US3169560A

US3169560A - Binder strap tool

Info

Publication number: US3169560A
Application number: US178332A
Authority: US
Inventors: Jack E Caveney; Roy A Moody
Original assignee: Panduit Corp
Current assignee: Panduit Corp
Priority date: 1962-03-08
Filing date: 1962-03-08
Publication date: 1965-02-16
Anticipated expiration: 1982-02-16
Also published as: DE1277112B; GB1031684A

Description

1965 J. E. CAVENEY ETAL 3,169,569

BINDER STRAP TOOL Filed March 8, 1962 2 Sheets-Sheet l Jack 311. om) E uS BY [R39 A. "1 Mm QPOQUML Feb. 16, 1965 J. E. CAVENEY ETAL. 3,169,560

BINDER STRAP TOOL Filed March 8, 1962 2 Sheets-Sheet 2 Jacky: ILLV TORS United States Patent C) BINDER STRAP TOOL Jack E. Caveney, Chicago, and Roy A. Moody, Riverdale, 111., assignors to Panduit Corporation, Tinley Park, Ill., a corporation of Illinois Filed Mar. 8, 1962, Ser. No. 178,332 13 Claims. (Cl. 140123.6)

This invention, relates to the art of binder strap applying tools and particularly to an improved tool for tensioning and securing a flexible binder strap around a bundle of wires, or the like.

When wiring complicated electrical and electronic installations as on electric control panels, automobiles, aircraft and others where a plurality of electrical components are wired together in dilferent ways, it is customary to direct adjacent wires along close parallel paths for neatness and for facility of visual location by binding them together with string, straps, tape or other forms of wiring binders. There are adjustable binders which can accommodate a wide range of bundle sizes and, although some are releasable for reuse, there is a type which is not intended for reuse, once attached. It is the principal object of this invention to provide an improved tool which is particularly adapted to tension and secure the non-reusable type of binder around a bunrlle of wires and thereafter immediately cut oii any extending free length of strap end left over.

It is still another object of the invention to provide such a tool which automatically severs the free length of strap end when a pre-determined tension is reached in the binder strap portion encircling the bundle.

It is another object of the invention to provide such a tool which can be adjusted to pre-set the pre-determined tension to be reached before severing the free length of strap end and which is easily adjusted in a simple and quick manner.

Another object is to provide a tool of the type mentioned which insures that the tension in the strap is substantially uniformly the same from strap to strap regardless of the strength and lack of skill of the tool operator.

It is still another object to provide a tool which is relatively inexpensive to manufacture, and of simple yet durable construction.

It is still another object of the invention to provide such a tool which can be used with binder straps of different widths and thicknesses and hardness of material without alteration in the structure ofthe tool. This is primarily because of the adjustment for the cutotf at any pre-determined strap tension.

It is another object to provide such a tool having a tensioning gripper which is self energized to automatically grip a strap when tensioning is to be started and which is automatically caused to be released from the strap after tensioning and-cutoif is completed.

Other objects and advantages of the invention can be bettter understood by referring to the drawings in which FIG. 1 shows a perspective view of the hand of a worker tensioning a binder strap onto a bundle of wires by means of a tool embodying the features of this invention;

FIG. 2 shows a partially cutaway .and partial sec tional view of the operating end portions of the tool shown in FIG. 1; j

FIG. 3 shows a left side view of the tool portion shown in FIG. 2;

FIG. 4 shows a right side View of the .tool portion shown in FIG. 2; I

FIG. 5 shows a sectional view as viewed along the line 55 of FIG. 2;

3,169,566 Patented Feb. 16, 1965 "ice FIG. 6 shows a full view of the same portions of the tool shown in FIG. 2 except with a binder strap in position in the tool and the parts moved to an advanced relative position during strap tensioning; and

FIG. 7 shows a right portion of the tool portion shown in FIG. 6 except in partial cutaway end section and in still more advanced relative position of the tool parts as the tool appears as the free strap end is severed.

As shown in FIG. 1, a preferred embodiment of the tool 1 of this invention is used to tension and secure a binder strap 2 around a bundle of closely positioned parallel extending Wires 3. The binder straps can be of different constructions, but the type indicated consists or" a single length of strap having an enlarged wedge shaped end and surrounded by a sleeve 2a through which the free end of the strap is passed after it is encircled about the bundle into a loop. As the free strap end is drawn taut through the sleeve 2a, the strap tension urges the enlarged wedge shaped strap end into tighter engagement with the sleeve. Teeth can be provided on both the strap end and the enlarged end which mate with each other in order to check or retain the tension once reached. A binder strap of the type mentioned is shown in our copending'application entitled Binder Strap, Serial No. 178,331, filed March 8, 1962.

