Clamping device for use in sharpening shears and the like

An improved clamping device for use in sharpening shears and the like with a grinding wheel wherein the shear blade is rigidly clamped onto a counterbalanced support member that is secured to a base member for free pivotal movement with respect thereto. The blade is clamped by a clamping assembly which includes a detachable spring-biased plate and a camming lever. The degree of free pivotal movement of the support member is adjustable for the purpose of presetting the desired grinding angle.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The present invention relates generally to work holders for securing a tool 
that is being worked upon by a machine or similar such device. More 
particularly, the present invention is directed to a device for clamping 
the blade of a shear or similar tool for sharpening by means of a grinding 
or abrasive wheel. Such clamping devices are normally provided with 
certain adjustability features to permit the adaptation of the device to 
the specific structural configuration and required grinding angle of the 
shear blade being sharpened. 
2. Description of the Prior Art 
The prior art is replete with various forms of work holders or clamping 
devices whereby knife blades, sharp tools or shear blades may be secured 
for sharpening by means of a grinding or abrasive wheel. These devices 
manifest different forms of clamping arrangements for securing the blade 
to be sharpened to the general body of the device itself, and also various 
forms of provisions for adjusting the angular disposition of the blade 
with respect to the grinding wheel for achieving the optimum grinding 
angle. 
Such prior art devices may generally be classified into two broad groups. 
First, there are those independent, manually held and guided clamping 
devices which are not structurally associated or physically integral with 
the grinding wheel apparatus. Secondly, there are those clamping devices 
which are integrally or structurally associated with the grinding wheel 
apparatus such that their manner of use is limited specifically to the 
configuration and mounting arrangement of the grinding wheels with which 
they are associated. 
The main problems characteristic of work holders or clamping devices for 
securing a shear or similar blade to be sharpened by a grinding wheel are 
based primarily upon the manner in which the blade is clamped onto the 
device and the manner in which the grinding angle of the blade is adjusted 
with respect to the position of the grinding wheel in accordance with the 
blade's individual structure. There have been many prior art attempts to 
provide for a clamping device whereby the blade to be sharpened can be 
easily and rigidly secured to the device without loosening or twisting of 
either the blade or clamp mechanism during the grinding operation. In 
addition, such known clamping devices have also assumed various 
configurations in attempts to adapt them to a variety of individual blade 
shapes. These prior art clamping devices, be they independent or 
structurally associated with a grinding apparatus, normally are only 
operable with very basic and simple shear blade configurations and do not 
permit the effective clamping and sharpening of more complex shear blade 
structures such as those having a serrated or "pinking" edge 
configuration. Such prior art clamping devices further do not permit a 
very rigid and secure clamping of the blade with the usual result being 
that the blade tends to move or twist, thereby destroying the precise 
grinding angle and position required for proper sharpeneing. 
The critical problem of adjusting the precise required angle of the clamped 
blade with respect to the grinding wheel so that effective sharpening can 
be achieved is difficult to solve. Heretofore known devices manifest 
various forms of adjustment structures for achieving the desired grinding 
angle. However, the majority of these solutions are cumbersome, complex 
and expensive to produce. These devices are also almost invariably an 
integral part of the overall grinding apparatus since it has heretofore 
been difficult if not impossible to provide for an independent, manually 
operated clamping device which is both simple in structure and capable of 
precise grinding angle adjustment. 
SUMMARY OF THE INVENTION 
The clamping device of the present invention serves to overcome all the 
disadvantages and deficiencies inherent in the aforementioned known prior 
art devices. This is accomplished by providing for an improved clamping 
device which is in the form of an independent, manually held and operated 
unit that can be utilized with almost any known grinding or sharpening 
wheel apparatus. The clamping device of the invention includes a support 
member that is pivotally secured to a base member for free movement with 
respect thereto. The forward portion of the support member is structurally 
counterbalanced to pivot downwardly towards the grinding wheel. The rear 
portion of the support member is connected to the base member through an 
adjustment mechanism which permits the precise setting of the degree of 
free pivotal movement by the counterbalanced support member under the 
force of gravity, thereby setting the precise grinding angle. The shear 
blade is clamped upon the forward portion of the support member by a 
clamping assembly that includes a trapezoidal-shaped detachable clamping 
plate which has the shorter parallel side disposed adjacent an abutment 
formed in the support member to prevent twisting of the blade and 
subsequent loosening of the clamping plate due to the torque imposed upon 
the blade by the grinding wheel. The clamping plate is spring-biased away 
from the support member and pressed thereto by a camming lever mechanism 
which applies the necessary clamping force on the blade to be sharpened. 
