Title of Invention

SUSPENSION CONVEYANCE APPARATUS

Abstract A support structure for a receiver (18) which is provided on a hanger arm for supporting an object to be conveyed and the position of which can be switched is simplified. A suspension conveyance apparatus has a long hole (31) provided at a shaft support section for a parallel link (24) that laterally movably supports a receiver (18) and permitting vertical movement of the receiver (18), a spring (28a) for urging the receiver (18) to a direction to pull down the receiver (18) on to a receiver support member (21a), an engagement member (33) provided on the receiver supporting member (21a) side, and two inner and outer engagement recesses (32a, 32b) arranged on the receiver (18) side so as to engage with the engagement member (33) when the receiver (18) is at both inner and outer positions (P1, P2), at a level at which the receiver (18) is supported by the receiver support member (21a) . A receiver drive means (42) for laterally moving the receiver (18) between both inner and outer positions (P1, P2) is provided at a receiver switching position in a traveling route of a conveying traveling body (1).
Full Text Technical Field
The present invention relates to a suspension conveyance
apparatus in which a hanger for supporting an object to be conveyed
suspended from a conveying traveling body is provided with pairs
of left and right openable and closable hanger arms which have
receivers for receiving an object to be conveyed on lower end
inner sides and whose upper end sides are pivotally supported
so as to freely swing to the left and right.
Background Art
In the suspension conveyance apparatus described above, as
described in Patent Document 1, there is known a construction
in which the receivers can be switched in position between inner
and outer positions in the opening and closing direction with
respect to the hanger arms so as to adapt to a change in distance
between supported positions of both left and right sides of an
object to be conveyed (positions supported by the receivers).
In detail, the receiver is supported movably straightly on a
receiver support member on the hanger arm side in a manner enabling
it to laterally move between inner and outer positions in the
opening and closing direction, and on the receiver side, a lock
pin that freely elevates and a spring that urges the lock pin
downward are provided, a lock pin slide guide having engagement
recesses on both ends in which the lock pin falls and engages

due to an urging force of the spring is provided on the receiver
support member side, and at receiver switching positions set in
a traveling route of a conveying traveling body, a lock pin
pushing-up means for pushing up the lock pin engaged in the
engagement recess to unlock the receiver and a receiver drive
means for laterally moving the receiver in the position switching
direction are provided.
Patent Document 1: Japanese Published Unexamined Patent
Application No. H04-153118_
Disclosure of the Invention
Problems to be Solved by the Invention
The conventional construction described in the Patent Document
1 is a structure in which the positions of the receivers are not
determined unless the receivers are locked by the. lock pins at
the inner and outer positions in the opening and closing direction,
and it is necessary to unlock the receivers by pushing up the
lock pins at both a combination of a point at which the receivers
are switched from the inner positions to the outer positions and
a point at which the receivers are switched from the outer positions
to the inner positions. In addition, not only slide guide rails
for supporting the receivers movably between the inner and outer
positions but also elevating lock pins and lock pin slide guides
for guiding the lock pins are necessary, and this makes the
structure complicated and increases the size of the entire
receiver section.

Means for Solving Problems
An object of the invention is to provide a suspension conveyance
apparatus capable of solving the above-described conventional
problem, which is provided with, showing means thereof by
attaching the reference numerals in parentheses of the embodiments
described later, a hanger (14) for supporting an object to be
conveyed suspended from a conveying traveling body (1) having
a pair of left and right openable and closable hanger arms (16)
which have receivers (18) for receiving an object to be conveyed
(W) on their lower end inner sides and whose upper end sides are
pivotally supported so as to freely swing to the left and right,
where the receivers (18) are switchable in position between inner
positions (P1) and outer positions (P2) in the opening and closing
direction with respect to the hanger arms (16), wherein the
receiver (18) is supported on receiver support members (21a and
21b) on the hanger arm (16) side by parallel links (23 and 24)
laterally movably between the inner and outer positions (P1 and
P2) , and at shaft support sections of the parallel links (23 and
24 ) , long holes (31) which allow vertical movement of the receivers
(18) are provided and urging means (28a and 28b) are provided
which urge the receiver (18) to a direction topull down the receiver
(18) onto the receiver support members (21a and 21b), and at a
receiver switching position in a traveling route of the conveying
traveling body (1), a receiver drive means (42) for laterally
moving the receiver (18) between the inner positions (P1) and


the outer positions (P2) is provided.
When carrying out the invention constructed as described above,
in detail, as in a second aspect, among engagement recesses (32a
and 32b) , at least an inner engagement recess (32a) which engages
with an engagement member (33) when the receiver (18) is at the
outer position (P2), and this engagement member (33) are shaped
to prevent the receiver (18) from moving to the inner position
(P1), and among the receiver switching positions at which the
receiver drive means (42) is provided, at least at the receiver
switching position for switching the receiver (18) from the outer
position (P2) to the inner position (P1), a receiver pushing-up
means (41) which means push up the receiver (18) from a level
supported by the receiver support members (21a and 21b) to release
the engagement between the inner engagement recess (32a) and the
engagement member (33) can also be provided.
When employing the construction according to the second aspect,
as in a third aspect, among the engagement recesses (32a and 32b) ,
at least the outer engagement recess (32b) which engages with
an engagement member (33) when the receiver (18) is at the inner
position (P1) , and this engagement member (33) can be formed into
shapes so that the receiver (18) gets onto the engagement member
(33) when the receiver (18) moves to the outer position (P2).
When employing the construction according to the second aspect,
as in a fourth aspect, a pair of receiver support members (21a
and 21b) are arranged in parallel, and on the receiver (18)