The tool 1 consists essentially of two

lower handles

4 and 5 pivoted together by means of a pin 6. Attached to the upper ends of the handles are two

jaw members

7 and 8 which carry the mechanism for causing the strap to be tensioned and cut ofi.

In more detail, referring to FIGS. 2 to 7, the lower handles are channel shaped in cross-section and covered with tight fitting plastic or rubber covers for purposes of comfort and appearance. The handle 4 is provided with 'two parallel and spaced apart ears 4:: and 4b which overlap corresponding

shaped ears

5a and 5b projecting from the handle 5. The ears 4a and 4b are ofiset laterally by the thickness of the

ears

5a and 5b in order to allow the said overlap. The pivot pin 6 extends through aligned holes 40, 5c, 5d, 4d in the

ears

4a, 5a, 5b, 4b, respec tively, in order to pivot the

handles

4 and 5, together. The pin 6 is provided with two annular recesses 6a and 6b which permit movement of the

ears

5a and 5b relative to the pin 6 and create an eccentricity between the holes 50 and 5d and the pin 6.

The handle 4 has secured in a fixed position within its channel portion between its two parallel walls the jaw member 7 which is secured in place by means of a drive pin 9 and a screw 10, both of which extend through both walls of the handle 4 and the jaw member 7. The jaw member 7 is narrowed to accommodate'a shear blade 11 which is held'in a slidable'position along the member 7 by means of a T-shaped stud 12 extending through a slot 13 provided in the shear blade 11. The shear blade 11 is also positioned between the wall 4e of the handle 4 and the member 7 to prevent pivotal movement of the shear blade 11 on the stud 12. The lower portion of the shear blade 11 is provided with sharp sawtooth shaped teeth 11a which face in the direction toward the other handle 5. The upper endof'the jaw member 7 is provided with a passage 7a formed between the lower wall of a projection 7b and another wall on the jaw member 7. The'projection 7b extends beyond the main body of the jaw member 7 where it is in alignment with the cutting edge 11b of the shear blade 11 where it can act as a reaction surface for the shear blade 11.

The handle 5 has secured in a fixed position within its channel portion between its two parallel walls the jaw member 8 which is secured in place by means of a drive pin 14 and a screw 15, both of which extend through both walls of the handle 5 and the jaw member 8. The jaw member 8 is provided with a rectangular recess 16 which accommodates a strap gripper 17 pivoted to the jaw member 8 by means of a screw 18. The strap gripper 17 is recessed on its hidden side to accommodate a spring 19 which reacts between'the gripper 17 and the jaw member 8 to urge the gripper 17 counterclockwise, as viewed in FIGS. 2 and 6, toward the wall 20 of the recess 16. The gripper 17 is provided with sharp sawtooth shaped teeth 17a along its upper surface.

Keyed within a transverse recess 21 of the jaw 8, by means of projections 22 and 23, is a shear blade actuator 24 which is provided at its free end with sharp sawtooth shaped teeth 24a positioned adjacent to the region of the teeth 11a on the shear blade 11 and directed to mesh with the teeth 11a when engaged with them, as later described. This shear blade actuator 24 is provided with a hole'24c somewhat larger than the diameter of the pin 6 which also passes through it. Alongside the free end of the actuator 24 is a thinner portion 7c of the jaw member 7 which provides a recess for freely receiving the toothed or free end portion of the actuator 24. The opposite end 24b of the shear actuator 24 is threaded and projects through holes in two

yokes

25 and 26. The yokes are provided as carriers for two outboard mounted

springs

27 and 28. The yoke 25 is pivoted'onto the outer ends of the pin 6 and provided with two laterally directed flanges 25a and 25b. The yoke 26 has two arms 26a and 26b which carry the

springs

27 and 28 around them and extend freely through openings in the flanges 25a and 25b. In this manner, the

springs

27 and 28 are held captive. The threaded end 24b is engaged with a thumb nut 29 and adjustment of the nut along the threaded end 24b adjusts the compression of the

spring

27 and 28. Movement otthe nut 29 onto the threaded portion 24b causes the

springs

27 and 28 to be compressed. The force of the springs urges the shear blade actuator 24 away from the shear blade 11 in order.

to keep the teeth 24a disengaged from the teeth 11a. The holes 50, 24c and 5d of a diameter larger than that of the pin 6 allow this separated condition of the teeth, and the condition is clearly shown in FIG. 5. At a time when the compressive force of the

springs

27 and 28 is overcome, the shear blade actuator 24 is free to be moved toward the shear blade 11 so that the teeth 24a can engage the teeth 11a. The engaged condition of the teeth is shown in FIG. 7.