The longer parallel side of the clamping plate is provided with an edge 
forming an acute angle with the horizontal plane of the plate, thereby 
permitting clearance room for the grinding wheel during extreme angular 
adjustments of the pivotal support member. 
It is therefore an object of the present invention to provide for a 
manually operated work holder or clamping device for rigidly securing a 
shear blade or the like at any given desired angle for sharpening by an 
independent grinding wheel. 
It is another object of the present invention to provide for a clamping 
device which is capable of rigidly and securely clamping a large variety 
of shear or similar blades of any given configuration for sharpening by a 
grinding wheel. 
It is still another object of the present invention to provide for a 
clamping device for shears and the like which is extremely simple in 
structure and economical to manufacture. 
It is yet another object of the present invention to provide for a clamping 
device which permits a rigid and secure clamping of a blade to be 
sharpened and the precise angular positioning of the blade with respect to 
the grinding wheel. 
It is yet a further object of the present invention to provide for a 
clamping device wherein the precise grinding angle is achieved by a simple 
adjustment in conjunction with the force of gravity. 
It is still yet another object of the present invention to provide for an 
independent, manually operated clamping device which can be adapted for 
use with a variety of grinding or sharpening wheel apparatus. 
It is still yet a further object of the present invention to provide for a 
clamping device for shears and the like wherein the shear blade may be 
inserted and clamped within the device at any desired position without the 
possibility of the clamping mechanism being loosened by the torque imposed 
upon the blade during the grinding operation. 
These and other objects of the present invention will be apparent from the 
following description and appended claims, reference being made to the 
accompanying drawings forming a part of this specification wherein like 
reference drawings designate corresponding parts in the several views.

BRIEF DESCRIPTION OF THE PREFERRED EMBODIMENT 
The present invention is depicted in FIGS. 1-4. A clamping device 100 is 
shown to include a base member 103, a support member 105 carried by base 
member 103 for free pivotal movement with respect thereto, and a clamping 
assembly 107. 
Referring to FIGS. 1 and 2, assembly 109 includes a shaft 111 having a bolt 
head 113 at one end and a threaded end 115 on which a nut 117 may be 
secured. Member 105 includes a pair of downwarly depending flanges 119 and 
121. Member 103 is provided with a pair of upstanding flanges 123 and 125 
disposed inwardly of flanges 119 and 121. A pair of coaxially aligned 
bores 127 and 129 are provided in flanges 123 and 125, respectively. 
Similarly, a pair of coaxially aligned bores 131 and 133 are provided in 
flanges 119 and 121, respectively. As is evident in FIG. 1, shaft 111 is 
freely journalled through bores 127, 129, 131 and 133, with head 113 and 
nut 117 extending beyond the outer ends of bores 131 and 133. A pair of 
enlarged recesses 135 and 137 are provided in the opposite end portions of 
member 105 for the purpose of accommodating head 113 and nut 117 in a 
countersunk manner. By virtue of this arrangement, member 105 is thus 
capable of free pivotal movement with respect to member 103. 
Member 105 is also provided with a front portion 139 and a rear portion 141 
disposed on opposite sides of the pivot axis defined by the longitudinal 
axis of shaft 111. The mass or weight of member 105 is controlled to 
dispose the majority thereof in front portion 139 so that the latter is 
always counterbalanced in a downward direction. In this manner, the 
pivotal axis as defined by shaft 111 is essentially disposed rearwardly of 
the center of gravity of member 105. 
The degree of free pivotal movement of member 105 is controlled and limited 
by means of a thumb screw 143 which is threadedly attached to an L-shaped 
bolt 145. The latter includes a right angled unthreaded leg portion 147 
which is pivotally secured to a third upstanding flange 149 provided on 
the upper surface of member 103. This is achieved by passing leg 147 
through a bore 151 formed in flange 149 and securing leg 147 therein 
against removal by means of a cotter pin 153 or similar fastening means. 
