U.S. patent application number 12/155354 was filed with the patent office on 2009-12-03 for structure of a foldable mechanism of a baby mesh bed.
Invention is credited to Ying-Hsiung Cheng.
Application Number | 20090293194 12/155354 |
Document ID | / |
Family ID | 42736173 |
Filed Date | 2009-12-03 |
United States Patent
Application |
20090293194 |
Kind Code |
A1 |
Cheng; Ying-Hsiung |
December 3, 2009 |
STRUCTURE OF A FOLDABLE MECHANISM OF A BABY MESH BED
Abstract
A baby mesh bed includes an upper frame part, which has a
foldable mechanism on each side; each foldable mechanism includes a
joining component, two connecting rods, and two opposite fixing
bars; the connecting rods are pivoted to two ends of the joining
component; the fixing bars are pivoted on the joining component to
prop inner ends of the connecting rods; each fixing bar has an
uppermost recessed propping portion; a first one of the fixing bars
has a pulled part protruding therefrom; a spring is interposed
between and joined on the fixing bars to bias the fixing bars; a
co-moving device is joined on both the fixing bars for the fixing
bars to be co-movable; when the pulled part of the first fixing bar
is pulled, the fixing bars will pivot to no longer prop the
connecting rods, thus allowing the rods to pivot to a vertical
not-in-use position.
Inventors: |
Cheng; Ying-Hsiung; (Jen Te
Hsiang, TW) |
Correspondence
Address: |
ROSENBERG, KLEIN & LEE
3458 ELLICOTT CENTER DRIVE-SUITE 101
ELLICOTT CITY
MD
21043
US
|
Family ID: |
42736173 |
Appl. No.: |
12/155354 |
Filed: |
June 3, 2008 |
Current U.S.
Class: |
5/99.1 |
Current CPC
Class: |
A47D 13/063 20130101;
Y10T 403/32409 20150115; Y10T 16/54024 20150115; E05D 11/1007
20130101 |
Class at
Publication: |
5/99.1 |
International
Class: |
A47D 7/00 20060101
A47D007/00 |
Claims
1. A structure of a foldable mechanism of a baby mesh bed,
comprising: a joining component; two connecting rods; the
connecting rods being each pivoted on a respective one of two ends
of an uppermost portion of the joining component; a pair of
opposite fixing bars pivoted on a lower portion of the joining
component; each of the fixing bars having a recessed propping
portion formed on an uppermost side thereof; a first one of the
fixing bars having a lever-shaped pulled part protruding therefrom;
an elastic element interposed between and joined on both the fixing
bars to exert a biasing force on the fixing bars; and a co-moving
device interposed to define a displaceable pivot point between the
fixing bars for the fixing bars to be co-movable with each
other.
2. The structure of a foldable mechanism of a baby mesh bed as
claimed in claim 1, wherein the fixing bars have opposite
connecting protrusions thereon, and the elastic element is joined
on the connecting protrusions at two ends thereof.
3. A structure of a foldable mechanism of a baby mesh bed,
comprising: a joining component; two connecting rods; the
connecting rods being each pivoted on a respective one of two ends
of an uppermost portion of the joining component; a pair of
opposite fixing bars pivoted on a lower portion of the joining
component; each of the fixing bars having a recessed propping
portion formed on an uppermost side thereof; a first one of the
fixing bars having a lever-shaped pulled part protruding therefrom;
an elastic element interposed between and joined on both the fixing
bars to exert a biasing force on the fixing bars; and a co-moving
device interposed between the fixing bars for the fixing bars to be
co-movable with each other; wherein the co-moving device includes a
pivotal portion protruding from each of the fixing bars, and a
pivotal rod joined to both the pivotal portions to pivot the fixing
bars together.
4. The structure of a foldable mechanism of a baby mesh bed as
claimed in claim 1, wherein the fixing bars have opposite pushing
parts protruding from lower ends thereof.
Description
BACKGROUND OF THE INVENTION
[0001] 1. Field of the Invention
[0002] The present invention relates to a foldable mechanism of a
baby mesh bed, more particularly one, which has a relatively simple
structure and low manufacturing cost, and which can be held in an
in-use position relatively firmly so as not to fold accidentally to
cause danger.
[0003] 2. Brief Description of the Prior Art
[0004] A common baby mesh bed includes four foldable armrest
mechanisms, which are arranged on four sides of an uppermost
portion of the mesh bed respectively. Referring to FIG. 5, a
currently existing foldable armrest mechanism 1 of a baby mesh bed
includes two connecting tubes 41, a joining component 42, and a
sliding piece 44. The joining component 42 has such a shape as to
have an inverted U-shaped vertical section, and has a gap 421 on
each of two ends of an uppermost portion thereof, and two opposite
through holes 422 on two sides of a middle of an upper portion
thereof.
