Rice levee shaper and packer

An improved land vehicle for constructing rice levees comprises a unitary, ground contacting roller-wheel assembly surrounded by a frame member. The shape and size of the roller permits the construction of rice levees having the desired shape and dimensions. The roller is hollow so that it may be filled with materials as desired to vary its weight and thereby adapt it for varying rice field conditions. Tires mounted on the roller-wheel assembly function to aid in levee construction and to allow the vehicle to be transported without the use of special equipment.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
This invention relates generally to agricultural equipment useful in rice 
levee construction and, more particularly, to an improved portable rice 
levee shaper and packer for the controlled, efficient and convenient 
shaping, packing and seeding of rice levees. 
2. Description of the Prior Art 
Rice levee farming requires the preparation of rice fields by the 
construction of levees which function to distribute and maintain a uniform 
flood of water from the highest to the lowest elevation in the field. 
Ideally, the levees will comprise (FIG. 1) mounds of earth having a width 
(a) of approximately 66 inches, the height (b) of which is approximately 
24 inches above the bottom of a pair of furrows adjacent each side of the 
mound. Each furrow has a depth (c) of approximately 6 inches below the bay 
elevation (e) and a width (d) of approximately 27 inches. It is essential 
to successful rice farming that the levees be both located accurately and 
well constructed to achieve and regulate a uniform water depth within each 
bay between the levees. 
The construction of rice levees is the most difficult task involved in rice 
production. The levees cannot be formed until the rice has been seeded 
and, after the rice is planted, there is a limited time to get the levees 
constructed and firmed before a rain occurs. Rice is most often planted in 
clay or clay loam soils which normally have poor internal drainage. Before 
a levee constructed of such soil will hold water it must be thoroughly 
packed and settled. 
Heretofore, the most successful method for constructing rice levees has 
been the use of a disc levee plough and dual wheel tractor. As the levee 
plough is pulled through the field, the discs cause an accumulation of 
earth along the desired location of the levee. Normally, on heavy clay 
soils, at least four or five, and sometimes more, passes of the levee 
plough are required to achieve the desired height of approximately 24 
inches for the levee. Thereafter, the dual rear tractor tires are 
repeatedly driven over the mound of earth in an attempt to compact the 
levee (FIG. 2). 
However, in the formation of levees with a levee plow, the plow breaks the 
soil into large clods which make compaction and settlement of the levees 
very difficult, particularly when the dual rear tractor tires are used for 
that purpose. The resulting levee is an irregularly shaped and loosely 
packed mound of soil having weak spots in the form of low spots or gaps 
which cause rapid deterioration of the levee unless it is repaired 
(completed by hand with shovels in a laborious, costly and time consuming 
manner. 
This prior art method for constructing rice levees is time consuming, 
inefficient and largely ineffective. The many passes with the levee plough 
required to accumulate the necessary soil creates an additional problem in 
the form of deep grooves adjacent each levee thereby making water 
management in each bay impossible without additional time consuming and 
costly soil relocation. 
Hence, the prior method of shaping and packing rice levees is inefficient 
in the amount of time required, expensive because of the labor, equipment 
and fuel involved and finally does not produce a firm and uniformally 
shaped and packed a levee as needed for optimum yield rice farming. 
Ideally, the construction of rice levees should be accomplished in an 
efficient manner utilizing relatively simple, mechanized equipment without 
the need for many passes of a levee plough to create a levee mound and 
thereafter many passes of dual tractor wheels in an attempt to compact the 
rice levee. 
SUMMARY OF THE INVENTION 
The present invention relates to a portable rice levee shaper and packer 
comprising a roller-wheel assembly designed to shape a mound of soil into 
a compacted rice levee. 
It is, therefore, a general object of the present invention to provide an 
improved means and method for constructing rice levees. 
It is a further object of the present invention to provide an improved rice 
levee shaper and packer. 
It is a further object of the present invention to provide an improved 
means and method for constructing a rice levee having a uniform shape, 
height and width. 
it is a further object of the present invention to provide a rice levee 
shaper and packer which prepares the soil for rice seeding and which 
allows the seeding by means of a seeder which is chain driven from the 
roller-wheel assembly. 
It is a further object of the present invention to provide a rice levee 
shaper and packer which eliminates structural defects in the rice levee. 
It is a further object of the present invention to provide a rice levee 
shaper and packer which can be varied in weight as required by the field 
conditions and circumstances of its use. 
It is a further object of the present invention to provide a rice levee 
packer and shaper which is designed to prevent the caking and accumulation 
of wet soil or clay thereon, thereby allowing levee formation under 
adverse soil conditions. 
It is a further object of the present invention to provide a rice levee 
shaper and packer which does not require a hydraulic lift or a vehicle for 
mounting and which may be transported on wheels which form an integral 
part thereof. 
Other objects and advantages of the invention will be evident from the 
following detailed description when read in conjunction with the 
accompanying drawings which illustrate the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS 
Referring now to FIG. 3, the rice levee shaper and packer of the present 
invention is illustrated generally by the numeral 10. The invention 
basically comprises a rectangular chasis or frame 12 having a spool or 
roller 14 with integrally mounted wheels or rims 16 (FIG. 4) with tires 18 
mounted thereon. Frame 12 has a tongue 20 and hitch 22, a jack-stand 24, a 
weight rack 26 and a mud or soil scraper 28. Frame 12 also includes 
hydraulic brace means symbolically illustrated at 30 whereby optional 
hydraulic equipment (hereinafter described) may be connected and 
utilizied. Such hydraulic equipment is powered through hydraulic lines 31. 
