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Патент USA US2412506

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Dec. 10, 1946.
Q_ w_ GREENE ETAL
2,412,506
MEANS FOR BLENDING FIBERS
Filed May 1, 1945
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2,412,506
MEANS FOR BLENDING FIBERS
Filed May l, 1945
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Dec. 10, 1946.
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2,412,506
MEANS FOR BLENDING FIBERS
Filed May l, 1945
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2,412,506
MEANS FOR BLENDING FIBERS
Filed May 1, 1945
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2,412,506
MEANS FOR BLENDING FIBERS
Filed May l, 1945
7 Sheets-Sheet 5
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Dec. 10, 1946.
Q_ W_ GREENE ET AL
2,412,506
MEANS FOR BLENDING FIBERS
Filed May l, 1945
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Decf 10, 1946-
O. w. GREENE ET AL
2,412,506
MEANS FOR BLENDING FIBERS
Filed May l, 1945
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Patented Dec. 10, 1946
‘2,412,506 `
>,UNITED STATES PATENT OFFICE
MEANS FOR BLENDING FIBERS
Oren W. Greene, Robert W. Twitty, and Therman
L. Richie, Marion, N. C., assignors to Marion
Manufacturing Company, Marion, N. C., a cor
poration of North Carolina
-
1
Application May 1, 1945, Serial No. 591,384
7 Claims.
(Cl. 19-69)
This invention relates to a method and appa
ratus for the blending of fibers and more espe
cially to a plurality of fiber preparation machines
adapted to deliver certain quantities of iibers
into a common conveyor with means for auto
matically stopping each machine when a lprede
termined quantity of fibers has been processed
and holding the fibers ready for delivery position
and continuing operating the other vmachines
2
means for automatically removing from the con
tainers all of the retained fibers therein, when
the last of a plurality of interconnected machines
have processed its predetermined amount of fi
, bers, so that all of the various batches of ñbers
held in the various containers will be delivered
simultaneously to a suitable fiber processing ma
chine for mixing the various batches of fibers to
` gether to form a blended batch of fibers.
until each of the «machines has processed a given 10
Some of the objects of the invention having
amount of iibers, at which time all of the iibers
been stated, other objects will appear as the de
processed by the various machines are dumped
simultaneously into a suitable conveyor` to be
conveyed to another processing machine for mix
scription vproceeds when taken in connection with
the accompanying drawings in which:
Figure 1 is a front elevation of a plurality of
15 feeders equipped with the invention and show
It is an object of this invention to provide in
ing a common conveyor for receiving the fibers
ing and blending the various fibers delivered.
apparatus for processing fibers such as a vplural
processed bythe 'plurality of feeders and con
ity of feeders, means for catching the fibers
veying the same to another machine;
processed by each of the feeders and holding the
Figure 2 is a front elevation of one of the ma
fibers and stopping the particular machine when 20 chines and the portion of the conveyor as shown
a. predetermined quantity of iibers has been proc
in Figure 1;
essed by the machine, and continuing the opera
Figure 3 is an end elevation looking at the right
tions of the other machines until a predeter
Vhand end of Figure 2;
mined amount of fibers has been processed there
Figure 4 is a view looking at the left hand side
by, all of the machines being equipped with
of one of the feeders in Figure 1 and showing the
means for catching and holding the fibers until
other end of the invention from that shown in
all of the machinesl have processed a predeter
Figure 3;
mined quantity of fibers, then said means being
Figure 5 is a top `plan view of a portion of a
automatically operable to dump all of the fibers,
feeder and showing the invention attached there
which have previously been `processed by the 30 to;
>
machines, into a suitable conveyor to convey
Figure 6 is a View similar to the right hand por
the combined ñbers into a suitable blending ma
tion of Figure 4 and showing the iiber receiving
chine for mixing the same to thereby blend a
container in tilted and open position;
plurality of different fibers into one common lot
Figure 7 is a view of the other end of the ñber
of iibers.
y
receiving container as shown in Figure 6;“
It is another object of this invention to provide
Figure 8 is a detail view of the lower portion
means associated withl a fiber preparation ma
of Figure 7 and looking from along the line 8--8
chine for catchingand retaining the processed
ñbers and means governed by the weight of the
in Figure '7;
ñbers processed for automatically stopping the 40 Figure 9 is a view on an enlarged scale of the
iiber receiving container as shown in the lower
machines when a predetermined number of
portion of Figure 3;
pounds of the ñbers have been processed.
