Animal sling

A sling for a four-legged animal is provided. The sling includes the following components: a pair of longitudinally extending poles; a plurality of longitudinally spaced, transversely extending straps mounted between the poles; a centrally disposed web extending between adjacent transverse straps for supporting the belly of the animal; a pair of generally longitudinally extending leg straps mounted between the transverse straps, the transverse and longitudinal leg straps and the web collectively defining four leg openings and an udder/genital opening. The sling thus provides a means for safely raising an animal off the ground and for holding it there for extended periods without injury or discomfort to the animal.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
This invention relates generally to an animal sling and more particularly 
to an animal sling adapted to permit a four-legged animal to be raised off 
the ground and to be held in such an elevated position for an extended 
period of time. 
2. Discussion of the Prior Art 
When livestock become ill or are injured, they sometimes seek relief by 
lying down on their sides. However, they often have trouble getting back 
up to a standing position and sometimes do not have the will to get up. 
When livestock remain in a downed position, it does not take very long 
before their legs begin to atrophy and other adverse effects begin to 
show. 
Because of this problem, farmers must from time to time encourage or assist 
livestock in getting up from a downed position. Due to the size and weight 
of larger livestock such as cattle, there is very little one can do 
without power lifting equipment to assist an animal in getting up. Even 
with lifting equipment, there is not much that can be done because most 
such equipment is ill-suited for raising a downed animal to a standing 
position. 
Because of this need, various types of lifts have been developed to assist 
the farmer. One such apparatus takes the form of a so-called hip-lifter, 
which comprises a simple clamp-like means which is tightened onto the hips 
of the animal, typically a cow or bull, and is then elevated by power 
means such as a front end loader, until the animal is raised sufficiently 
that it can stand. 
The problem with hip-lifters is that they often result in the animal being 
bruised, and, if used for more than a very short period, can result in 
permanent injury to the animal. A wide canvas strap has been used in 
conjunction with a conventional hip-lifter to bear some of the weight of 
the animal and thereby reduce the possibility of bruising. However, this 
hip-lifter/canvas strap design still does not evenly distribute the weight 
of the animal, so it can similarly only be used for a relatively short 
period. Moreover, the animal is quite unstable and if it struggles, which 
often may be expected, it could fall from the hip-lifter. Also, the use of 
canvas or a similar nonporous material can result in discomfort to the 
animal if used for a prolonged period. 
To overcome some of the drawbacks of conventional hip-lifters, a ring-like, 
inflatable lifter has been developed which is to be slipped around the 
downed animal and then inflated, thereby raising the animal off the 
ground. Like the hip-lifter, this does not provide any means for 
supporting the animal in a raised position for anything other than a very 
shorter time. 
As mentioned above, the need exists for an apparatus for holding an animal 
in a raised position for a substantial period of time. There are several 
reasons why such a need exists. First, livestock and other animals often 
incur leg injuries which can only heal through rest. Unfortunately, if the 
animal attempts to rest in a downed position, atrophy of the other limbs 
and other related problem arise. By holding the animal off the ground 
during healing of the limb, such drawbacks are avoided. To be effective, 
however, such an apparatus must be able to hold the animal so that even if 
the animal struggles, it will not injure itself or fall from the support. 
It may also be desirable to hold the animal in position for other reasons, 
such as for mating or artificial insemination, for weighing the animal, 
for birthing purposes, for milking or for calf nursing. Under other 
circumstances it may be desirable to restrain an animal which is like to 
become uncontrollable. For example, a veal calf is typically never removed 
from its stall until time for slaughter. Such animals become extremely 
disturbed upon being removed from their stall for the first time, and 
could present problems without an effective means of restraint. 
U.S. Pat. No. D.201,010 discloses an animal restraint which is apparently 
designed to be used with dogs. It appears to permit the dog to be raised 
off the ground by supporting its entire torso. One drawback with this 
design is that it is not in any way adjustable to accommodate animals of 
different size. Moreover, means is not provided for the udders or sex 
organs of the animal, which obviously are of substantial size in larger 
livestock. Also, because narrow straps appear to hold the entire weight of 
the animal, it is unlikely that the patented design could be used for an 
extended period of time without extreme discomfort to the animal. Yet 
another drawback is that the sex organs are apparently not exposed, so the 
apparatus is not usable for mating purposes. 
It is an object of the present invention to provide an animal support which 
overcomes the drawbacks and limitations of the prior art proposals. More 
specifically, the present invention has the following as its objects: (1) 
to develop an animal sing which may be slid under downed livestock permit 
the livestock to be raised to an elevated position held there for a 
substantial period for time; (2) to provide an apparatus for supporting an 
animal while leaving the sex organs and udders exposed to prevent injury 
and to permit mating; (3) the development of means for restraining animals 
which may be usable during birthing, milking, nursing, artificial 
insemination, medical procedures, weighing, and similar activities; and 
(4) the provision of an animal sling which is adjustable to accommodate 
animals of widely differing sizes. 
