Animal feeder

An animal feeder includes a tank supported over a feed pan by a plurality of straps projecting radially inwardly from the sidewall of the feed pan. The tank has a funnel portion which directs the feed into a hollow tubular valve which is adjustable to regulate the feed flow to the pan. The tubular valve has cross beams mounted on a hub which is supported on a bearing to allow rotation and thereby agitation of the feed within the valve. A shaft with a threaded lower end corresponds with a threaded aperture in the hub and is supported on a bearing. The shaft is rotatable with respect to the hub to raise and lower the tubular valve with respect to the pan, and thereby regulate the feed flow. A sleeve which surrounds the shaft is affixed to the hub and is engagable to the shaft with a set screw so that the shaft may be engaged to rotate with the sleeve and the tubular valve, thereby allowing agitation of the feed by rotation of the valve without causing any adjustment to the feed flow rate.

TECHNICAL FIELD 
The present invention relates generally to animal feeders, and more 
particularly to large capacity feeders having adjustable feed flow 
regulators. 
BACKGROUND OF THE INVENTION 
There are a wide variety of animal feeders known in the art. In general, a 
tank which holds the feed is raised and lowered with respect to a pan, 
thereby increasing or decreasing the flow of feed to the pan. However, 
small capacity feeders may not be simply enlarged in order to obtain large 
capacity feeders. The sheet weight of the feed in a large tank would make 
such a feeder unworkable. 
For this reason, large capacity feeders are designed differently than small 
feeders. Conventional large capacity feeders are either of the cylindrical 
type or the rectangular type. Cylindrical feeders utilize a vertically 
movable door or ring which will allow feed to escape from the tank. 
However, such devices have been found to be difficult to adjust, and are 
unreliable in maintaining the desired flow rate. Also, such feeders do not 
allow the animal to agitate the feed if moisture causes bridging to occur. 
Rectangular feeders suffer the same problems as cylindrical feeders, and 
generally feed fewer animals in the same amount of space. 
It is therefore a general object of the present invention to provide an 
improved animal feeder. 
Another object of the present invention is to provide an animal feeder 
which will operate easily and maintain a large volume of feed. 
A further object of the present invention is to provide a feeder with a 
feed flow control which is independent of the support of the tank. 
Still another object of the present invention is to provide a feeder with 
an anti-bridging device operable by animals. 
These and other objects will be apparent to those skilled in the art. 
SUMMARY OF THE INVENTION 
The animal feeder of the present invention includes a tank supported over a 
feed pan by a plurality of straps projecting radially inwardly from the 
sidewall of the feed pan. The tank has a funnel portion which directs the 
feed to the center of the lower opening in the tank and into a hollow 
tubular valve which is adjustable to regulate the feed flow to the pan. 
The tubular valve has cross beams mounted on a hub which is supported on a 
bearing to allow rotation and thereby agitation of the feed within the 
valve. A shaft with a threaded lower end corresponds with a threaded 
aperture in the hub and is supported on a bearing. The shaft is rotatable 
with respect to the hub to raise and lower the tubular valve with respect 
to the pan, and thereby regulate the feed flow. A sleeve which surrounds 
the shaft is affixed to the hub and is engagable to the shaft with a set 
screw so that the shaft may be engaged to rotate with the sleeve and the 
tubular valve, thereby allowing agitation of the feed by rotation of the 
valve without causing any adjustment to the feed flow rate. The bearing 
under the shaft and hub is supported on a plateau on top of a truncated 
conical portion and is covered by a cone insert which rests on the cross 
beams in the tubular valve. The conical surfaces of the cone insert and 
the truncated cone assists in feed flow through the valve while reducing 
the frictional force which would restrain the ease of rotation of the 
valve by the animals.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring now to the drawings in which identical or corresponding parts are 
represented by the same reference numeral, the animal feeder of this 
invention is designated generally at 10 and includes a feed tank 12, a pan 
14 and a feed flow control assembly 16. 
Feed tank 12 is cylindrical and open at its upper and lower ends. A funnel 
portion 18 is mounted in the lower end of tank 12 and directs the feed 
centrally into the feed flow control assembly 16. A cylindrical tank 
support 20 is affixed to the underside of funnel 18 and is mounted to the 
upper ends of a plurality of support straps 22. Straps 22 are mounted 
radially inwardly from an angle iron 23 mounted to the sidewall 24 of pan 
14. Angle iron 23 is positioned with one leg extending inwardly to form an 
overhanging lip 23a which helps keep the feed in pan 14. 
Straps 22 have an upper portion 26 which is bent to a vertical position and 
bolted to tank support 20. The body 28 of straps 22 is inclined downwardly 
from tank support 20 to pan sidewall 24, and has sidewalls 30 flared 
upwardly to form a channel which will drain away any rain water. Support 
members 31 are generally Z-shaped, and are mounted between straps 22 and 
14 to furnish direct support to tank support 20. A support member 31 is 
mounted to every other strap 22, and then attached to the bottom 40 of pan 
14. The number of support members 31 may be increased or decreased for 
feeders of different sizes and capacities. 