In order to cause return of the

handles

4 and 5 and the

jaw members

7 and 8 from their positions shown in FIG. 6 to those shown in FIG. 2, a compression spring 30 may be mounted between recesses in the

jaw members

7 and 8. p

In operation, the parts of the tool 1 are allowed to move to their positions as shown in FIGS. 2, 3, 4 and 5 by force of the compression spring 30. Then, the free end 2b of a binder strap 2 is inserted through the passage 7a of the jaw member 7 after being encircled around a bundle of wires 3 and through the connector sleeve 2a. The free end 2b is extended through the recess 16 in the jaw member 8 and past the teeth 17a of the strap gripper 17 which is then held rotated clockwise by means of a projection 31 on the jaw member 7. The

handles

4 and 5 are moved toward each other and, as they are, the projection 31 is separated from the strap gripper 17 to allow the teeth 17a of the strap gripper 17 to grip the strap end 2b as the gripper is allowed to rotate against it. As the

handles

4 and 5 continue to be moved toward each other, the gripper 17 causes the strap end 2b to be pulled and thereby tensioned around the bundle of wires 3.

As soon as a certain tension is reached corresponding to the force of compression existing in the

springs

27 and 28 determined by the setting of the thumb nut 29.

on the threaded portion 24b of the shear blade actuator 24, the actuator 24 is caused to be moved toward the shear blade 11 upon continued movement of the handles 4 and'5 toward each other. When the teeth 24a en gage the teeth 11a, continued movement of the

handles

4 and 5 causes the actuator 24 to elevate the shear blade 11 from its position shown in FIG. 6 to that as shown in FIG. 7. This action occurs because the actuator 24 pivots integrally with the handle 5 since it is rigidly attached to it. As the shear blade 11 reaches its final movement, its cutting edge 11b severs through the strap end 2b to sever it from the remainder of the binder strap 2 adjacent to the sleeve 2a. During the actual severing of the strap, the inherent resilience of the tensioned strap portion 2b between the

jaws

7 and 8, and the yielding of the tensioned strap at the place where the cutting edge 11b of the blade engages and penetrates the strap, permits that final increment of motion of the handle 5 and the actuator 24 with respect to the handle 4 necessary to cause the final movement of the shear blade 11 prior to the parting of the strap. In this connection it may be noted that, because the strap is tensioned between the

jaws

7 and 8 during the severing action, the strap will actually part before the blade 11 has passed entirely through the strap. 7

The stroke of the

handles

4 and 5 is limited by tw stops 32 and 33 which are surrounded by the ends of the spring 30. In case one full stroke or less does not cause enough tension to be reached in the binder strap 2 to cause shearing, the handles can be released and a new stroke taken.

Upon completion of the shearing of the strap end 2b, the cutoff end is removed from the tool and the handles are again allowed to separate and the

jaw members

7 and 8 are brought together by force of the spring 30. As they go together, the projection 31 again causes the strap gripper 17 to pivot clockwise to clear the upper portion of the recess '16 for the reception of another strap end 2b during the next strapping cycle.

To further understand the movement of the shear blade actuator 24 toward the shear blade 11, an explanation of the forces involved should be helpful. The forces tending to overcome the compressive forces of the

springs

27 and 28 are the tensional force developed in the strap positioned between the two

jaw members

7 and 8 plus the force manually applied to the

handles

4 and 5. It is when the sum of the tensioned force developed in the strap plus the force applied to the handles, exceeds the compressive forces of the springs that the actuator is moved toward the shear blade 11 to actuate it.

It has been previously described that the

holes

50, 25 and 5d are of a diameter larger than that of the pin 6 to allow movement of the shear blade actuator 24 toward the shear blade 11. Annular recesses 6a and 6b are provided in the pivot pin 6 for aiding in this movement. Other constructions are possible -for the same purpose. The pin 6 can be made smooth without annular recesses 6a and 6b provided holes 50 and 5d are made of large diameter, or the holes 50 and 5d can be made as oval or elongated slots with a width equal to the pivot pin diameter.

