Field cultivator tool support mounting apparatus

A mounting apparatus for pivotally connecting a soil working tool to an agricultural tool bar. The mounting apparatus comprises a support bracket fastened to the tool bar by a U-bolt, a tool holding member which wraps around the tool and is pivotally connected at a medial point therealong to a lower end of the support bracket, and a biasing means connected to an upper end of the support bracket and pivotally attached by a connector member to the tool holder member at a position spaced from the connection of the support bracket and tool holder member. The support bracket is a one-piece channel shaped structure and comprises a web, side flanges, an upper connector lug for fastening same to the biasing means, pivotal means for allowing the tool holder member to rotate relative thereto, and stop means for limiting maximum rotation of the tool holder member. The support bracket attaches to the tool bar at cutouts on the outside edge of the flanges opposite the web thereby forming a strong rectangular structure therebetween. The support bracket is formed from a one-piece blank stamped from sheet metal stock.

BACKGROUND OF THE INVENTION 
The present invention relates to devices for pivotally mounting agriculture 
tools on mobile farm equipment such that the tools are urged into the 
ground but can pivot upwardly to bypass immovable obstructions such as 
rocks. 
Mounting devices for earth working tools are generally well-known; however, 
conventional devices have particular failings, especially with regard to 
strength versus relative size, ease of attaching and removing the devices 
from agricultural tool bars, economical and simple manufacture of such 
devices, and short life spans before repair or replacement is required. 
The present invention in conjunction with applicant's copending 
application Ser. No. 93,719 filed Nov. 13, 1979 entitled SPRING LOADED 
FIELD CULTIVATOR TOOL SUPPORT, now U.S. Pat. No. 4,281,719, is directed to 
improving such mounting devices to overcome the above mentioned problems. 
OBJECTS OF THE INVENTION 
Therefore, the principal objects of the present invention are: to provide 
an improved mounting apparatus for biased agricultural soil working tools; 
to provide such an apparatus which comprises a support bracket for 
clamping to a tool bar, a tool holder member pivotally connected to a 
lower end of the support bracket, and an extension spring attached to an 
upper end of the support bracket and to a free end of the tool holder 
member whereby the tool is urged into engagement with the soil at a 
predetermined level; to provide such a support bracket which is one-piece 
and easy to produce by sheet metal stamping and folding methods; to 
provide such a support bracket which forms a strong and stable attachment 
to the tool bar and is held thereto by only a single U-bolt; to provide 
such a support bracket which allows easy attachment to and disengagement 
from the tool bar with improved access to the fasteners thereof; to 
provide such a support bracket which forms a strong pivotal connection 
with the tool while remaining relatively light and small in size; to 
provide a blank and a method for producing such a support bracket from 
flat sheet metal stock; and to provide such a mounting apparatus which is 
capable of an extended useful life, is relatively inexpensive to produce, 
and is particularly well adapted for the proposed usage thereof. 
Other objects and advantages of this invention will become apparent from 
the following description taken in connection with the accompanying 
drawings wherein are set forth, by way of illustration and example, 
certain embodiments of this invention. 
SUMMARY OF THE INVENTION 
A one-piece mounting bracket is provided for pivotally mounting a 
cultivator tool on a tool bar and for supporting biasing means for urging 
the tool into ground engagement. The bracket is channel shaped and 
comprises a web, a pair of flanges projecting outwardly from opposite 
sides of the web, a connection lug projecting from the web in the opposite 
direction from the flanges for connecting the bracket to the biasing 
means, and stop means for limiting the pivotal rotation of the tool with 
respect to the bracket. Each flange has a cutout formed medially along the 
free edge thereof opposite the web for snugly receiving the tool bar. A 
U-bolt wraps around the tool bar and is fastened to the bracket by 
fastening means thereby securing the tool bar to the bracket and forming a 
strong and stable interconnection therebetween. A planar blank is formed 
by a process including the steps of bending and folding the blank into the 
strong and durable bracket. 
The drawings constitute a part of the specification and include exemplary 
embodiments of the present invention and illustrate various objects and 
features thereof.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
As required, detailed embodiments of the present invention are disclosed 
herein; however, it is to be understood that the disclosed embodiments are 
merely exemplary of the invention which may be embodied in various forms. 