supported on the receiver support members (21a and 21b), link
shaft support members (22a and 22b) which freely fit between the
pair of receiver support members (21a and 21b) are projectedly
provided, and parallel links (23 and 24) are interposed between
lower support shafts (26a and 26b) laid across the pair of receiver
support members (21a and 21b) and upper support shafts (27a and
27b) provided on the link shaft support members (22a and 22b),
the long holes (31) at the shaft support sections of the parallel
links (23 and 24) are provided as shaft holes which the upper
support shafts (27a and 27b) of the parallel links (23 and 24)
are inserted through, the two inner and outer engagement recesses
(32a and 32b) are formed on the lower sides of the link shaft
support members (22a and 22b) , the engagement member (33) is laid
across the pair of receiver support members (21a and 21b), the
receiver pushing-up means (41) push the lower sides of the link
shaft support members (22a and 22b) between the pair of receiver
support members (21a and 21b) . Of course, this construction can
be carried out in combination with the construction according
to a third aspect.
The urging means can be formed of, as in the fifth aspect, tension
springs (28a and 28b) interposed between lower support shafts
(26a and 26b) and upper support shafts (27a and 27b). This
construction can be carried out in combination with the
construction according to any one of the first through fourth
aspects . When the construction of this fifth aspect is employed,

as in the sixth aspect, the link shaft support members (22a and
22b) and the parallel links (23 and 24) are arranged in parallel
one pair each, and the tension springs (28aand28b) can be disposed
between the pair of link shaft support members (22a and 22b),
and as in the seventh aspect, the tension springs (28a and 28b)
are formed to be flat by bending both ends of a straight spring
wire into arc shapes on the same plane, and the arc sections on
both ends are hooked around the lower support shafts (26a and
26b) and the upper support shafts (27a and 27b) . As in the eighth
aspect, the tension springs (28a and 28b) can be formed into S
shapes by bending the arc sections on both ends oppositely to
each other.
Effects of the Invention
According to the suspension conveyance apparatus of the
invention constructed as described above, while the receivers
are automatically positioned at the inner and outer positions
by engagement between the engagement recesses and the engagement
members, the engagement members do not need to be movable members
like conventional elevating lock pins, and may be members fixed
to the receiver support member sides, so that coupled with the
structure in which the receivers are supported by parallel links
and the lock pin slide guides for guiding the conventional lock
pins are unnecessary, the structure of the entire receiver section
becomes very simple and can be made small in a size.
The state that the receivers are positioned at the inner and

outer positions by engagement between the engagement recesses
and the engagement members can be maintained by urging forces
of urging means which pull down the receivers to the receiver
support member sides, so that the means for locking the receivers
at the inner and outer positions are basically unnecessary,
however, in the case where the receivers are at the outer positions,
when the hanger arms are opened outward for loading and unloading
an object to be conveyed, the inward moving directions of the
receivers become diagonal up-down directions, and gravity acts
to a direction to promote the inward movements of the receivers,
so that the engagement recesses get onto and are disengaged from
engagement members due to reactive forces against the urging
forces and the receivers may unexpectedly move laterally to the
inner positions and be switched in position, however, for this
problem, by employing the construction according to the second
aspect, at least when the receivers are at the outer positions,
the engagement recesses and the engagement members can reliably
prevent the receivers from moving to the inner positions, so that
the receivers can be held at the outer positions without fail
and safety can be increased. To switch the receivers at the outer
positions to the inner positions, the receivers themselves are
pushed up so that the engagement recesses are disengaged upward
from the engagement members, and in comparison with the
conventional case where small lock pins projecting laterally
sideward from the receivers must be pushed up, the construction

of the means for pushing-up to be installed on the traveling route
side of the conveying traveling body becomes simpler.
According to the third aspect, to switch the receivers at the
inner positions to the outer positions, it is not necessary to
release the engagement between the engagement recesses and the
engagement members by pushing up the receivers, and the receivers
are only directly forcibly moved to the outer positions, so that
among receiver switching positions set in the traveling route
of the conveying traveling body, at the receiver switching
position for switching the receiver at the inner position to the
outer position, provision of the unlocking means, that is,
provision of the receiver pushing-up means is omitted and the
construction is simplified, and the cost can be reduced. In
addition, to move the receivers from the inner positions to the
outer positions, the engagement recesses must get onto and
disengage from the engagement members against the urging forces
of the urging means, so that resistance for this releasing can
be made sufficiently high and the danger of unexpected movements
of the receivers from the inner positions to the outer positions
due to vibrations can be eliminated.
In addition, according to the fourth aspect, not only can the
entirety including the receiver and the support structure for
the receiver on the hanger arm lower end inner side be made compact,
but also the receiver pushing-up means to be provided on the
conveying route side can also be made compact. In this case,