Figure 10 is a View similar to Figure 9 but show
It is another object of this invention to provide
ing the bottom members of the fiber receiving
a plurality of feeders for processing fibers and
associating with the discharge end of each of 45 container in opened position;
Figure 11 is an enlarged detail of the gradu
the feeders a container for catching the proc
ated end of the weight lever associated with thel
essed fibers, with means controlled by the weight
apparatus. .
.
of the ñbers within the container for automati
Figure l2 is a vertical sectional view taken
cally stopping the machine when a predetermined
poundage has been collected in the container, to 50 along the line (l 2-I2 in Figure 11;
Figure 13 is a sectional plan view taken along
gether with a plurality of other feeders, each
equipped with a container and being adapted to
the line I 3--I3 in Figure 12;
be stopped in operation when. a predetermined
Figure 14 is a modiñed view of the apparatus
poundage of fibers has passed through the feeder
using a normally de-energized solenoid;
and delivered into itscontainer, together With 55 Figure 15 is a view similar to Figure 14 but
2,412,506
3
.
4
showing the solenoid energized to open the bot-
l
v member 36 >has a hooked weight member 31
‘
adapted to be’hooked in the ring 36 and one or
Figure 16 is an elevation of -a type of mercury
switch employed in the `solenoid circuit when us- _'
more weights'38 may be placed thereon to cause
it to hold a proper amount of poundage within
Figure 17 is an elevation of the type of mer
the ñber container to4 be presently described.
The stops 24 and 25, as previously described,lare
-tom doors of the ñber receiving container; t
ing anormally de-energized solenoid;
receiving containers as shown in Figures 2, 4,
engaged by the ymember 30 in its up and down
movement to limit swinging movement of the
and 6;
member 3U;
cury switch employed on both ends- of the fiber '
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'
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' Figure 18 is a wiring diagram of the apparatus 10
Pivotally secured to the leg portions 32 and 33
of U-shaped member 3|) are downwardly depend
showing the same whenthe solenoids which ac
tuate the bottom closure members of the iiber
ing links .40 and 4| which have their lower ends
receiving containers are normally energized;
rigidly secured to a container 42. This container
Figure 19 is a wiring diagram of the apparatus
42 is balanced on pivot 28 by the addition of
when the solenoids for actuating the bottom clo'
sure members of the fiber receiving containers
are normally de-energized.
Referring more specifically to the drawings, the
reference characters A, B, C, and D represent a
suitable weights to the stem of member 31 so
that it will take a predetermined number of
pounds and ounces of fibers in the container 42
to swing the U-shaped member 30 on its pivot
against the weight applied to _the member36.
plurality of fiber preparation machines such as 20
The upper end of the container 42 is open and
is adapted to receive fibers falling from the feed
what are commonly known as feeders which dis
discharge opening I1 of the feeder. , The lower
integrate the fibers after they have passed
end of the container is‘closed by a pair of swíng- „
through the bale breakers and the like. These
ing doors 45 and 46 whose upper ends are curled
feeders usually further disintegrate the ñbers be
fore they are passed to a blending machine or .25 around and fixed to rods 41 and 48 respectively,
which are pivotally mounted in brackets 59 and
a superior cleaner or other iiber preparation ma
5| and 52 and 53 respectively.
>
y
chine to [be delivered to the pickers in the pick
At the end of the container 42, which has the
ingl room. These feeders are identical to each
weight lever 34 associated therewith, are secured
other and a brief description of one will suffice
for the other.
30 short arms 55V and 56, connected to the ends of
rods 41 and 48, in which vpins 51 and v58 are
Each of the feeders has an electric motor |0
mounted and to these pins are pivotally connected
for driving the same. each feeder having a plu
short links- 59 and 60 to which the ends ofa ten
rality of pulleys ||, Ha, l2, |2a, and I3, con
nected together by belts I4, |5 and |6, which drive
conventional fiber handling mechanism disposed 35
sion spring 6| are connected.
_
The spring 6| is very weak and normally has
a tendency to pull the bottom closures 45 and
Within the feeder housing and also drive con
46 to closed positions at all times.' but a very
ventional elevating mechanism for elevating the
small quantity of fibers tends to overcome the
disintegrated ñbers and dropping them down
force of this spring and pushes the bottom clo
through the discharge opening i1 of the feeder
to suitable conveying apparatus.