Referring now to the drawings, FIGS. 5 and 6 show respectively in front and 
side elevation the integral roller-wheel assembly of the present 
invention. The spool or roller 14 is symmetrically shaped in the form of 
two cone sections 14(a) and 14(b) separated by a horizontal cylindrical 
portion 14(c). Each cone section has a relatively large outwardly facing 
base 14(d) and an inwardly and downwardly sloping surface extending to one 
end of said cylindrical portion 14(c). 
A wheel or rim 16 is integrally mounted and afixed to the outer end of each 
spool 14 by means of mounting spacers 36. The spool (roller) 14 is 
constructed of metal and is hollow inside. Each wheel 16 has a plurality 
of gussets 38 mounted between bearing axle 33 and the rim of wheel 16. An 
access spout or valve 34, FIG. 4 located at each end of the spool 14 
allows the spool to be filled with water or other material so that the 
weight of the roller may be selectively varied. Typically, the weight of 
the roller will vary from about 3,000 pounds (unfilled) to about 12,000 
pounds (filled), or more, depending on the desired weight as determined by 
the conditions of the rice field and soil. The machine is 96 inches wide, 
measured from frame side to frame side. The overall shape and dimensions 
of the roller-wheel assembly is such that a rice levee of desired shape 
and size is automatically constructed by its use as hereinafter described. 
The tires 18 are mounted on the rims 16 and are selected to extend several 
inches past the adjacent ends of the spool and thereby maintain the spool 
in a position off the ground and permit transportation thereon. Bearings 
32 (FIGS. 3, 4 and 6) allow for mounting of the frame 12 on the 
roller-wheel assembly. 
The design and selection of the roller 14 and tires 18 are such that the 
circumference of tires 18 travel a distance of eleven feet for each 
revolution as compared to a distance of three feet that the circumference 
of roll horizontal cylinder 14(c) travels along the top surface of the 
levee. This has the effect of causing soil to be pushed along in front of 
the roller to fill in all low spots in the levee mound. 
The operation of the rice levee shaper and packer in rice levee 
construction is as follows: a disc-type levee plough is used to create a 
mound of soil at the desired levee location. Because of the levee shaping 
capacity of the present invention, only one or two passes of the disc-type 
levee plough is required whereas the prior art method required eight or 
ten passes of the levee plough. After the mound of soil is prepared, the 
rice levee shaper and packer of the present invention is rolled over the 
mound as illustrated in FIG. 7. The roller functions to shape and pack the 
soil in a single pass into a rice levee having the shape and size needed 
for successful rice farming. 
The shape and dimensions of the integrally constructed roller-wheel 
assembly are such that the relative movement of the wheel (tire) (one 
revolution equals eleven feet) and the horizontal cylindrical portion of 
the roller (one revolution equals three feet) causes the soil to be 
rolled, graded and pushed forward by the roller to completely fill all low 
spots in the levee, and such action effectively prevents soil, 
particularly mud, from adhering to the roller surface. 
Rice levees constructed with the present invention do not have defects such 
as gaps or low or weak spots which were inherent in the prior art method 
and had to be repaired by hand. Use of the present invention causes the 
large clods of soil to be crushed and conformed with the other soil into a 
perfectly shaped, fully compacted rice levee which is immediately capable 
of distributing and maintaining a flood of water and forming a seed bed 
making it possible in obtaining a stand of rice. 
The jack-stand 24 mounted on frame tongue 20 allows for single-man mounting 
and dismounting of the levee shaper and packer. The frame assembly 12 is 
constructed for highway length and width making transportation of the 
equipment safe and easy without the need for additional equipment to load, 
transport and unload the packer. 
Additional equipment which may be mounted on the frame 10 for use with the 
invention comprise weight racks 26 located at each end of the frame to 
allow for additional weights which are commonly used with farm equipment 
to increase the weight thereof and obtain better packing of the levee. 
Hydraulic brace 30 can be located on the frame assembly 12 to allow for the 
connection of hydraulically operated equipment such as an optional disc 
assembly (not shown) to be mounted on the outside back edges of the frame 
12. Such an optional disc assembly could be used to aid in filling in any 
groove or ditch formed by the levee plough on each side of the levee. This 
would reduce the depth of any such groove and thus promote rice growth at 
the edges of the levee by helping control the depth of water in the levee 
bays. 
A seeder unit or augar may be mounted on the packer frame 12 to distribute 
seed. Such a seeder augar (not shown) could be powered by a direct drive 
from the spool 14. Such a direct drive connection would allow seeding to 
be coordinated with the velocity of the packer thus allowing for uniform 
seeding for any speed of the packer. Thus, the seeding could be done more 
uniformally and economically. 
While the invention has been described with a certain degree of 
particularity, it is manifest that many changes may be made in the details 
of construction and the arrangement of components without departing from 
the spirit and scope of this disclosure. It is understood that the 
invention is not limited to the embodiments set forth herein for purposes 
of exemplification, but is to be limited only by the scope of the attached 
claims, including the full range of equivalency to which each element 
thereof is entitled.