Therefore, specific structural and functional details disclosed herein are 
not to be interpreted as limiting, but merely as a basis for the claims 
and as a representative basis for teaching one skilled in the art to 
variously employ the present invention in virtually any appropriately 
detailed structure. 
As illustrated in FIG. 1, the reference numeral 1 generally designates a 
mounting apparatus for pivotally connecting an agricultural or cultivator 
tool 3 having a shank 4 and a soil working tooth 5 to a mobile 
agricultural frame member or tool bar 6. The mounting apparatus 1 
comprises a support bracket 7 which embodies the present invention, a 
U-bolt 8, a tool holder member 9 and biasing means 10. 
For purposes of description herein the terms "front" and "forward" refer to 
the left as seen in FIG. 1. The terms "upper", "lower", "right", "left", 
"rear", "vertical", "horizontal", and derivatives thereof shall relate to 
the invention as oriented in FIGS. 1 through 4, however, it is to be 
understood that the invention may assume various alternative orientations, 
except where expressively specified to the contrary. 
The mounting apparatus 1 is secured to the tool bar 6 by means of the 
U-bolt 8 which fits snugly about the rear, top and bottom sides thereof 
and which is fastened to the support bracket 7 in a manner which will be 
described hereinafter. The illustrated biasing means 10 comprises an 
extension spring 11 and includes an upper connection portion 13 which 
attaches the spring 11 to an upper portion of the support bracket 7 by 
means which will also be described hereinafter. A lower end of the spring 
11 is pivotally attached by a connector member 14 to one end of the tool 
holder member 9. The connector member 14, as seen in FIG. 3, comprises a 
sleeve 15 having external bearing surfaces 16 on opposite ends thereof 
which thrust respectively against a pair of lips 17 on the tool holder 
member 9. A pivot pin 18 extends through the tool holder member 9 and 
through a bore 19 in the center of a connector 15, thus allowing the tool 
holder member 9, and consequently the tool shank 4 to rotate about a 
horizontal transverse axis of the pivot pin 18, with respect to the spring 
11. A threaded lug 20 extends upwardly from the connector member 15 and is 
fixedly attached to the spring 11 by winding the coils of the spring 11 
thereabout. 
The tool holder member 9 comprises an elongate channel-shaped structure 
having a substantially flat web or back portion 22 and downwardly 
extending side wall portions 23 and 24 on opposite sides of the back 
portion 22. Rearward sections of the side wall portions 23 and 24 are 
turned inwardly to form lips 25 and 26 respectively, which in conjunction 
with the side wall portions 23 and 24 and back portion 22 encircle or wrap 
around the shank 4 of the agricultural tool 3, such that the shank 4 
cannot move transversely relative to the tool holder member 9. A suitable 
fastener such as bolt 27, is passed through an aperture 28 in the tool 
holder member 9 and an aperture 29 in the shank 4 and secured therein by a 
nut 30 so as to prevent traverse movement of the tool shank 4 with respect 
to the tool holder member 9. A front end of the tool holder member back 
portion 22 is removed or cut out so as to allow pivotal movement of the 
connector member 15 while retaining sufficient structural material on each 
side thereof to constitute the lips 17 on which the bearing surfaces 16 
pivot respectively. Pivotal connection between support bracket 7 and the 
tool holder member 9 is provided by a sleeve 31 fixedly attached by 
welding or the like to the upper surface of the tool holder member back 
portion 22 and having therein a coaxial bushing 32 and an inner coaxial 
pivot pin 33 which is connected to the support bracket 7 by means which 
will be described hereinafter. The pivotal interconnection between the 
tool holder member 9 and the support bracket 7 is spaced from the pivotal 
interconnection of the tool holder member 9 with the spring 11, the axis 
of both pivot pins 18 and 33 being parallel. The spring 11 resiliently 
thrusts upwardly against a frontward portion of the tool holder member 9 
which tool holder member 9 pivots about the interconnection thereof with 
the support brackets 7, thus producing a lever effect and urging the soil 
tool 5 downwardly into the ground. 