Since the return spring 30 reacts in the same direction as the

springs

27 and 28, it should be as weak as possible so that its force does not dominate to determine the time of actuation of the shear blade 11. In fact, it can be entirely eliminated without impairing the functioning of the tool other than by requiring the

handles

4 and 5 to be manually returned.

Although only a single embodiment of the invention has been shown and described, it should be clearly understood that the invention can be made in other different ways without departing from the true scope of the inventioned as defined by the appended claims.

We claim:

1. A tool for tensioninga strap comprising, two jaw members joined together to provide relative movement between them, the first jaw member having means to restrain movement of one end of said strap, the second jaw member having means for gripping the other end of said strap, the relative movement in' one direction between the jaw members causing the strap to be tensioned, a shear blade mounted forrnovement adjacent said first jaw member, an actuator for said shearblade, and bias means to prevent said actuator from actuating said shear blade until a pre-determined tension is reached in said strap.

2. A tool defined by claim 1 characterized by, said bias means being adjustable to vary the amount of predatormined tension required to be reached in said strap before said shear blade is actuated.

3. A hand tool for tensioning a strap comprising, two jaw members joined together to permit relative movement between them, the first jaw member having means to restrain movement of one end of said strap, the second jaw member having means for gripping the other end of said strap, jaw operating means for applying force to said jaw members to provide relative movement therebetween to cause said strap to be tensioned, a shear blade mounted for strap severing movement adjacent said first jaw member, actuating means for said shear blade, said actuating means being movable by said jaw operating means for actuating said shear blade, and bias means restraining movement of said actutaing means to prevent said actuating means form acuating said shear blade until a predetermined tension is reached in said strap, said bias means being overcome when the effect thereon of the predetermined tension in the strap \and of the force required to be applied to said jaw operating means to produce said predetermined tension, exceeds the force of said bias means.

4. A binder strap tool comprising two jaw members pivotally secured together to provide relative angular movement between them, the first said jaw having means against which the connector end of binder strap loop encircled about an object can be held, the second said jaw member having thereon a strap gripper for gripping the free end of said binder strap loop extending from said connector end, the relative angular movement between the jaw members causing the free end to be pulled away from said connector end to cause said strap loop to shrink in size and be tensioned onto said object, a shear blade mounted for movement along said first jaw member, an actuator for said shear blade, and bias means to prevent said actuator from actuating said shear blade until a predetermined tension is reached in said binder strap loop.

5. A tool for tensioning a strap comprising, two jaw members pivotally joined together to provide relative pivotal movement between them, the first jaw member having means to restrain movement of one end of said strap, the second jaw member having means for gripping the other end of said strap, the relative pivotal movement in one direction between the jaw members causing the strap to be tensioned, a shear blade mounted for movement adjacent first jaw member, an actuator for said shear blade mounted on said second jaw member to pivot with it, bias means between the first jaw member and the actuator to urge the actuator away from the shear blade, the actuator engaging the shear blade when the bias means is overcome to allow the shear blade to be moved by the actuator as said second jaw member is continued to be pivotally moved in said one direction causing the strap to be tensioned.

6. A tool defined by claim 5 characterized by, said shear blade and said actuator having teeth which engage each other as the actuator is caused to engage the shear blade, said teeth causing the movement of said shear blade upon movement of said actuator.

7. A tool for tensioning a strap comprising, two frames pivotally joined together at a pivot to provide relative pivotal movement between them, the upper end of the first frame having means to restrain movement of one end of said strap, the upper end of the second frame having means for gripping the other end of said strap,

the relative pivotal movement of the two frames in one direction causing the strap to be tensioned, the lower ends of the frames below said pivot having handles which said shear blade mounted to pivot with said second frame, bias means between the shear blade and the actuator urging the actuator away from said shear blade, the actuator engaging the shear blade when the bias means is overcome to allow the shear blade to be moved by the actuator, said bias means being overcome by continuing to move the handles together when the maximum force of said bias means is equal to the tension in the strap plus the force applied to the handles so that the shear blade is moved by the actuator when the maximum force of said bias means is overcome.

8. A tool defined by claim 7 characterized by, said bias means being adjustable to vary the maximum force of said bias means to thereby cause the shear blade to be actuated corresponding to different tensions reached in the strap.