SUMMARY OF THE INVENTION 
The present invention achieves the above objects by providing a sling for a 
four-legged animal which includes the following components: a pair of 
longitudinally extending poles; a plurality of longitudinally spaced, 
transversely extending straps mounted between the poles; centrally 
disposed web means extending between adjacent transverse straps for 
supporting the belly of the animal; a pair of generally longitudinally 
extending leg straps mounted between the transverse straps, the transverse 
and longitudinal leg straps and the web collectively defining four leg 
openings and an udder/genital opening. 
The invention thus provides an animal sling which permits livestock or 
other large animals to be raised off the ground and held there for 
extended periods of time during which the animal can recover from injury 
or illness, can be mated or artificially inseminated, can be milked or 
nursed, can give birth or can be held for shipment or for other purposes, 
without resulting in discomfort or injury to the animal. Other objects, 
features and advantages of the present invention will become apparent upon 
reading the following detailed description in conjunction with the 
accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
Construction of the Embodiment of FIGS. 1-6. 
The objects of the present invention are particularly well-achieved when 
the invention takes the form of the embodiment depicted in FIGS. 1-6, the 
sling being generally indicated with the numeral 10. Sling 10 includes a 
pair of longitudinally extending poles 12 which are of sufficient length 
and weight to support the type of animal for which the sling is to be 
used. For cattle, it has been found that one and one half inch diameter 
galvanized steel pipe is appropriate. A pair of suitable eyelets 14 are 
mounted to each pole 12 to permit sling 10 to be mounted to a suitable 
power elevation means 16, to be described below. 
A plurality of longitudinally spaced, transversely extending straps 18 are 
looped around and extend downwardly from each of the poles 12 to provide 
the primary weight support means for the sling. Many of the so-called 
transverse straps 18 extend all the way between the two support poles 12, 
but some of these straps are shorter in length and therefore do not 
interconnect across the poles. Transverse straps 18, as well as all other 
straps to be described below, are formed of a suitably strong material 
such as nylon, to give the sling sufficient strength. It is desirable that 
transverse straps 18 be removable from poles 12 for cleaning, repair or 
other purposes, but that they remain fixed in position with respect to the 
poles during use of the sling. For this reason, the end-most transverse 
straps are typically removably mounted to the poles 18 such as by bolting. 
For the purpose of simplification, this affixation means has not been 
depicted. 
A web means or webbing 20 extends between adjacent transverse straps 18 at 
the forward end of the sling 10 along the underside thereof to provide 
support to the belly of the animal, such as a cow 22, which is to be 
lifted by sling 10. Webbing 20 is typically sewn to transverse straps 18, 
but may be fastened by other means as well. Webbing 20 is also typically 
formed of nylon in a pattern which is porous so that the skin of the 
animal 22 is permitted to breathe. This enhances the long-term feature of 
the invention by minimizing the possibility of damage to the hide of the 
animal, yet reduces the amount of pressure applied to particular points of 
the belly which could be a problem if transverse straps were used alone. 
Webbing 20 extends forwardly to the forward-most transverse strap as shown 
in FIG. 1 so that a substantial portion of the underside of the animal 22 
is being held by the webbing. A pair of front leg openings 24 are defined 
by webbing 20 as a result of the narrowed configuration of the forward 
part of the webbing. 
It is a desirable feature of the invention that some of the rear-most 
transverse straps 18 be relatively short in length, and terminate in 
slotted buckles, such as shown at 26 in FIGS. 1 and 2. In the depicted 
sling 10, five of the rear-most transverse straps have been identified 
with the designations 18a, b, c, d and e and will sometimes be referred to 
herein as leg support straps. Straps 18a-e are shown to terminate in 
downwardly extending slotted buckles 26 of conventional design, comprising 
a central member (not shown) around which transverse straps 18a-e are 
looped and sewn, thereby defining a pair of slots through which another 
strap may extend. Either all or some of these rear-most transverse straps 
18a-e (leg support straps) include rearwardly extending slotted buckles 
26, for purposes to be described below. 