according to the fifth aspect, the support structure for the
receiver on the hanger arm lower end inner side becomes simpler.
Furthermore, according to a sixth aspect, the stability of the
receivers can be increased.
Furthermore, according to the seventh aspect, the tension
springs constituting the urging means have a flat and very simple
structure obtained only by bending both ends of a straight spring
wire material into arc shapes, and in comparison with the
conventional case where a tension coil spring having arched hooks
formed on both ends is used as an urging means, the cost can be
further reduced, and the urging means can be incorporated in the
receiver support structure if a space slightly wider than the
diameter of the spring wire material is secured in the structure,
so that the lateral width of the receiver support structure can
be greatly narrowed. In thiscase, according to the eighth aspect,
the tension spring can be increased in effective length, and can
be incorporated so as not to easily come off.
BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS
Fig. 1 is a side view showing a conveying traveling body having
a hanger for supporting an object to be conveyed;
Fig. 2 is a front view of the same conveying traveling body;
Fig. 3 is a plan view showing receiver drive means at a receiver
switching position and receivers;
Fig. 4 is a plan view showing receiver pushing-up means and
receivers;


Fig. 5 is a back view showing a receiver drive means, a receiver
pushing-upmeans, and a receiver on one side at a receiver switching
position;
Fig. 6 is a partially longitudinal sectional side view showing
a receiver drive means, a receiver pushing-up means, and a receiver
on one side at the receiver switching position from the inner
side;
Fig. 7 is a longitudinal sectional front view of a main part
showing a receiver held at an inner position, a receiver drive
means, and a receiver pushing-up means;
Fig. 8 is a longitudinal sectional front view of the main part
showing a state that the receiver shown in Fig. 7 is moved to
an outer position by the receiver drive means;
Fig. 9 is a longitudinal front view of the main part showing
a state that the receiver at the outer position is pushed up by
the receiver pushing-up means;
Fig. 10 is a longitudinal sectional side view of Fig. 7 or Fig.
8;
Fig. 11 is a partially exploded longitudinal sectional side
view showing details of a receiver support structure; and
Fig. 12 is a longitudinal sectional side view of the receiver
support structure at an engagement member position.
Description of Symbols
1: conveying traveling body
14: hanger for supporting an object to be conveyed

15: a pair of front left and right hanger arms
16: a pair of rear left and right hanger arms
18: receiver
21a, 21b: a pair of receiver support members
22a, 22b: a pair of link shaft support members
23, 24: two pairs of parallel links
25a, 25b: link
26a, 26b: lower support shaft
27a, 27b: upper support shaft
28, 28b: tension spring
31: long hole
32a, 32b: two inner and outer engagement recesses
33: engagement member
34: vertical engagement surface
35A, 35B: receiver pushing-up means
36A, 36B: receiver drive means
37a, 37b: a pair of left and right movable members
38: elevating guide rod
39: fluid pressure cylinder
40: elevating support arm
41: pusher
42: downward open groove shaped member
43: a pair of left and right movable members
45: slide guide rail
46: slider

47: a pair of left and right fluid pressure cylinders
P1: inner position of position switching target receiver
P2: outer position of position switching target receiver
W: object to be conveyed
Best Mode for Carrying Out the Invention
Hereinafter, a detailed embodiment of the invention will be
described based on the accompanying drawings . In Fig. 1 and Fig.
2, the reference numeral 1 denotes a conveying traveling body
constituted of a pair of front and rear load trolleys 3 and 4
supported on trolley guide rails 2, load bars 5 suspended by these
load trolleys 3 and 4, and a front free trolley 8 and a rear free
trolley 9 which are connected to the respective load trolleys
3 and 4 by connection rods 6 and 7 and supported on the trolley
guide rails 2. This conveying traveling body 1 is driven when
a pusher 12 provided on a drive chain 11 which is suspended on
a drive chain guide rail 10 laid on upper sides of the trolley
guide rails 2 along the trolley guide rails via a trolley and
is driven by a drive means that is not shown pushes, from the
rear side, a main dog 13 which is provided on the front free trolley
8 so as to advance and retreat.
In the conveying traveling body 1, a hanger 14 for supporting
an object to be conveyed is suspended from a load bar 5. This
hanger 14 is constituted of a pair of front left and right hanger
arms 15 and a pair of rear left and right hanger arms 16, and
each of the pairs of left and right hanger arms 15 and 16 is provided

with receivers 18 whose upper ends are pivotally supported on
left and right ends of lateral members 5a and 5b continuously
provided laterally on the front and rear ends of the load bar
5 so as to be opened and closed to the left and right by horizontal
support shafts 17 in the front and rear direction, and whose lower
end inner sides are provided with receivers 18 which support bottom
sections of left and right sides of an object to be conveyed W.
In the hanger 14 of this embodiment, the pair of rear left and
right hanger arms 16 are divided into arm upper parts 16U and
arm lower parts 16L having receivers 18, and the arm upper parts
16U are pivotally supported by the support shafts 17 and connected
to upper sections of the pair of front left and right hanger arms
15 by the respective pair of left and right connection members
19a and 19b in the front and rear direction, and the arm lower
parts 16L are supported by the connection members 19a and 19b
while enabled to change in position in the front and rear direction
in a range L. Therefore, by changing the positions in the front
and rear direction of the arm lower parts 16L of the pair of rear
left and right hanger arms 16, the distance between the receivers
18 of the pair of front left and right hanger arms 15 and the
receivers 18 of the pair of rear left and right hanger arms 16
can be changed according to a type of the object to be conveyed
W. By pushing up opening levers 20a and 20b provided on the pair
of left and right connection members 19a in the front and rear
direction by operation means provided by the side of the traveling