The support bracket 7, as is best illustrated in FIG. 7, is a substantially 
channel shaped structure having a vertically oriented substantially flat 
backplate or web 40 and a pair of vertically extending flanges 41 and 42 
projecting outwardly from the sides of the web 40. The flanges 41 and 42 
are rearwardly projecting and are substantially coextensive. The flanges 
41 and 42 are slightly canted near the tops thereof toward each other. 
A connection lug 43 projects from an upper end of the support bracket 7. 
The connection lug 43 is channel shaped comprising a substantially flat 
web portion 44 having flange portions 45 and 46 projecting upwardly from 
each side thereof. The web portion 44, flange portions 45, and flange 
portion 46 are essentially extensions of the web 40 and flanges 41 and 42 
respectively bent at an angle with respect thereto, while maintaining the 
channel integrity thereof. Preferably the web portion 44 forms an angle 
with respect to the web 40 such that the latter is almost perpendicular to 
the former and such that the connection lug 43 extends forwardly of the 
remainder of the support bracket 7. An aperture 47 is laterally centered 
in the connection lug web portion 44 and receives the spring upper end 13 
therethrough. The spring 11 is secured to the connection lug 43 by a 
suitable fastener, such as a nut 48 (see FIG. 3). 
Projecting from a lower end of the web 40 and extending rearwardly 
therefrom is stop means or tab 51. The tab 51 forms an obtuse angle with 
web 40 and a portion thereof extends between the flanges 41 and 42 
abutting therewith along edges 52 and 53. In the illustrated embodiment, 
the tab 51 forms an angle in the nature of 115.degree. with respect to the 
web 40. A frontward surface 54 of the tab 51 engages a head 55 of the bolt 
27 on the tool holder member 9 when the agricultural tool 3 has been 
biased or urged into a maximum downward position relative to the support 
bracket 7. FIG. 3 shows the tool holder positioned in an attitude such 
that the tool 3 is in a maximum downward position, and the bolt head 55 is 
thrusting against the tab 51, thereby preventing further downward movement 
of the tool 3 relative to the mounting apparatus 1. FIG. 4 illustrates the 
relative location of the tab 51 and tool holder member 9 at such a time 
when the tool 3 is not in a maximum downward position and wherein the 
spring 11 is urging the tool 3 to the position illustrated in FIG. 3. 
The flanges 41 and 42 and the web 40 to a lesser extent are tapered from 
the bottom end thereof to the upper end thereof, thus providing greater 
strength at the lower end of the support bracket 7. Each of the flanges 41 
and 42 has a respective cutout 58 and 59 formed medially along the 
peripheral rearward edge thereof. The cutouts 58 and 59 are coextensive, 
are substantially parallel, and are horizontally spaced. Each of the 
cutouts 58 and 59 are shaped so as to snugly receive a front portion of 
the tool bar 6 therein. In addition, a front edge 60 and 61 of each cutout 
58 and 59 respectively, is preferably parallel to the web 40. The flanges 
41 and 42 extend below the web 40 forming ears 62 and 63 respectively. 
Each of the ears 62 and 63 form slight angles with respect to the flange 
associated therewith such that the ears 62 and 63 are parallel. A bottom 
edge 64 and 65 of each of the ears 62 and 63 respectively is slanted 
downwardly from the front to a medial portion thereof, thereafter same 
curve upwardly to meet the rear edges of the flanges 41 and 42 
respectively. Located in each of the ears 62 and 63 are apertures 66 and 
67 respectively. The apertures 66 and 67 are coaxial and constitute 
pivotal connection means between the support bracket 7 and tool holder 
member 9. The apertures 66 and 67 receive the pivot pin 33 therein such 
that the tool holder member 9 pivots about a horizontal axis of the pivot 
pin 33 in a vertical traverse plane on the support bracket 7 except that 
such pivoting is limited by the stop means or tab 51. 
Laterally centered and vertically spaced upon the web 40 are a pair of 
apertures 70 and 71. The apertures 70 and 71 are positioned so as to 
receive the ends of the top and bottom portion of the U-bolt 8 therein. 