A plurality of longitudinally extending alignment straps 30 extend from end 
to end of sling 10, and are typically affixed such as by sewing to each of 
the transverse straps 18 so that the alignment of the transverse straps is 
maintained. As shown in FIGS. 1 and 2, the second alignment strap on one 
side of the sling 10 has been identified as 30a and is mounted to 
transverse straps 18d and e by a so-called pin buckle 32 which is shown in 
detail in FIGS. 5 and 6. Two pin buckles are provided, and are 
individually identified in FIGS. 1-4 as 32 a and b. Pin buckles 32 provide 
a means by which second alignment strap 30a may be affixed with respect to 
downwardly extending transverse straps 18 d and e to prevent relative 
sliding, but which permits the alignment straps to be removed from the 
buckle and from attachment to the transverse strap to permit the sling 10 
to be adjusted to accommodate smaller animals. This will be explained in 
more detail below. 
The structure of pin buckles 32 is relatively simple, comprising a single 
metal piece having a rigid pin 34 extending outwardly from a central 
member 36. The buckle includes a pair of slots 38 adjacent each end, to 
which two halves of a single transverse strap 18 may be mounted. Thus, pin 
buckle 32 becomes a permanent part of each of transverse straps 18d and e. 
A pair of side members 40 extend along the sides of pin buckle 32, thereby 
defining a pair of transverse slots 42 through which alignment strap 30a 
is adapted to extend. Alignment strap 30a is provided with spaced 
apertures 44, each of which is adapted to receive a pin 34 of a pin buckle 
32. This engagement of aperture 44 with pin 34 prevents any sliding of 
alignment strap 30 through pin buckle 32. 
The second alignment strap on the opposite side of the sling from alignment 
strap 30a has been designated with numeral 30b. Strap 30b terminates in a 
rearwardly extending slotted buckle 46 which permits engagement with the 
end of alignment strap 30a which extends around the rear of the animal 22. 
A pair of generally rearwardly and longitudinally extending leg straps 48 
extend between each of the rear legs of the animal 22 and the animal's 
udder or sex organs, thereby defining a pair of leg openings 50 and an 
udder/genital opening 55 and providing support to the rear portion of the 
animal. Each longitudinal leg strap 48 is preferably padded in some way 
where it contacts the animal's leg. This padding will normally be in the 
form of a soft rubber tube (not shown) or the like. At their forward end, 
each of the longitudinal leg straps 48 is mounted to a generally 
diagonally extending strap 52 which, in the depicted embodiment, extends 
across a substantial portion of the length of the sling 10, and is affixed 
such as by sewing to several of the transverse straps 18. The rear end of 
each of the longitudinal leg straps 48 is mounted to one of the downwardly 
extending slotted buckles 26 at the end of one of the transverse straps 
18a-e. A cross piece 49 extends between the two longitudinal leg straps 48 
to define the rearward end of the udder/genital opening 55. 
As mentioned above, sling 10 is adapted to be used with power elevation 
means such as that shown generally at 16 to permit the animal 22 to be 
lifted off the ground. The power elevation means 16 may be of a wide 
variety of different conventional designs. It is often important to be 
able to accurately position the angulation of the animal 22 in a linear 
plane. This is particularly true where the sling is being used to promote 
healing of leg injuries where it is important that the amount of weight 
put on any one of the limbs be capable of being accurately controlled. To 
provide this capability, a pair of sling mounting members 54 and 56 is 
provided. The two sling mounting members 54 and 56 are of identical 
design, each including a transversely extending rod 58 having an upwardly 
extending loop 60 and a pair of downwardly extending oblong loops 62 which 
are adapted to engage eyelets 14 mounted to poles 12. A so-called 
come-a-long 64 is mounted to each of the upwardly extending loops 60 of 
transverse rods 58, each come-a-long 64 having an adjustment handle 66 
extending therefrom. The come-a-longs 64 are conventional, each being a 
simple ratchet-type hand wrench which permits either end of the sling 10 
to be slightly raised or lowered as necessary to accurately control the 
elevation of each end. In the depicted embodiment, each come-a-long 64 is 
mounted to a cable 68 having a hook 70 which may be mounted to the shovel 
72 of a front-end loader or other means for providing a power lift 
capability. 
Operation of the Embodiment of FIGS. 1-6 
To explain the operation or use of the depicted sling 10, it will be 
assumed that the animal 22 to be supported is ill or injured and is down 
on its side. Prior to putting the animal into the sling, the sling should 
be sized for the animal. To do this, the animal should be measured from 
its shoulder to its tail as shown in FIGS. 3 and 4. Markings 74 
corresponding to this measurement are placed at spaced intervals along 
each of the longitudinal leg straps 48 so that the forward end of each of 
the longitudinal leg straps can be fastened to each of the diagonal straps 
52 at slotted buckles 53 at the appropriate marking on that longitudinal 
leg strap. For larger animals, such as those measuring 72 inches from 
shoulder to tail, the back end of each of the longitudinal leg straps 48 
is mounted to the downwardly extending slotted buckle 26 of the rear-most 
transverse strap 18e, as shown in FIG. 3. For this size animal, alignment 
strap 30a passes through both pin buckles 32a and b, and then across the 
rear of the animal and is connected to alignment strap 30b by rearwardly 
extending slotted buckle 46. 