40 sures 45 and 46 open when the electromagnet
or solenoid, to be later described, exerting a
Instead of permitting the fibers to fall directly
pulling force to hold the bottom members 45
into a suitable conveying apparatus, this inven
tion proposes to hold and weigh these fibers so « and 46 in closed position, is de-energized, as'it
will be observed that even in open position as
that a predetermined weight of fibers can be
collected into a. suitable ñber receiving container 45 shown in Figure 6, the spring is still exerting a
pressure to move the bottom members 45 and
and held there and when a predetermined pound
4B to closed position.
»
age has been received, the feeder will automati
Pivoted to the U-shaped member 3U is the lowerl
cally be stopped but the other feeders will con
end of a link A65 which is pivoted at its upper
tinue operation until all of the fiber receiving
containers disposed below the discharge openings 50 end to an arm 66 on which is mounted a con
` of the feeders have fbeen filled, at which time the
'ventional mercury switch bulb 51, _arm 66 being
pivoted in a conventional housing 68 as at 69.
This bulb 61 has a pair of contacts 10 and 1|
disposed on the interior of the bulb adapted to
the ñber receiving containers into a suitable con
veying mechanism to convey the ñbers for further 55 be surrounded by a quantity of mercury 12 when
bottoms of the fiber receiving containers will be
opened to discharge all of the contents of all of
processing.
‘
the lever is in the position shown in Figure 17.
Rigidly secured to the ends of the outer'side
walls of the` discharge portion of each feeder are
the legs 20 and 2| of U-shaped member 22, these
Connected to the contacts 10 and 1| are Wires
13 and 14 which lead to a conventional box 15
and from this box wires 16 and 11 extend.
When the container 42 receives a predeter
being riveted to a suitable bar 23 which in turn
mined amount of poundage of ñbers it will be
is riveted to the side walls of the feeder. This
U-shaped member 22 has outwardly projecting
moved downwardly from the position shown in
Figure 4 to the position shown in Figure 6 and
stops 24 and‘25 secured thereto for purposes to
be presently described.
will thus break the circuit to the motor ||J due
To the legs 2B and 2| are secured downwardly 65 to the fact that the mercury will not be in con
and outwardly projecting members 26 and 21
tact with the contacts 10 and 1| in the bulb
which project downwardly and outwardly and
61. The motor circuit will be later explained. -
have pivotally secured as at 28 and 29 respec
tively on the brackets 26 and 21, legs 32 and 33
On the other end of the container 42 from
the end which has just been described, there is
of a second U-shaped member 30.
70 mounted an electrical solenoid 8u whichhas a
Fixedly secured to leg 32 is a weight lever 34
core 8| depending therefrom, to which is piv
which is graduated in pounds and ounces as at
35 and is adapted to receive a ring member 36
having a knife edge adapted to fit into the notches
39 in the upper edge of the weight lever 34. The
oted a pair of links 82 and 83 which are oon
nected to arms B4 and 85 and fixedly secured
on the ‘other ends of the rods 41 and 48 previ
ously described. While the solenoid 80 is ener
2,412,508
gized it holds the bottom members 45 and 46
in closed position as shown in Figure 3, but when
de-energized, the Weight of the fibers therein
will move the bottom members 45 and 4B to
the position shown in Figure 10 against the ten
sion of spring 6|. The solenoid 80 has leading
therefrom, wires 81 and 88.
amount of iibers.
For example, the container
associated with feeder A might be setto tilt at ,
four pounds while that at container B would
tilt at six pounds and the container associated
with feeder C would tilt at eight pounds and
the container associated with feeder D would tilt
,
at ten pounds. Wheny such tilting took place, the
A mercury switch housing 9| is mounted on a
motor would be stoppedïfor the feeder when the
bracket 90 on member'22, which mercury switch
predetermined amount of ñbers have been depos
is identical to the mercury switch previously de 10 ited in its receiving container but the solenoid
scribed and shown in Figure 17 and which is
associated with discharging the contents from
normally occupying the position shown in Figure
the container, or allowing opening of the bot
17. Switch housing 9| vhas wires 92 and 93 lead
tom members 45 and 46, would not function for
ing therefrom.V The type of switch shown in Fig
the reason that this will not take place until
ure 16 is for use with the modified `form of the
invention shown in Figures 14 and 15. When
all of the containers have been charged to the
predetermined amount of ñbers to be placed
used with the present form being described, the
therein according to weight.