[0005] The connecting tubes 41 are received in and pivoted to two
ends of an upper portion of the joining component 42 at inward ends
thereof. Each of the connecting tubes 41 has a through hole 411 on
its inward end, and a V-shaped elastic piece 43 is partly held in
the inward end of each of the connecting tubes 41, with two free
ends thereof sticking out from the connecting tube 41; each said
V-shaped elastic piece 43 has two fixing protrusions 431, which
stick out through the through holes 411 of the connecting tube 41
respectively, and which will pass into the through holes 422 to
prevent the connecting tube 41 from pivoting on the joining
component 42 after the armrest mechanism 4 has been moved to a
stretched in-use position.
[0006] Furthermore, the joining component 42 has a gap 423 on a
middle of a lower portion, and a round joining hole 424 above the
gap 423. And, the sliding piece 44 has a slot 442, and is held in
the middle of the joining component 42. And, a joining rod 441 is
passed through the round joining hole 424 and the slot 442 so that
the sliding piece 44 can be moved up and down relatively to the
joining component 42. The sliding piece 44 has a V-shaped gap 443,
and a holding gap 444 under the V-shaped gap 443. A spring 46 is
positioned in the holding gap 444, and joined at an upper end
thereof to a joining piece 445 positioned under the joining rod 441
so that the sliding piece 44 is biased towards a lower position by
the spring 446; the outer free ends of the V-shaped elastic pieces
43 will be received in an upper wider portion of the V-shaped gap
443 when the sliding piece 44 is in the lower position. Therefore,
a lower narrower portion of the V-shaped gap 443 will come into
contact with the outer free ends of the V-shaped elastic pieces 43
as soon as the sliding piece 44 is pushed to an upper position;
thus, the V-shaped elastic pieces 43 are pressed to reduce their
width, with the fixing protrusions 431 moving out of the through
holes 422 of the joining component 42. Consequently, the connecting
tubes 41 are no longer fixed to the joining component 42, and can
be pivoted so as to move the armrest mechanism 4 into the folded
position.
[0007] The above foldable armrest mechanism is found to have the
following drawbacks:
[0008] 1. The foldable armrest mechanism isn't safe to use; the
fixing protrusions of the V-shaped elastic pieces can move out of
the through holes of the joining component to no longer fix the
connecting rods to the joining component, and the armrest mechanism
can move to the folded position accidentally if the mesh bed is
subjected to vibration.
[0009] 2. The armrest mechanism has a relatively complicate
structure, and high manufacturing cost because of adoption of the
V-shaped elastic pieces, which are used to fix the connecting rods
to the joining component, and can be disengaged from the joining
component to allow the connecting rods to turn by means of pushing
the sliding piece.
[0010] Therefore, it is a main object of the present invention to
provide an improvement on a foldable mechanism of a baby mesh bed
to overcome the above problems.
SUMMARY OF THE INVENTION
[0011] A foldable mechanism of a baby mesh bed in accordance with
an embodiment of the present invention includes a joining
component, two connecting rods, and a pair of opposite fixing bars.
The connecting rods are pivoted to two ends of an upper portion of
the joining component respectively. The fixing bars are pivoted on
a lower portion of the joining component, and will prop the inner
ends of the connecting rods after the connecting rods are pivoted
to a horizontal in-use position. Each fixing bar has an uppermost
recessed propping portion, and a first one of the fixing bars has a
lever-like pulled part. An elastic element is interposed between
and joined on both the fixing bars to exert a biasing force on the
fixing bars while a co-moving device is joined on both the fixing
bars for the fixing bars to be co-movable with each other. When the
pulled part of the fixing bar is pulled, both the fixing bars will
pivot to such a position as to no longer prop the connecting rods,
thus allowing the rods to pivot to a vertical not-in-use
position.
BRIEF DESCRIPTION OF THE DRAWINGS
[0012] The present invention will be better understood by referring
to the accompanying drawings, wherein:
[0013] FIG. 1 is an exploded perspective view of the present
invention,
[0014] FIG. 2 is a sectional view of the present invention,
[0015] FIG. 3 is a lateral sectional view of the present invention
during a folding motion (1),
[0016] FIG. 4 is a lateral sectional view of the present invention
during a folding motion (2), and
[0017] FIG. 5 is an exploded perspective view of the prior art.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0018] Referring to FIG. 1, a preferred embodiment of a foldable
mechanism of a baby mesh bed of the present invention includes a
joining component 1, two connecting rods 2, and a pair of opposite
fixing bars 3.
[0019] The joining component 1 has a gap 11 on each of two ends of
an uppermost portion thereof, and an internal holding space 12,
which exists under the uppermost portion, and adjoins the gaps 11.