route, the pair of front left and right hanger arms 15 and the
pair of rear left and right hanger arms 16 can be opened integrally.
In the hanger 14 of this embodiment, the receivers 18 of the
pair of rear left and right hanger arms 16 can be changed in position
in the opening and closing direction (left and right lateral
direction) of the hanger arms 16. In the following detailed
description of the structure and action, the receivers 18 of the
pair of rear left and right hanger arms 16 will be referred to
as position switching target receivers 18.
On the lower ends of the pair of rear left and right hanger
arms 16, that is, on the lower ends of the arm lower parts 16L,
as shown in Fig. 3 through Fig. 5, receiver support arm parts
16a extending inward are provided, and at the tip end of this
receiver support arm part 16a, a pair of receiver support members
21a and 21b projecting inward are provided in parallel. The
position switching target receiver 18 is provided with an
attachment 18b for supporting an object to be conveyed above a
substrate 18a supported movably in the hanger arm opening and
closing direction on the receiver support members 21a and 21b,
and below the substrate 18a, a pair of link shaft support members
22a and 22b which are in parallel to the receiver support members
21a and 21b and freely fit between the receiver support members
21a and 21b are projectedly provided, and the link shaft support
members 22a and 22b and the receiver support members 21a and 21b
are connected by two pairs of parallel links 23 and 24 provided

in parallel between the pair of link shaft support members 22a
and 22b.
The lower ends of a pair of links 25a and 25b parallel to each
other forming the parallel links 23 and 24 are supported by lower
support shafts 26a and 26b laid across the pair of receiver support
members 21a and 21b, and the upper ends of the links 25a and 25b
are supported by upper support shafts 27a and 27b laid across
the pair of link shaft support members 22a and 22b. Therefore,
the position switching target receiver 18 can move in parallel
between the inner position P1 and the outer position P2 in the
hanger arm opening and closing direction while accompanied by
parallel swings of the two pairs of parallel links 23 and 24.
At the time of this parallel movement between the inner position
P1 and the outer position P2, the substrate 18a of the position
switching target receiver 18 floats from the pair of receiver
support members 21a and 21b, however, they are supported by the
pair of receiver support members 21a and 21b when they are at
the inner position P1 and the outer position P2 on both ends.
Between the pair of link shaft support members 22a and 22b on
the position switching target receiver 18 side and the pair of
receiver support members 21a and 21b on the hanger arm 16 side,
as spring members for pulling down the position switching target
receiver 18 to the receiver support member 21a and 21b side, two
pairs of tension springs 28a and 28b are interposed. The tension
springs 28a and 28b are formed by bending spring wire materials

into S shapes, and are interposed by externally fitting both end
arc sections 29 and 30 to the upper support shafts 27a and 27b
on the link shaft support members 22a and 22b side and the lower
support shafts 26a and 26b on the receiver support member 21a
and 21b side, and at this time, the initial lengths of the tension
springs 28a and 28b are set so that the distances between both
end arc sections 29 and 30 are slightly extended due to deformation
against the elasticity of both end arc sections 29 and 30, and
tension is applied between the upper support shafts 27a and 27b
and the lower support shafts 26a and 26b.
In this embodiment, in order to obtain tension with necessary
strength, two tension springs 28a and 28b are interposed each
between the upper side support shafts 27a and 27b and the lower
support shafts 26a and 26b, however, depending on the design of
the tension springs 28a and 28b, one tension spring 28a or 28b
may be interposed each between the upper support shafts 27a and
27b and the lower support shafts 26a and 26b, or according to
the circumstances, one or two parallel tension springs 28a (or
28b) may be interposed between the upper support shaft 27a (or
27b) and the lower support shaft 26a (or 26b) . Separately from
the upper support shafts 27a and 27b and the lower support shafts
26a and 26b pivotally supporting the parallel links, it is also
possible that the pair of link shaft support members 22a and 22b
on the receiver 18 side and the pair of receiver support members
21a and 21b on the hanger arm 16 side are provided with spring

engagement sections, and tension springs are interposed between
these spring engagement sections. Of course, as the spring
members, other than the tension springs 28a ad 28b constructed
as described above, general coil springs and leaf springs can
be used.
As shown in Fig. 11, shaft holes for inserting through the upper
support shafts 27a and 27b, provided on upper ends of the links
25a and 25b of the parallel links 23 and 24, serve as long holes
31 which extend vertically upward from the upper support shafts
27a and 27b when the position switching target receiver 18 is
at the outer position P2 (see Fig. 8). Therefore, at the inner
position P1 (see Fig. 7) or the outer position P2 (see Fig. 8),
the position switching target receiver 18 which is at a level
at which the substrate 18a is supported by the pair of receiver
support members 21a and 21b can be moved up in the range of the
long holes 31 against the tensions of the tension springs 28a
and 28b in the longitudinal directions of the long holes 31.
At middle positions of the parallel links 23 and 24 on the lower
sides of the pair of link shaft support members 22a and 22b on
the position switching target receiver 18 side, at two points
in the lower side longitudinal direction (two inner and outer
points in the hanger arm opening and closing direction),
engagement recesses 32a and 32b are provided. Between the pair
of receiver support members 21a and 21b of the hanger arm 16 side,
an engagement member 33 which engages in the inner engagement