To accommodate a somewhat smaller cow, such as one measuring 66 inches from 
shoulder to tail, the back end of each of the longitudinal leg straps 48 
is buckled to the second rear-most transverse strap 18d as shown in FIG. 
4. The forward end of each of the longitudinal leg straps 48 is tightened 
with respect to each of the diagonal straps 52 by pulling the leg straps 
through buckle 53 until the appropriate 66 inch marking line on the 
longitudinal leg strap is adjacent that buckle. Alignment strap 30a is 
then removed from pin buckle 32b by disengaging the connection of pin 34 
in aperture 44 and by pulling the strap out. Alignment strap 30a is passed 
across the rear of the animal and is engaged with the rearwardly extending 
slotted buckle on transverse strap 18d, as shown in FIG. 1. 
To prevent webbing 20 from contacting the udder of this smaller animal, the 
webbing is doubled back over itself as shown in FIG. 4. This is done by 
disengaging transverse strap 18a from slotted buckle 26 on each side of 
the sling, and then by doubling the webbing over itself and engaging 
buckle 51, also as shown in FIG. 4. For even smaller cows and smaller 
livestock such as sheep and goats, webbing 20 is maintained in this 
doubled-over condition. Each of the longitudinal leg straps 48 may be 
further tightened with respect to each diagonal strap 52 as necessary to 
the appropriate marking on the longitudinal leg straps. The rear end of 
each longitudinal leg strap may be mounted to transverse strap 18a, b or c 
to fit the animal being hoisted. 
Once the sling 10 is fitted to the size of the animal being hoisted, the 
sling may be slid under the downed animal and the animal's legs should be 
passed through front leg openings 24 and rear leg openings 50. The 
transverse rods 58 and the associated hardware is then mounted to poles 12 
and to the load lifting means 72, and the animal is slowly raised off the 
ground. 
Because the animal is stable in this position, it may be transported from a 
distant field back to the barn or other housing facility. Because the 
weight of the animal 22 is evenly distributed, it may be maintained in an 
elevated condition for extended periods of time without discomfort or 
injury to the animal. Once the animal is healed, it may be slowly lowered 
to the ground, with the legs bearing at first a small part of the weight 
of the animal, with this amount being increased on a regular basis until 
the animal is ready to support its weight. If the sling 10 is being used 
for artificial insemination or birthing, the rear end of the animal may be 
elevated with respect to the front end for easier access. 
To release the animal 22 from the sling 10, the animal is first lowered to 
the ground and the two sling mounting members 54 and 56 are disconnected 
from eyelets 14. This permits the sling to drop to the ground, permitting 
the animal to merely walk out of it. 
The Embodiment of FIG. 7 
The embodiment of FIG. 7 is identical in all respects to sling 10 depicted 
in FIGS. 1-6 except for the rearward portion. Because of the similarity, 
this embodiment will only be briefly described and has been only 
fragmentarily depicted. Components of this second preferred embodiment 
have been identified with corresponding numerals in the 100 series. This 
embodiment of the sling has therefore been generally identified with the 
numeral 110. 
The basic difference between the slings of the first and second embodiments 
is that the longitudinal leg straps 148 of sling 110 cross each other, 
thereby deleting the need for a cross piece such as 49. Like cross piece 
49 of sling 10, the rearward end of the udder/genital opening 155 is 
defined by the point 149 at which the longitudinal leg straps cross. The 
crossing of longitudinal leg straps 148 replaces the need for a strap 
extending around the rear of the animal. Therefore, the second alignment 
straps 30a and b can be fixed to transverse straps 18d and e, and pin 
buckles 32a and b are rendered unnecessary. In all other respects, the two 
slings are identical. 
FIG. 7 shows longitudinal leg straps 148 attached to the second from the 
last transverse straps 18d to accommodate a medium size cow. To adjust 
sling 110 for a larger or smaller animal, the longitudinal leg straps 148 
are simply shifted forwardly or rearwardly to one of the other transverse 
straps 118a, b, c or e. For this reason, the design of sling 110 is 
actually preferable to that of sling 10. 
It should be understood that various changes and modifications to the 
preferred embodiment described herein will be apparent to those skilled in 
the art. These and other changes and modifications can be made without 
departing from the spirit and scope of the present invention and without 
diminishing its attendant advantages. It is, therefore, intended that such 
changes and modifications be covered by the following claims.