9. A tool defined by claim 7 characterized by, said shear blade and said actuator having teeth which engage each other as the actuator is engaged with the shear blade, said teeth causing the movement of said shear blade upon movement of said actuator.

10. A tool defined by claim 7 characterized by, said pivot between the two frames being loose enough to allow free movement between the handles in the .region of the pivot in order to allow said movement of the actuator toward said shear blade.

11. A tool for tensioning a strap comprising, two frames pivotally joined together on a pivot pin to provide relative pivotal movement between them, the upper end of the first frame having means to restrain movement of one end of the strap and hold it stationary, the upper end of the second frame having means for gripping the other end of said strap, the relative pivotal movement of the two frames away from each other causing the strap to be tensioned, the lower end of the frames below said pivot pin having handles which when moved toward each other cause said pivotal movement of the two frames away from each other to tension the strap, a shear blade with a cutting edge mounted for movement along the upper end of said first frame between a retracted position and an extended position where its cutting edge is adapted to sever the strap extending between the upper ends of the frames, an actuator for said shear blade secured to said second frame in such a way that the actuator pivots and moves with said actuator, spring bias means mounted to exert a force tending to urge the actuator away from said shear blade, the fit of said pivot pin in the region of where the two frames are pivotally joined having clearance enough to allow the frames to move bodily relative to each other by an amount sufficient to permit the actuator to be moved with the second frame into contact with the shear blade, the force of said spring bias means being overcome upon continued movement of the handles toward each other when the tension reached in the strap plus the force applied between the handles exceeds the force of said spring bias means to thereby allow the actuator to contact the shear blade and extend the shear blade upon continued movement of the handles toward each other to sever the tensioned strap.

12. A tool defined by claim 11 characterized by, said spring bias means being provided with adjustable means for varying its force tending to urge the actuator away from the shear blade in order to vary the strap tension required to be reached before the tensioned strap is severed by the shear blade.

13. A tool defined by claim 11 characterized by, said spring means including a compression spring reacting between 21 first member on the second frame and a second member on said pivot pin, said actuator having a threaded shaft extending through said first member and provided with a threaded nut which can be threadably moved along the threaded shaft in order to vary the compression of said spring and thereby vary the force of said spring means tending to urge the actuator away from the shear blade in order to vary the strap tension required to be reached before the tensioned strap is severed by the shear blade.

References Cited the file of this patent UNITED sTATEs PATENTS UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3,169,560

February 16, 1965 Jack E. Caveney et ale It is hereby certified that error appears in the above numbered patent requiring correction and that the said Letters Patent should read as corrected below.

Column 5, line 25, for "actutaing" read actuating line 26, for "form acuating" read from actuating same column 5, line 56, after "adjacent" insert said a Signed and sealed this 14th day of September 1965,

(SEAL) Attest:

ERNEST W. SWIDER' EDWARD J. BRENNER Attesting Officer Commissioner of Patents

Claims

4. A BINDER STRAP TOOL COMPRISING TWO JAW MEMBERS PIVOTALLY SECURED TOGETHER TO PROVIDE RELATIVE ANGULAR MOVEMENT BETWEEN THEM, THE FIRST SAID JAW HAVING MEANS AGAINST WHICH THE CONNECTOR END OF BINDER STRAP LOOP ENCIRCLED ABOUT AN OBJECT CAN BE HELD, THE SECOND SAID JAW MEMBER HAVING THEREON A STRAP GRIPPER FOR GRIPPING THE FREE ENDOF SAID BINDER STRAP LOOP EXTENDING FROM SAID CONNECTED END, THE RELATIVE ANGULAR MOVEMENT BETWEEN THE JAW MEMBERS CAUSING THE FREE END TO BE PULLED AWAY FROM SAID CONNECTOR END TO CAUSE SAID STRAP LOOP TO SHRINK IN SIZE AND BE TENSIONED ONTO SAID OBJECT, A SHEAR BLADE MOUNTED FOR MOVEMENT ALONG SAID FIRST JAW MEMBER, AN ACTUATOR FOR SAID SHEAR BLADE, AND BIAS MEANS TO PREVENT SAID ACTUATOR FROM ACTUATING SAID SHEAR BLADE UNTIL A PREDETERMINED TENSION IS REACHED IN SAID BINDER STRAP LOOP.