A plurality of lids 32 are pivotally connected to tank support 20 along 
hinges 34, and span between straps 22. An outwardly bent lip 35 along the 
lower end of tank support 20 projects over hinges 34 to protect them from 
rain. Downwardly projecting sidewalls 37 on each lid 32 rest within the 
channels formed in straps 22. Thus, rain will be deflected from the feed 
openings between straps 22 by lids 32, into the channels on straps 22, and 
then off of pig feeder 10. 
Pan 14 has a truncated conical center portion 38 which causes the feed to 
slide into the bottom 40 of pan 14. Center portion 38 has a plateau 42 on 
its upper end upon which a bearing support 44 is mounted. Bearing support 
44 has a cup portion 46 in its upper end which holds a spherical bearing 
48. A vertical shaft 50 has a threaded lower end 52 which is supported on 
bearing 48 and rotatable thereon. 
A cylindrical hollow tube 54 (hereinafter tubular valve 54) is supported on 
cross beams 56 which extend radially from a center hub 58. Hub 58 is 
generally cylindrical and has an open lower end and a threaded aperture 60 
in its upper end. Threaded aperture 60 cooperates with threaded lower end 
52 of shaft 50 to support tubular valve 54 over pan 14. Hub 58 is 
rotatable around bearing support 44 and vertically movable in relation 
thereto as it rotates around threaded end 52 of shaft 50. 
A sleeve 62 is mounted to the upper end of hub 58 and extends vertically, 
surrounding shaft 50. Horizontal straps 64 affixed to the upper end of 
tank 12 extend radially inwardly to support a bearing 66 through which 
sleeve 62 extends. Sleeve 62 extends upwardly past bearing 66, and has a 
threaded aperture and set screw 68 in its upper end. Set screw 68 may be 
selectively tightened so as to contact shaft 50 within sleeve 62, thereby 
causing sleeve 62 to be rotatable with shaft 50. Shaft 50 extends slightly 
beyond sleeve 62, and has a handle 70 affixed thereto for rotating shaft 
50 upon bearing 48. 
A hollow cone 72 with an aperture 74 at its point end has slots 76 in its 
lower end which correspond with and receive cross beams 56. Cone 72 fits 
over cross beams 56 so as to protect bearing 48 from feed flowing through 
feeder 10. The lower end or cone 72 is slightly wider than plateau 42 such 
that feed is directed from funnel 18 along the sloped surface of cone 72 
directly to the sloped surface of truncated conical center portion 38 of 
pan 14. 
A shallow funnel insert 78 is mounted within valve 54 and redirects feed 
flowing from funnel 18 away from the side walls of valve 54 and generally 
perpendicularly to the truncated center portion 38. Shallow funnel insert 
78 works in cooperation with cone 72 so as to dramatically reduce the 
force required to rotate valve 74 relative to pan 14 and tank 12. Without 
insert 78, it has been found that the feed rests directly on conical 
center portion 38 and against the inside surface of valve 54. Because of 
the large area of contact of feed on the non-rotatable conical portion 38, 
it is very difficult for animals to rotate valve 54 using projecting plate 
80. Funnel insert 78 will rotate along with valve 54, and carries a large 
amount of the feed which would otherwise rest on conical center portion 
38. Thus, the effort required to rotate valve 54 is greatly reduced, and 
the animals are able to easily agitate the feed within valve 54. 
A removable cover 82 is hinged to the top of tank 12 and protects the feed 
from the weather, as well as allowing access to handle 70 on shaft 50. 
In operation, pigs may reach feed within pan 14 by lifting lids 32. If 
bridging occurs, the pigs can rotate valve 54 by pushing on plate 80. This 
causes cross beam 56 to agitate feed flowing within valve assembly 16. 
Set screw 68 in sleeve 62 must be tightened against shaft 50 so that shaft 
50 will rotate along with valve 54 and maintain the adjusted flow rate. 
Since threaded end 52 will rotate along with hub 58, rotation of valve 54 
by the pigs will not cause any vertical adjustment of valve 54 to occur. 
Thus, the feed flow cannot be accidently increased or decreased by the 
pigs, and will allow agitation of the feed to provide an anti-bridging 
effect. Because the vertical pressure of the feed within tank 12 is 
funneled to rest on the sloped surface of cone 72, the friction against 
rotation of valve 54 is greatly reduced. The further reduction of the 
surface area on truncated center portion 38 adjacent bottom 40 (by use of 
funnel insert 78) also reduces the friction against rotation of valve 54. 
Thus, even with the extremely large capacity of feeder 10, pigs are still 
able to rotate valve to agitate the feed. 
In order to adjust the feed flow, set screw 68 is loosened so that sleeve 
62 is not fastened to shaft 50, and is therefore rotatable around shaft 
50. Handle 70 is then operated to rotate shaft 50 and thereby rotate 
threaded end 52 within threaded aperture 60 of hub 68. Enough friction 
exists by virtue of cross beams 56 within feed flowing through valve 
assembly 16, to hold hub 58 from rotating with shaft 50 during adjustment. 
Thus, valve 54 is raised or lowered relative to pan 14 to increase or 
decrease the feed flow. 
It can therefore be seen that the invention as described above fulfills at 
least all of the objects stated herein.