mercury switch on arm 94 willbe identical to the
Any suitable means may be provided for con
switch shown in Figure 17.
veyíng the discharged fibers 42 to another fiber
The mercury switch bulb such as described with 20 treating apparatus and in the drawings I have
relation to Figure 17 is mounted on a lever 94 and
shown an elongated continuous conveyor. This
has a link 95 connected thereto which is piv
comprises an elongated trough having side-wallsotally connected as at 96 to the leg 33 of U-shaped
99 and |02 with slats ||2 and Ii 3 disposed near
member 30. Also mounted on leg 33 is a con
the bottom inner side portions thereof. The Walls
ventional dash-pot 91 to which is connected a 25 99 and |02 are supported by legs H9. The side
link 98 which in turn is connected to the leg 2|
walls 99 .and |02 have a plurality of brackets ||4
of member 22 which‘is nxedly secured to the
and ||5 in which upper rollers ||5 are mounted
discharge portion of the feeder. This dash-pot
and also lower rollers ||1. The upper rollers are
is of conventional structure and merely slows
designed to support the upper portion of an end
down the swinging movement-of the member 38
less belt ||8 and the lower rollers ||1 are de
and associated parts.
,
signed to support the return portion of .this belt
The above described mechanism is schemati
H8. This belt, at its ends, is mounted on rollers
cally illustrated in Figure 18. In another form
|20 and |21 and roller |2| is driven by a suit
of this invention where a normally de-energized
able belt |22 driven by a motor |23 to discharge
solenoid is adapted to be used for emptying the 35 the dumped ñbers into a liber preparation ma
container 42, such a normally deenergized sole
chine |24 which may be a superior cleaner or any
noid, as shown in Figures 14 and 15, would be
other suitable fiber treating apparatus. This
employed in the wiring diagram shown in Figure
fiber treating apparatus |24 is operated on call
19. Here like references will apply and only dii-, - from picker room and likewise the feeders are
ferences will be noted.
operated on call from the liber preparation ma
In the form of the invention shown in Figures >
chine |24 Ito supply the necessary amount of iibers
14 and 15, the arms 84 and 85, instead of hav
to the Dicker room.
ling links 82 and 83 connected thereto, have ver- `_
In all"forms of the invention except in the
tically disposed links |00 and |0| pivotally con
modiñed form shown in Figures 14, 15 and 19,
nected thereto, which at their upper ends are 45 the switches broadly designated by reference
connected to a cross-bar |03. This cross-bar
characters 68 and 9| which indicate their hous
|03 is pivotally connected to core |04 of sole
ings, While the containers are receiving ñbers,
noid |05 which has wires |05 and |01 leading
therefrom. These wires lead through a mercury
are in closed position and as previously described,
wires 16 and 11 extend from the switch in hous
switch |08 disposed in housing 9| which, instead 50 ing 68 and Wires 92 and 93 extend from the sole
of being of the form shown in Figure 17, is of the
noid controlling .the switch in housing 9|, Wire
form shown in Figure 16 but like reference char
11, which leads to one side of switch in housing 68,
acters will indicate corresponding parts except
is connected to a master wire |26 which leads to
that it is to be noted that the contacts ||0 and
a source of electrical energy |21. A wire |28 leads
| | l are normally out of contact with the mercury 55 from the other side of this source of electrical
|09 disposed within‘the mercury tube |08 when
energy and this wire |28 has branch wires |29
the parts are in the position as shown in Figure
which lead to the motors I0. Wire 16 is connected
14, for example. When the predetermined
to the other side of motors |0. The wires 81
amount of ñbers has been deposited into a con
Which lead from solenoids 88 are connected to a
tainer and it is tilted on its pivot and the con
Wire |30. This wire |30 is connected to wire 93
60
tainer 42 tends to move downwardly, the lever
which leads .to one of the contacts of mercury
94 will be raised upwardly to therefore energize
switch in housing 9|. Wire |30 has no other con
the solenoid |05 to forceably open the bottom
nections. Wires 92 leading from .the other side
members 45 and 46 to dump the contents from
lof
mercury switches in housings 9| are connected
the container 42.