recess 32a when the position switching target receiver 18 is at
the outer position P2 (see Fig. 8) and engages in the outer
engagement recess 32b when the position switching target receiver
18 is at the inner position P1 (see Fig. 7), is provided. This
engagement member 33 is formed of a round rod material whose both
ends are fixed by means of welding, etc. , to the pair of receiver
support members 21a and 21b at the middle position of the parallel
links 23 and 24, and a vertical engagement surface 34 is formed
by cutting in the round rod material peripheral surface. In a
state that the position switching target receiver 18 is at the
outer position P2 and the engagement member 33 engages in the
inner engagement recess 32a, the vertical engagement surface 34
of the engagement member 33 comes into contact with the inner
vertical surface on one side of the inner engagement recess 32a
to prevent the position switching target receiver 18 from moving
to the inner position P1. When the position switching target
receiver 18 at the inner position P1 shown in Fig. 7 moves to
the outer position P2', the position switching target receiver
18 (lower sides of the pair of link shaft support members 22a
and 22b) gets onto the engagement member 33 engaged in one side
in the outer engagement recess 32b by using a downward widening
inclined side surface on one side of the outer engagement recess
32b and the round rodmaterial peripheral surface of the engagement
member 33) to release the engagement between the outer engagement
recess 32b and the engagement member 33. The position switching

target receiver 18 (lower sides of the pair of link shaft support
members 22a and 22b) gets onto the engagement member 33 while
performing upward movements of the upper support shafts 27a and
27b in the long hole 31 and an upward movement of the position
switching target receiver 18 (the pair of link shaft support
members 22a and 22b) according to swinging and standing of the
parallel links 23 and 24.
As is clear from the above-described construction, as shown
in Fig. 7, the position switching target receiver 18 at the inner
position P1 is only held at the inner position P1 by engagement
of the outer engagement recess 32b with the engagement member
33 by the tensile forces of the tension springs 28a and 28b, so
that the position switching target receiver 18 can be forcibly
moved to the outer position P2 by a predetermined or stronger
operating force, however, as shown in Fig. 8, the position
switching target receiver 18 at the outer position P2 is held
at this outer position P2 by engagement of the inner engagement
recess 32a with the engagement member 33 by the tensile forces
of the tension springs 28a and 28b and simultaneously completely
prevented from moving to the inner position P1 by the contact
between the inner vertical surface on one side of the inner
engagement recess 32a and the vertical engagement surface 34 of
the engagement member 33 . That is, the position switching target
receiver 18 is locked at the outer position P2, and in this state
the position switching target receiver 18 cannot be forcibly moved

to the inner position P1.
As shown in Fig. 3 through Fig. 6, at the receiver switching
positions set in the traveling route of the conveying traveling
body 1, receiver pushing-up means 35A and 35B and the receiver

drive means 36A and 36B are provided. The receiver pushing-up
means 35A and 35B and the receiver drive means 36B and 36B are
provided one pair each on the left and right sides parallel to
other so as to correspond to the receivers 18, thatis, theposition
switching target receivers of the pair of rear left and right
hanger arms 16 of the hanger 14 for supporting an object to be
conveyed of the conveying traveling body 1 when the conveying
traveling body 1 stops at a predetermined position, and as
described above, the pair of rear left and right hanger arms 16
including the position switching target receivers 18 are
changeable in position in the range L, so that the. positions of
the receiver pushing-up means 35A and 35B are automatically
adjusted to be front and rear in the traveling direction of the
conveying traveling body 1 in accordance with current positions
of the pair of rear let and right arms 16 when the conveying
traveling body 1 stops at a predetermined position.
That is, the receiving pushing-up means 35A and 35B are attached
to a pair of left and right movable members 37a and 37b,
respectively, which are automatically adjusted in position to
be front and rear in the traveling direction of the conveying
traveling body 1 in an interlocked manner according to current

positions of the pair of rear left and right hanger arms 16 when
the conveying traveling body 1 stops at a predetermined position,
and is constituted of elevating support arms 40 which are supported
on inner ends of the movable members 37a and 37b while enabled
to freely elevate via elevating guide rods 38 and are driven to
elevate in a predetermined range by fluid pressure cylinders 39,
and pushers 41 attached to tip end upper sides of the elevating
support arms 40, and as shown in Fig. 8, the conveying traveling
body 1 whose position switching target receivers 18 are held at
the outer positions P2 stops at a predetermined position, as shown
in Fig. 8 and Fig. 10, the pusher 41 is positioned just below
the point between the inner links 25a of the parallel links 23
and 24 and engagement members 33, and in this state by raising
the elevating support arms 40 by the fluid pressure cylinders
39, the pusher 41 enters between the pair of left and right receiver
support members 41a and 41b from below and can push up the position
switching target receiver 18 via the pair of left and right link
shaft support members 22a and 22b.
The receiver drive means 36A and 36B can also be provided with
downward open groove-shaped members 4 5 the same length as that
of the range L which can fit to the attachments 18b for supporting
an object to be conveyed on the position switching target receivers
18 on the lower end inner sides of the pair of rear left and right
hanger arms 16 wherever the current positions of the hanger arms
16 are in the range L when the conveying traveling body 1 stops

