth preferred embodiment
of the present invention.
[0020] FIG. 8 is a cross-sectional view taken along Line 7-7 of
FIG. 7.
[0021] FIG. 9 is a partial perspective view of the fourth preferred
embodiment of the present invention.
[0022] FIG. 10 is an applied view of a fifth preferred embodiment
of the present invention.
[0023] FIG. 11 is an applied view of a sixth preferred embodiment
of the present invention.
DETAILED DESCRIPTION OF THE INVENTION
[0024] Referring to FIGS. 2-4, a rotating wheel mounting structure
in accordance with a first embodiment of the present invention is
shown. The rotating wheel mounting structure comprises:
[0025] a rotating shaft 20 connected to and rotatable by a power
drive (not shown), comprising a threaded segment 21, a circular or
elongated key slot, for example, an elongated key slot 22 located
in the periphery thereof an extending along the length of the
rotating shaft 20;
[0026] a rotating wheel 30 mounted around the rotating shaft 20,
comprising an inner wall 31 facing toward an inner end of the
rotating shaft 20 that is connected to the power drive and an
opposing outer wall 32 facing toward an opposing outer end of the
rotating shaft 20;
[0027] an inner gasket 41 and an outer gasket 42 mounted on the
rotating shaft 20 and respectively attached to the inner wall 31
and outer wall 32 of the rotating wheel 30;
[0028] a locating member 50 comprising a through hole 51 sleeved
onto the rotating shaft 20, an engagement key 52 protruded from an
inner perimeter thereof and extending in direction toward the
center of the through hole 51 and engaged into the key slot 22 of
the rotating shaft 20, and at least one, for example, four
connection portions 53 made in the form of, for example, a through
hole and respectively fastened to a respective screw hole 421 in
the outer gasket 42 by a respective screw to secure the locating
member 50 to the outer gasket 42; and
[0029] a lock member 60 threaded onto the threaded segment 21 of
the rotating shaft 20 and stopped at the locating member 50 against
the outer gasket 42 and the rotating wheel 30.
[0030] When the power drive is switched from a high speed mode to a
low speed mode, there is still a certain inertia on the rotating
wheel; however, the rotating wheel will not drive the outer gasket
in the reversed direction. Because the outer gasket is affixed to
the connection portions of the locating member and the engagement
key of the locating member is fastened to the rotating shaft, the
locating member can stop the outer gasket from reverse rotation,
preventing the lock member from being rotated in the reversed
direction and loosened. Thus, the invention effectively improves
the drawback of the prior art design.
[0031] Referring to FIG. 5, a rotating wheel mounting structure in
accordance with a second embodiment of the present invention is
shown. The rotating wheel mounting structure comprises:
[0032] a rotating shaft 20 connected to and rotatable by a power
drive (not shown), comprising a threaded segment 21 and a key slot
22;
[0033] a rotating wheel 30 mounted around the rotating shaft 20,
comprising an inner wall 31 facing toward an inner end of the
rotating shaft 20 that is connected to the power drive and an
opposing outer wall 32 facing toward an opposing outer end of the
rotating shaft 20;
[0034] an inner gasket 41 and an outer gasket 42 mounted on the
rotating shaft 20 and respectively attached to the inner wall 31
and outer wall 32 of the rotating wheel 30;
[0035] a locating member 50 comprising a through hole 51 sleeved
onto the rotating shaft 20, an engagement key 52 protruded from an
inner perimeter thereof and extending in direction toward the
center of the through hole 51 and engaged into the key slot 22 of
the rotating shaft 20, and at least one connection portion 53 made
in the form of, for example, a pinhole and respectively fastened to
a respective pin 422 at the outer gasket 42 to secure the locating
member 50 to the outer gasket 42 and to prohibit the outer gasket
42 from a rotary motion relative to the locating member 50; and
[0036] a lock member 60 threaded onto the threaded segment 21 of
the rotating shaft 20 and stopped at the locating member 50 against
the outer gasket 42 and the rotating wheel 30.