65 'to a wire |3| connected to one side of a source of
However, in all of the previous description when
electrical energy |32. Leading from .the other
'it is stated that the solenoid will be de-energized
side of the source of electrical energy |32 is a
to allow the bottom to swing to open position
wire |33 which is connected to the wires 88 lead
under the Weight of the fibers therein or the
ing to the other side of the so-lenoids 80.
solenoid ywill be energized to forceably open the 70
When a container 42 has received its given
bottom'members to allow the fibers to fall from
charge of fibers and is swung on its pivot to the
the container 42, this is all predicated upon the
position shown in Figure 6, the switch 61 in hous
fact that this does not immediately happen but
ing 68 Will be moved to open position to stop the
only happens when all of the containers in a
motor. Also the similar switch in housing 9| con
series have been `iilled with the predetermined 75 trolling the solenoid 80 for that machine will be
2,412,506
8
opened _but current will still fiow .through all of
the solenoids, through wires |33, |30, and through
any unopened switches in housings 9|, back to
handling machines, fiber receiving means asso
ciated with each of the fiber handling machines
for receiving and holding ñbers discharged from
When the last of the plurali-ty of machines has
>delivered its charge to its container and this con
tainer is moved downwardly,.it then opens the
last of the switches in housings 9| which de
each machine, means operable by the weight of
the fibers in the receiving means for stopping the
machine associated with the receiving means
when a predetermined amount of fibers has been
collected in the fiber receiving means, and means
’ , energizes all of the solenoids 80 and allows the
automatically operable for discharging the fibers
.the source of current |32 through wire IS l.
fibers in all of the containers d2 to be simulta 10 from all of the fiber receiving means when all of
neously dumped into the conveyor. When the
the receiving means have been charged with their
weight of the contents have been relieved from
predetermined weights of fibers.
2. Fiber` blending apparatus comprising a plu
the swinging bottoms d5 and at of a iiber re
ceiving container, the tension spring 6| will move
rality of fiber preparation machines, each hav
these bottoms to closed position which will auto
ing individual means for driving the same and
matically close mercury switches in housings @t
each having a discharge opening, a fiber receiv
ing container disposed below each of the discharge
and 9| and all machines will be started again.
openings for receiving the fibers discharged from
. In that form of invention shown in'Figures 14,
the machines, means operable by the weight of
15«and 19, where the solenoids |05 remain de
energized during the filling of the containers, 20 the fibers in each container associated with each
the housing el would have a mercury bulb .there
machine for stopping the machine with which a
container is associated when a predetermined
in, similar to that shown at |08 in Figure 16 and
the spring 6| would be much stronger to cause it
weight of fibers is received into the container,
and means automatically operable when al1 of
to positively hold the bottoms ¿l5 and ¿lâ in closed
position.
25 the containers have received their predetermined
The wiring diagram in Figure 19, as to the
weight of fibers therein for automatically dis
charging the fibers from the containers.
motors it, would be the same as described in Fig
3. Apparatus for conditioning fibers compris
ure 18, but in this case, by referring to Figure
ing a plurality of fiber preparation machines,
19, it will be seen that with switch |08 open there
would be no current going to any of the solenoids 30 each machine having a discharge opening, a con
tainer disposed below each of the openings and
Wire HB6 from each of the solenoids |05
adapted to receive fibers passing through the
leads to a wire |35 which is connected t0 one side
machine, means operable by the weight of the
of a source of_ electrical energy |36. A wire |37
fibers in a container when a predetermined weight
and branch wires |01 lead .to the other side of all
of the solenoids |05. This wire |31 leads to one 35 of fibers is deposited into the container for auto
matically stopping the machine associated with a
side of switch |68 ori-machine A, and a wire^|3d
particular container, and means automatically
leads from the other side of switch |03 on ma
operable when all of the containers are charged
chine A to one side of the switch |08 on machine
with predetermined amounts of fibers for auto
B, and wire |39 leads from the other side of
switch |08 on machine B to one side of the 4.0 matically discharging all of the fibers from all of
the containers and for again activating all of
switch Hi8 on machine C, and wire |40 leads from
the machines for the- reception of additional
the other side of switch |08 on machine C Ito one
side of switch |08 on machine D, and a wire
batches of fibers.