at a predetermined position. The pair of left and right movable
members 43 which individually support the groove-shaped members
42 at their outer ends are supported laterally movably in the
left and right direction (opening and closing direction of the
hanger arms 16 via a slide guide rail 45 and a slider 46 fitting
to the slide guide rail on a mount 44 extending in the left and
right lateral direction disposed below the traveling route of
the hanger 14 for supporting an object to be conveyed, and are
driven to reciprocate by a pair of left and right fluid pressure
cylinders 47 interposed between the mount 44 and the groove-shaped
members 42.
In the conveyance apparatus constructed as described above,
when the conveying traveling body 1 whose position switching
target receivers 18 are held at the outer positions P2 arrives
at the receiver switching positions, by positional adjustments
of the movable members 37a and 37b before or after this conveying
traveling body 1 arrives at the receiver switching position, as
shown in Fig. 8 and Fig. 10, the receiver pushing-up means 35A
and 35B positioned at predetermined positions immediately below
these position switching target receivers 18 are actuated. That
is, by raising the elevating support arms 40 by the fluid pressure
cylinders 3 9, as shown in Fig . 9, the pushers 41 which enter between
the pair of left and right receiver support members 21a and 21b
from below push up the position switching target receivers 18
via the pair of left and right link shaft support members 22a

and 22b. As a result, with respect to the engagement members
33 fitted in the inner engagement recesses 32a on the lower sides
of the pair of left and right link shaft support members 22a and
22b as shown in Fig. 8, the link shaft support members 22a and
22b are pushed up in the range of the lengths of the long holes
31 as shown in Fig. 9, and the inner engagement recesses 32a are
disengaged from the engagement members 33 upward and the position
switching target receivers 18 at the outer positions P2 are
unlocked.
On the other hand, when the conveying traveling body 1 arrives
at the receiver switching positions, wherever the pair of rear
left and right hanger arms 16 are in the adjusting range L and
whichever the positions of the position switching target receivers
18 are at the inner positions P1 or the outer positions P2, these
position switching target receivers 18 enter the insides of the
downward open groove-shaped members 42 waiting at home positions
of the receiver drive means 36A and 36B as shown in Fig. 7 and
Fig. 9. Therefore, as described above, the fluid pressure
cylinders 47 of the receiver drive means 36A and 36B are actuated
after the position switching target receivers 18 at the outer
positions P2 are unlocked by the receiver pushing-up means 35A
and 35B and, as shown by the imaginary lines of Fig. 9, the
groove-shaped members 42 are moved laterally to the inner side
(the central position sides in the left and right width direction
of the conveying route) from the home positions, whereby the

position switching target receivers 18 unlocked at the outer
positions P2 can be moved to the inner positions P1 via the
attachments 18b for supporting an object to be conveyed.
After the inner engagement recesses 32a move away from the
engagement members 33 from the positions immediately above the
engagement members 33, the pushers 41 of the receiver pushing-up
means 35A and 35B which had pushed up the position switching target
receivers 18 for unlocking are dropped until the position
switching target receivers 18 reach the inner positions P1. As
a result, when the position switching target receivers 18 reach
the inner positions P1, as shown in Fig. 7, the position switching
target receivers 18 are pulled down by the tensile forces of the
tension springs 28a and 28b, so that the outer engagement recesses
32b engage with the engagement members 33 and hold the position
switching target receivers 18 at the inner positions P1.
Position switching of the position switching target receivers
18 are performed as described above by unlocking the position
switching target receivers 18 locked at the outer positions P2
by the receiver pushing-up means 35A and 35B and moving these
to the inner positions P1 by the receiver drive means 35A and
35B, however, as shown in Fig. 7, to switch the positions of the
position switching target receivers 18 held at the inner positions
P1 to the outer positions P2, the groove-shaped members 42 of
the receiver drive means 36A and 36B are immediately moved
laterally outward from the home positions without actuating the

receiver pushing-up means 35A and 35B. In this case, as
aforementioned, when the position switching target receivers 18
are forcibly moved from the inner positions P1 and the outer
positions P2 by lateral movements of the groove-shaped members
42 via the attachments 18b for supporting an object to be conveyed
fitting to the groove-shaped members 42, the outer engagement
recesses 32b gets onto and over the engagement members 33 and
move outward while performing upward movements of the position
switching target receivers 18 against the tensile forces of the
tension springs 28a and 28b. Then, when the position switching
target receivers 18 reach the outer positions P2, as shown in
Fig. 8, the position switching target receivers 18 are pulled
down by the tensile forces of the tension springs 28a and 28b,
the inner engagement recesses 32a engage with the engagement
members 33, and the position switching target receivers 18
supported by the receiver support members 21a and 21b are locked
by the engagement members 33 (vertical engagement surfaces 34)
and the inner engagement recesses 32a engaging with the engagement
members.
As the hanger 14 for supporting an object to be conveyed, one
including a pair of rear left and right hanger arms 16 whose
positions are changeable for adjusting the distance to the pair
of front left and right hanger arms is illustrated, however, the
hanger 14 for supporting an object to be conveyed may also have
front and rear hanger arms 15 and 16 with a fixed distance