The threaded portion of bolt 145 is passed through an oversized aperture 
155 formed in rear portion 141 of member 105. A washer 157 is disposed 
between the lower portion of thumb screw 143 and the upper surface of rear 
portion 141. Since front portion 139 is counterbalanced in a downward 
direction, it is evident that by tightening or loosening thumb screw 143, 
the degree of free pivotal movement of member 105 can be controlled and 
limited as desired. 
Clamping assembly 107 of device 100 is particularly characterized by a 
U-shaped cam member 159 which is pivotally secured to front portion 139 by 
means of an eye bolt 161. This is achieved by means of a lock pin 163 
which is passed through a pair of aligned apertures 165 and 167 in the leg 
portions of member 159. Pin 163 also passes through an eye head 169 of 
bolt 167, which head 169 is disposed between the leg portions of member 
159. Member 159 is provided with an upstanding actuation handle 171. 
Device 100 includes a substantially trapezoidal shaped clamping plate 173 
having a longer parallel side 175 in the form of an acute angle edge and a 
shorter parallel side 177. Front portion 139 is provided with a vertical 
flange 179 having a longitudinal wall section 181 which is essentially the 
same length as and parallel to side 177 of plate 173. Eye bolt 161 also 
serves to secure plate 173 in its position above the upper surface of 
portion 139 by being disposed through an aperture 183 formed in plate 173. 
A spring 185 disposed within a recess 187 formed in front portion 139 
serves to bias plate 173 in an upward direction to thereby define a 
variable spacing between the lower portion of side 175 and the upper front 
surface of portion 139 for the purpose of securing a shear blade 189 
therebetween. Referring to FIG. 3, it can be seen that gaskets 191 and 193 
of resilient material, such as rubber or the like, may be disposed on the 
shear blade contact faces of plate 173 and the upper surface of portion 
139 for the purpose of further assuring a secure frictional clamping of 
blade 189. 
Bolt 161 is threadedly secured within threaded recess 195 of portion 139. A 
lock nut 197 and associated washer 199 are utilized to guard against 
accidental loosening or removal of bolt 161 during the sharpening 
operation. A second washer 201 is secured by bolt 161 and disposed between 
the lower portion of member 159 and the upper surface of plate 173. 
Camming member 159, as also depicted in FIG. 4, is shown to include four 
camming surfaces 159a, 159b, 159c and 159d. As is apparent from FIG. 2, 
once shear blade 189 has been disposed between plate 173 and the 
associated upper surface of portion 139 and positioned therebetween as 
desired for the sharpening operation, plate 137 may then be pressed 
tightly downwardly upon blade 189 so that the latter is firmly gripped 
between gaskets 191 and 193. This is achieved by pivoting handle 171 in 
either the forward or rearward direction for a distance of approximately 
25.degree. from the longitudinal axis of bolt 161. This in turn causes the 
respective pairs of surfaces 159a and 159b or 159c and 159d to rotate 
about pin 163 and contact the upper surface of washer 201 and thereby 
tightly press plate 173 against blade 189. Continued movement of handle 
171 then causes either pair of surfaces 159a and 159b or 159c and 159d, 
depending on which direction handle 171 is moved, to cam and lock 
themselves tightly down against washer 201 so that blade 189 is securely 
retained against movement. In this manner, the operator's hands are then 
freed to manipulate device 100 for the purpose of positioning blade 189 
against the grinding wheel. Once the sharpening operation has been 
completed, blade 189 is removed by pivoting handle 171 back to its 
original position to thereby free plate 173 from the camming action of 
member 159. While member 159 is depicted as having two pairs of camming 
surfaces in order to facilitate the operation of assembly 107, 
notwithstanding the direction in which handle 171 is pivoted, it is to be 
understood that member 159 may also function with only one pair of 
surfaces, in which case actuation of member 159 can only be achieved by 
pivoting handle 171 in the one direction corresponding to such surfaces. 
It is to be understood that the forms of the invention herewith shown and 
described are to be taken as preferred examples of the same, and that 
various changes in the shape, size and arrangement of parts may be 
resorted to without departing from the spirit of the invention or scope of 
the subjoined claims.