4. Fiber preparation machinery comprising a
|4| leads from the other side- of switch |08 on
plurality of fiber processing machine, each hav
machine D to the other side of the source of elec
« ing a discharge opening from whence the fibers
trical energy |3t.
are discharged, each opening having a container
Now let us assume that containers ¿l2 as
disposed therebelow and each container being
sociated with one or all- of‘ machines A, B
provided with a swingable bottom member, means
and C have moved downwardly to close switches
Hi8. Still no current can get to wire |4l| 50 automatically operable when a predetermined
poundage of fibers has been deposited in a con
until .the lastl machine, which let us say, will
tainer for stopping the machine associated with
be in machine D, has filled its container to Ithe
that container and means automatically opera
predetermined poundage and caused it to swing
ble when all of the containers'have been filled
downwardly. This will close switch |08 on ma
with a predetermined poundage for automatically ,
chine D and thus establish a circuit through all
moving al1 of the swingable bottoms and dis
of the switches |08 to energize all of the solenoids
charging the fibers simultaneously from al1 of
|05 to forceably push the doors 45 and 46 open
the containers and means automatically operable
to discharge the contents. Being relieved of the
after the fibers have been discharged from all of
weight of the fibers in the containers, the con
tainers will swing back to normal position which 60 the containers for closing the bottoms of the
containers ready for the reception of additional
will open all switches |08 to de-energize -the sole
batches of fibers, and means operable automati
noids |05 and spring 6l would then close all
cally when the fibers are dumped for starting all
of the doors 45 and d6. This return of the con
of the machines.
tainers to normal position will close all of the
5. In fiber preparation machinery comprising
switches in housings 68 in the motor circuits and 65
a plurality of machines for processing fibers, each
start all of the machines in operation.
machine having a discharge opening, a container
‘ In the drawings and specification, there has
disposed below the discharge opening and piv
been set forth a preferred embodiment of the in
oted for Vertical swinging movement, Weighted
vention, and although’ specific terms are employed,
they are used in a generic and descriptive sense 70 means for restraining the container against piv
otal movement until a predetermined amount of
only and not for purposes of limitation, the scope
fibers are deposited therein, said container hav
of the invention being defined in the claims. ,
ing a movable bottom adapted to be moved to
open to allow fibers to fall from the container,
1. Means for blending a plurality of difier
ent fibers together comprising a plurality of fiber 75 a switch mounted on the machine and connected
We claim: "
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2,412,506
to the pivoted container, an electric motor for
driving the machine, a circuit for said electrical
motor passing through the switch, downward
plurality of ñber processing machines, each hav
ing a discharge outlet, a containel` disposed be
low4
each of the discharge outlets for catching
movement of the container upon receiving a pre
determined poundage of fibers serving to open Cil and retaining the fibers passing through each
machine, means controlled by the weight of fibers
the switch and stop the motor for that par~
in
a container for stopping the machine with
ticular machine, a solenoid mounted on each con
which the container is associated when a pre
tainer and connected to the bottom member for
determined weight of fibers is deposited` in its
operating the same, a switch associated with each
container,
and means automatically operable
solenoid member, a second electrical circuit con 10
when all of the containers have their predeter
nected to al1 of said second named solenoids, a
mined weight of ñbers deposited therein, for au
connection between the container and the said
tomatically and simultaneously discharging the
second switches whereby upon downward move
fibers from the containers.
ment of a container upon receiving a predeter
7. Apparatus for blending .dbers comprising a
mined poundage of ñbers the switch associated
plurality of fiber processing machines, each hav
with the second solenoid on a machine will be
ing a discharge outlet, a container disposed be
broken, the downward movement of the last of
low each of the discharge outlets for catching
a plurality of containers serving to open the cir
and retaining the fibers passing through each
cuit through all of the second solenoids to there
~ by allow the Weight of the fibers to open the bot 20 machine, means controlled by the weight of fibers
in a container for stopping the machine with
tom members and fall simultaneously from all of
Y the containers, the containers then automatically
swinging to normal position on their pivot and
also moving the two switches associated there
withn to closed position to activate the motors of
all the machines and to activate the solenoids
associated with the containers for forcibly mov
ing the bottoms of the containers to closed po
sition.
6. Apparatus for blending fibers comprising a 30
which the container is associated when a prede
termined Weight of fibers is deposited in its con
tainer, and means automatically operable when
all of the containers have their predetermined
weight of fibers deposited therein, for automati
cally discharging the fibers from the containers.
OREN W. GREENE.
ROBER'" W. TWITTY.
THERMAN L. RICHIE.
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