therebetween. In addition, the hanger 14 with two front and rear
pairs of hanger arms 15 and 16 is illustrated, however, a hanger
for supporting an object to be conveyed which has a pair of left
and right hanger arms including front receivers and rear receivers
may also be used. Furthermore, among four receivers 18 in total
of two front and rear pairs on the left and right sides, the pair
of rear left and right receivers 18 are made switchable in position
between the inner and outer positions in the hanger arm opening
and closing direction, however, all receivers 18 may also be
switchable in position.
An example in which the receiver pushing-up means 35A and 35B
and the receiver drive means 3 6A and 36B are provided at the receiver
switching positions set in the traveling route of the conveying
traveling body 1, is described above, however, if there are
provided with receiver switchingpositions at which only switching
of the position switching target receivers 18 from the inner
positions P1 to the outer positions P2 is performed, at these
receiver switching positions, the receiver pushing-up means 35A
and 35B are unnecessary. However, similar to the relationship
between the inner engagement recesses 32a and the engagement
members 33, when the outer engagement recesses 32b and the
engagement members 33 are shaped to prevent the position switching
target receivers 18 held at the inner positions P1 from moving
to the outer positions P2 and the long holes 31 are formed to
extend upward directly above the upper support shafts 27a and

27b when the position switching target receivers 18 are held at
the inner positions P1 (that is, formed into fan shapes) so as
to enable the position switching target receivers 18 to also be
locked at the inner positions P1, the receiver pushing-up means
35A and 35B are necessary at all receiving switching positions.
Industrial Applicability
The suspension conveyance apparatus according to the invention
can be effectively utilized in an automobile assembly line for
assembling parts into automobile bodies when at least two types
of automobiles to be suspended on and conveyed by an openable
and closable hanger, supported by the hanger at different
supported positions in the left and right lateral direction.

We claim :
1. A suspension conveyance apparatus in which a hanger (14) for supporting an object to
be conveyed suspended on a conveying traveling body (1) comprising a pair of left and right
openable and closable hanger arms (16) which have receivers (18) for an object to be
conveyed (W) on lower end inner sides and are pivotally supported at upper end sides thereof
so as to freely swing to the left and right, where the receivers (18) are switchable in position
between inner positions (P1) and outer positions (P2) in an opening and closing direction
with respect to the hanger arms (16), wherein the receivers (18) are supported on receiver
support members (21a and 21b) on hanger arm (16) sides by parallel links (23 and 24)
laterally movably between the inner and outer positions (P1 and P2), wherein at shaft support
sections of the parallel links (23 and 24), long holes (31) which allow vertical movements of
the receivers (18) are provided and urging means (28a and 28b) for urging the receivers (18)
in a direction to pull down the receivers onto the receiver support members (21a and 21b) are
provided, and wherein at receiver switching positions in a traveling route of the conveying
traveling body (1), receiver drive means (42) are provided which move the receivers (18)
between the inner and outer positions.
2. The suspension conveyance apparatus as claimed in claim 1, wherein, an inner
engagement recess (32a and 32b) is provided which engages with the engagement
member (33) when the receiver (18) is at the outer position (P2), and the engagement
member (33) prevents the receiver (18) from moving to the inner position, and among
the receiver switching positions at which the receiver drive means (42) are provided, at
a receiver switching position for switching the receiver (18) from the outer position
(P2) for switching the receiver from the outer position to the inner position (P1), a
receiver pushing-up means (41) is provided which pushes up the receiver (18) from
the level supported by the receiver support members (21a and 21b) to release the
engagement between the inner engagement recess (32a) and the engagement member
(33).

3. The suspension conveyance apparatus as claimed in claim 2, wherein an outer
engagement recess (32b) is provided which engages with the engagement member (33) when
the receiver (18) is at the inner position (P1), and the engagement member (33) enable the
receiver (18) to get onto and past the engagement member (33) when the receiver (18) moves
to the outer position (P2).
4. The suspension conveyance apparatus as claimed in claim 2, wherein a pair of receiver
support members (21a and 21b) are arranged in parallel, link shaft support members (22a and
22b) which freely fit between the pair of receiver support members (21a and 21b) are
projectedly provided on the receiver supported on these receiver support members, and the
parallel links (23 and 24) are interposed between lower support shafts (26a and 26b) laid
across the pair of receiver support members (21a and 21b) and upper support shafts (27a and
27b) provided on the link shaft support members (22a and 22b), and long holes (31) at the
shaft support sections of the parallel links (23 and 24) are inserted through and the two inner
and outer engagement recesses (32a and 32b) are formed on the lower sides of the link shaft
support members (22a and 22b), the engagement member (33) is laid across the pair of
receiver support members (21a and 21b), and the receiver pushing-up means (41) is
constructed to push up the lower sides of the link shaft support members (22a and 22b)
between the pair of receiver support members (21a and 21b).
5. The suspension conveyance apparatus as claimed in claim 4, wherein the urging means
comprises tension springs (28a and 28b) interposed between the lower support shafts (26a
and 26b) and the upper support shafts (27a and 27b) which support the parallel links (23 and
24).