The joining component 1 has two opposite pivotal holes 111 on each
of two ends thereof.
[0020] The connecting rods 2 each have a pivotal hole 22. The
connecting rods 2 are each held in a respective one of the two ends
of the joining component 1 at an inward end thereof, and are each
pivoted on the joining component 1 by means of a pivotal piece 21
passed through the pivotal holes 111 and 22.
[0021] The fixing bars 3 are positioned next to each other in the
holding space 12 of the joining component 1, and pivoted to the
joining component 1. The joining component 1 has two pairs of
opposite pivotal holes 121 thereon, which communicate with the
holding space 12. Each of the fixing bars 3 has a pivotal hole 31,
and is pivoted on the joining component 1 by means of a pivotal
piece 13 passed through the pivotal holes 121 of the joining
component 1 as well as the pivotal hole 31. Each of the fixing bars
3 has a recessed propping portion 32 on a top thereof to prop a
corresponding said connecting rod 2. The fixing bars 3 have
opposite connecting protrusions 33 on first (upper) portions
thereof while an elastic element 34 is positioned between the
fixing bars 3, and joined on the connecting protrusions 33 at two
ends thereof so that the first portions of the fixing bars 3 are
biased to be apart from each other by means of the elastic element
34, and the fixing bars 3 are usually in an in-use position. Each
of the fixing bars 3 has a pivotal portion 351, and a pivotal rod
352 is passed through the pivotal portions 351 of both the fixing
bars 3; thus, the pivotal portions 351 and the pivotal rod 352
comprise a co-moving device 35, which makes the fixing bars 3
co-movable with each other. The fixing bars 3 have opposite pushing
parts 36 protruding from lower ends thereof, which will be propped
against each other when the fixing bars 3 are in the in-use
position to prop the connecting rods 2, as shown in FIG. 2.
Furthermore, a first one of the fixing bars 3 has a lever-like
pulled part 37 protruding outwards therefrom so that the user is
allowed to move both the fixing bars 3 between an in-use position
and a not-in-use one by means of exerting force on the pulled part
37 of the first fixing bar 3.
[0022] Shown in FIG. 2 is the foldable mechanism of a baby mesh bed
in a stretched in-use configuration, wherein the connecting rods 2
is in a horizontal position, and prevented from pivoting on the
joining component 1 with the inner ends thereof being propped on
the uppermost recessed propping portions 32 of the fixing bars 3,
and wherein the elastic element 34 keeps the fixing bars 3 in the
in-use position with the first portions of the fixing bars 3 being
apart from each other. Therefore, the fixing bars 3 can't move to
the not-in-use position, and the connecting rods 2 are prevented
from pivoting away from the horizontal in-use position relative to
the joining component 1 accidentally.
[0023] Shown in FIG. 3 is the foldable mechanism of a baby mesh bed
during a folding action, and shown in FIG. 4 is the foldable
mechanism in the folded not-in-use configuration. To fold the
foldable mechanism, first the user should apply force to the pulled
part 37 of the first fixing bar 3, and next pivot the connecting
rods 2 to a vertical position, as shown in FIG. 4; when the pulled
part 37 is pulled, the first fixing bar 3 will pivot on the joining
component 1 with its first (upper) portion moving towards the first
portion of the other (second) fixing bar 3, its pushing part 36
moving away from the pushing part 36 of the second fixing bar 3,
and with the pivotal portions 351 of both the fixing bars 3 moving
downwards. Thus, the other fixing bar 3 will also pivot on the
joining component 1 with its first portion moving towards the first
portion of the first fixing bar 3, and with its pushing part 36
moving away from the pushing part 36 of the first fixing bar 3. In
other words, the first portions of the fixing bars 3 will be close
to each other, and compress the elastic element 34, as shown in
FIG. 3. Consequently, the fixing bars 3 will no longer prop the
connecting rods 1, and the connecting rods 3 can be pivot to the
vertical not-in-use position, as shown in FIG. 4.
[0024] From the above description, it can be easily seen that the
present invention has the following advantages over the prior
art:
[0025] 1. There is less risk of the foldable mechanism of a baby
mesh bed of the present invention folding accidentally to cause
danger; the fixing bars of the present invention have the uppermost
recessed propping portions, and the connecting rods will be firmly
propped on the recessed propping portions of the fixing bars at
their inner ends after having been pivoted to the horizontal in-use
position.
[0026] 2. The foldable mechanism of the present invention has a
relatively simple structure and low manufacturing cost, and is
relatively easy to use as compared with the prior art; the user can
move both the fixing bars to the not-in-use position merely by
means of exerting force on the pulled part of the first one of the
fixing bars, in which not-in-use position both the fixing bars can
no longer stop the connecting rods from pivoting to the vertical
not-in-use position.
* * * * *