[0037] When the power drive is switched from a high speed mode to a
low speed mode, there is still a certain inertia on the rotating
wheel; however, the rotating wheel 30 will not drive the outer
gasket 42 in the reversed direction. Because the at least one pin
422 of outer gasket 42 is respectively fastened to the connection
portions 53 of the locating member 50 and the engagement key 52 of
the locating member 50 is fastened to the rotating shaft 20, the
locating member 50 can stop the outer gasket 42 from reverse
rotation, preventing the lock member 50 from being rotated in the
reversed direction and loosened. When compared to the aforesaid
first embodiment, the connection arrangement between the locating
member 50 and the outer gasket 42 in accordance with this second
embodiment is simpler without using any screw, facilitating the
installation.
[0038] Referring to FIG. 6, a rotating wheel mounting structure in
accordance with a third embodiment of the present invention is
shown. The rotating wheel mounting structure comprises:
[0039] a rotating shaft 20 connected to and rotatable by a power
drive (not shown), comprising a threaded segment 21 and a key slot
22;
[0040] a rotating wheel 30 mounted around the rotating shaft 20,
comprising an inner wall 31 facing toward an inner end of the
rotating shaft 20 that is connected to the power drive and an
opposing outer wall 32 facing toward an opposing outer end of the
rotating shaft 20;
[0041] an inner gasket 41 mounted on the rotating shaft 20 and
attached to the inner wall 31 of the rotating wheel 30;
[0042] a locating member 50 mounted on the rotating shaft 20 and
stopped against the outer wall 32 of the rotating wheel 30,
comprising a through hole 51 for the passing of the rotating shaft
20 and an engagement key 52 protruded from an inner perimeter
thereof and extending in direction toward the center of the through
hole 51 and engaged into the key slot 22 of the rotating shaft 20;
and
[0043] a lock member 60 threaded onto the threaded segment 21 of
the rotating shaft 20 and stopped against the locating member
50.
[0044] This third embodiment eliminates the arrangement of the
outer gasket at the outer wall 32 of the rotating wheel 30, and has
the locating member 50 be directly mounted on the rotating shaft
20, i.e., the locating member 50 simultaneously provides the
function of a locating member and the function of gasket. This
third embodiment reduces the amount of component parts; however,
because the locating member 50 and the rotating shaft 20 are
fastened together, and the locating member 50 is held down on the
rotating wheel 30 by the lock member 60, the rotating wheel 30 is
firmly secured to the shaft 20. When an inertia is produced on the
rotating wheel 30, the locating member 50 will not be rotated,
preventing the lock member 60 from being loosened.
[0045] Referring to FIGS. 7-11, a rotating wheel mounting structure
in accordance with a forth embodiment of the present invention is
shown, and the technical features in the current embodiment are
approximately similar to those of the previous one, the characters
different from the previous one are:
[0046] The rotating shaft 20 has a threaded segment 21 and a flat
segment 23 that extends along the axis of the rotating shaft
20.
[0047] An locating member 50 has a through hole 51 and a flat
engaging segment 52 that is beside the through hole 51 and
structurally matches the flat segment 23 of the rotating shaft 20.
The locating member 50 is mounted around the rotating shaft 20 with
the through hole 51 and has the flat engaging segment 52 engaged
with the rotating shaft 20.
[0048] The locating member 50 uses the flat engaging segment 52
that structurally matches the flat segment 23 of the rotating shaft
20 to engage with the rotating shaft 20. Thereby, the locating
member 50 prevents the outer gasket 42 from rotating reversely. At
the same time, the rotating wheel 30 is in turn prevented from
driving the outer gasket 42 of the outer wall 32 to rotate
reversely.
[0049] In addition to the fact that each said flat engaging segment
52 of the locating member 50 structurally matches the flat segment
23 of the rotating shaft 20 and can be engaged therewith, the
locating member 50 and the outer gasket 42 are combined by means of
the combining portions 53 of the locating member 50 that are
through holes for each receiving one said the pin 422. This means
that the combination between the locating member 50 and the outer
gasket 42 can be achieved without using bolts screwed onto the
outer gasket 42 as described in the previous embodiment, and thus
is more convenient.
[0050] Although particular embodiments of the invention has been
described in detail for purposes of illustration, various
modifications and enhancements may be made without departing from
the spirit and scope of the invention. Accordingly, the invention
is not to be limited except as by the appended claims.
* * * * *