6. The suspension conveyance apparatus as claimed in claim 5, wherein the link shaft
support members (22a and 22b) and the parallel links (23 and 24) comprise one pair each
arranged in parallel, and the tension springs (28a and 28b) are disposed between the pair of
link shaft support members (22a and 22b).
7. The suspension conveyance apparatus as claimed in claim 5, wherein the tension
springs (28a and 28b) are flat springs formed by bending both ends of a straight spring wire
material into arc shapes on the same plane, and both arc sections (29 and 30) are hooked
around the lower support shafts (26a and 26b) and the upper support shafts (27a and 27b).
8. The suspension conveyance apparatus as claimed in claim 7, wherein the tension
springs (28a and 28b) are in S shapes whose arc sections (29 and 30) on both ends are bent
oppositely to each other.


A support structure for a receiver (18) which is provided on a hanger
arm for supporting an object to be conveyed and the position of which
can be switched is simplified. A suspension conveyance apparatus has
a long hole (31) provided at a shaft support section for a parallel
link (24) that laterally movably supports a receiver (18) and permitting
vertical movement of the receiver (18), a spring (28a) for urging
the receiver (18) to a direction to pull down the receiver (18) on
to a receiver support member (21a), an engagement member (33) provided
on the receiver supporting member (21a) side, and two inner and outer
engagement recesses (32a, 32b) arranged on the receiver (18) side
so as to engage with the engagement member (33) when the receiver
(18) is at both inner and outer positions (P1, P2), at a level at
which the receiver (18) is supported by the receiver support member
(21a) . A receiver drive means (42) for laterally moving the receiver
(18) between both inner and outer positions (P1, P2) is provided at
a receiver switching position in a traveling route of a conveying
traveling body (1).

Documents:

00599-kolnp-2007 assignment.pdf

00599-kolnp-2007 correspondence-1.1.pdf

00599-kolnp-2007 form-18.pdf

00599-kolnp-2007-form-3-1.1.pdf

00599-kolnp-2007-g.p.a.pdf

0599-kolnp-2007-abstract.pdf

0599-kolnp-2007-claims.pdf

0599-kolnp-2007-correspondence others.pdf

0599-kolnp-2007-description(complete).pdf

0599-kolnp-2007-drawings.pdf

0599-kolnp-2007-form-1.pdf

0599-kolnp-2007-form-3.pdf

0599-kolnp-2007-form-5.pdf

0599-kolnp-2007-international publication.pdf

0599-kolnp-2007-international search authority report.pdf

0599-kolnp-2007-pct form.pdf

0599-kolnp-2007-priority document.pdf

599-KOLNP-2007-ABSTRACT 1.1.pdf

599-kolnp-2007-assignment.pdf

599-KOLNP-2007-CANCELLED PAGES.pdf

599-KOLNP-2007-CLAIMS 1.1.pdf

599-KOLNP-2007-CORRESPONDENCE 1.1.pdf

599-KOLNP-2007-CORRESPONDENCE-1.1.pdf

599-KOLNP-2007-CORRESPONDENCE-1.2.pdf

599-kolnp-2007-correspondence.pdf

599-KOLNP-2007-DRAWINGS 1.1.pdf

599-KOLNP-2007-EXAMINATION REPORT REPLY RECIEVED 1.1.PDF

599-kolnp-2007-examination report.pdf

599-KOLNP-2007-FORM 1.1.1.pdf

599-kolnp-2007-form 13.1.pdf

599-KOLNP-2007-FORM 13.pdf

599-kolnp-2007-form 18.pdf

599-KOLNP-2007-FORM 2.pdf

599-KOLNP-2007-FORM 3.1.1.pdf

599-kolnp-2007-form 3.pdf

599-kolnp-2007-form 5.pdf

599-KOLNP-2007-FORM-27.pdf

599-kolnp-2007-gpa.pdf

599-kolnp-2007-granted-abstract.pdf

599-kolnp-2007-granted-claims.pdf

599-kolnp-2007-granted-description (complete).pdf

599-kolnp-2007-granted-drawings.pdf

599-kolnp-2007-granted-form 1.pdf

599-kolnp-2007-granted-form 2.pdf

599-kolnp-2007-granted-specification.pdf

599-KOLNP-2007-OTHERS.pdf

599-kolnp-2007-others1.1.pdf

599-KOLNP-2007-PETITION UNDER RULE 137.pdf

599-KOLNP-2007-REPLY TO EXAMINATION REPORT.pdf

599-kolnp-2007-reply to examination report1.1.pdf

abstract-00599-kolnp-2007.jpg


Patent Number 248131
Indian Patent Application Number 599/KOLNP/2007
PG Journal Number 25/2011
Publication Date 24-Jun-2011
Grant Date 20-Jun-2011
Date of Filing 19-Feb-2007
Name of Patentee DAIFUKU CO., LTD.
Applicant Address 2-11, MITEJIMA 3-CHOME, NISHI-YODOGAWA-KU, OSAKA-SHI, OSAKA
Inventors:
# Inventor's Name Inventor's Address
1 NAKAMURA, JIROU C/O APS INC., 2-11, MITEJIMA 3-CHOME, NISHI-YODOGAWA-KU, OSAKA-SHI, OSAKA
PCT International Classification Number B65G 17/20
PCT International Application Number PCT/JP2005/016585
PCT International Filing date 2005-09-09
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 2004-292353 2004-10-05 Japan
2 2004-292351 2004-10-05 Japan