When the U-bolt 8 is positioned around the tool bar 6, as illustrated in 
FIG. 3, the apertures 70 and 71 provide fastener receiver means for 
securing the mounting apparatus 1 to the tool bar 6. Each end of the 
U-bolt 8 is secured to the mounting bracket by a suitable fastener such as 
nuts 74 and 75 respectively, on the forward side of the web 40. In this 
manner the nuts 74 and 75 are easily accessible whenever it is desirable 
to secure the mounting apparatus 1 to the tool bar 6 or remove same 
therefrom, since neither the flanges 41 and 42 nor the tool bar 6, which 
are positioned on the rearward side of the web 40, hamper access thereto. 
The forward wall 6' of the tool bar 6, the support bracket web 40 and the 
flanges 41 and 42 define therebetween a substantially rectangular 
structure which provides greater strength than if the tool bar 6 rested 
directly upon the web 40. In addition, the tab 51 maintains the separation 
between the flanges 41 and 42, thereby adding additional strength to the 
construction. 
As is best illustrated in FIG. 6, the support bracket 7 is a single 
one-piece structure formed from a planar blank 80, illustrated in FIG. 6, 
having substantially uniform thickness and preferably being formed by 
stamping from sheet metal stock. The blank 80 has an elongated central web 
portion 81 which is divided into a medial part or segment 82, an upper end 
or segment 83, and a lower end or segment 84. Extending outwardly from the 
web portion 81 are flange portions 86 and 87. Rectangularly shaped cutout 
portions 89 and 90 are included along the outer edge of the flange 
portions 86 and 87 respectively. Circular apertures 91 and 92 are 
positioned near the bottom of each of the flanges 86 and 87 respectively. 
Laterally centered and vertically spaced apertures 93 and 94 are 
positioned along the web portion medial segment 82. Another circular 
aperture 95 is centered in the web portion upper segment 83. 
The blank 80 is formed into the support bracket 7 by folding or braking the 
flange portions 86 and 87 into substantially perpendicular relationship to 
the web portion 81 along fold lines 97 and 98 respectively. The web 
portion upper segment 83 along with attached flange portion medial segment 
82 are folded along line 99, preferably at an angle near to 90 degrees 
with respect to the web portion medial segment 82 in a direction opposite 
the direction in which the flange portions 86 and 87 were folded. The 
material of construction of the blank 80 must be malleable enough to 
prevent breakage or fracture during such bending. The web portion lower 
segment 84 is also bent with respect to the web portion medial segment 81 
in the same direction in which the flange portions 86 and 87 were bent 
along fold line 100, preferably in the nature of about 115.degree. 
relative to the web portion medial segment 82. The lower ends 101 and 102 
of the flange portions 86 and 87 respectively are bent slightly with 
respect to the remainder of the flange portions 86 and 87 so as to be 
parallel with each other. The web portion lower segment 84 extends between 
the flange portions 86 and 87 after folding and bending respectively. The 
channel integrity of the web portion 81 and folded flange portions 86 and 
87 is maintained throughout the production of the support bracket 7. After 
all steps are completed, the flange portions 86 and 87 comprise support 
flanges 41 and 42, the web portion medial segment 82 becomes the support 
bracket web 40, the web portion upper segment 83 along with attached 
flange portions becomes the support bracket connection lug 43, and the web 
portion lower segment 84 becomes the support bracket tab 51. 
In use the mounting apparatus 1 is utilized to attach the agricultural or 
cultivator tool 3 to the mobile farm equipment frame member or tool bar 6, 
as illustrated in FIG. 1. The support bracket 7 provides exceptionally 
stable support to the mounting apparatus 1 even though same is attached to 
the tool bar 6 by a single U-bolt 8. As is also illustrated in FIG. 1 in 
phantom and solid line views, the agricultural tool 3 pivots relative to 
the support bracket 7 on the pivot pin 33, such that the tooth 5 can rise 
above obstructions such as rocks, etc. The spring 11 maintains a constant 
force upon the end of the tool holder member 9 so as to lever and urge the 
tooth 5 into a predetermined depth in the soil which is being cultivated 
thereby. The position of the stop tab 51 and bolt head 55 determine the 
maximum depth which the soil tooth 5 may achieve relative to the mounting 
apparatus 1. This maximum depth may be adjusted by shimming the bolt 27 so 
as to raise the head 55 or by changing the angle on the stop tab 51. 
It is to be understood that while certain embodiments of the present 
invention have been illustrated and described herein, it is not to be 
limited to the specific forms or arrangement of parts herein described and 
shown.