The present invention relates broadly to retaining ring pliers used to remove and replace both internal and external retaining rings. Such pliers are convertible between a first position which allows the jaws to move inwardly as the handles are moved inwardly, and a second position which enables the jaws to move outwardly as the handles are moved inwardly. More particularly, the invention relates to a switching mechanism provided on the retaining ring pliers to more easily effect the transfer between the first and second positions.
Retaining rings are utilized in annular grooves on shafts and ends of shafts to retain bearings, collars, and the like on the shaft. A retaining ring extends circumferentially between a pair of ends which have hubs. The hubs have apertures that receive tips of a plier tool. The force applied by the pliers either spreads the hubs to expand the ring or squeezes the hubs to contract the ring. The plier tool is necessary for installing the retaining ring in and removing the retaining ring from either external or internal grooves.
Accordingly, it is sometimes desirable to squeeze the handles to effect movement of the jaws outwardly to expand the ring. It is at other times desirable to squeeze the handles to effect movement of the jaws inwardly to contract the ring. Thus, it is desirable to provide a pliers that is convertible between an external and an internal tool. U.S. Pat. Nos. 4,280,265 and 4,476,750 disclose a pair of retaining ring pliers that utilize a pair of separate coplanar jaws and a pair of separate handles that range about a common fixed pivot point and that are adapted to be changed to alternately engage one handle to one jaw and the other handle to the other jaw and vice versa to permit the changing of the tool from external to internal. Two fulcrum or transfer pins of a latching arrangement are disposed in the jaws and are adapted to alternately engage each set of the handles to shift from a position adapted to move the jaws inwardly as the handles are moved inwardly, to a position where the jaws are moved outwardly as the handles are moved inwardly.
The prior art retaining ring pliers in the '265 and '750 patents require that a user have a dull pointed instrument, such as a pen, nail or screwdriver, handy to forcefully push the pins between their alternate positions. Specifically, the user would have to squeeze the handles of the pliers inwardly to align the transfer pins of the latching arrangement with holes formed in the handles, and then use the pointed instrument to push the pins from each respective side of the pliers. Thus, each of the transfer pins disclosed in the above-noted patents has to be independently placed in the correct position using an additional tool.
Accordingly, it is desirable to provide a convertible retaining ring pliers that does not require another instrument or tool to convert the pliers from internal to external mode and vice versa. It is further desirable to provide a relatively simple switching mechanism which will enable finger pressure to be simultaneously applied to the transfer pins from each side of the pliers, while the handles are moved inwardly to align the transfer pins with the proper holes in the jaws. It is intended that the simultaneous movement of the transfer pins will make the conversion faster than previous models with far less complexity required in the plier structure.
It is one object of the present invention to provide a switching mechanism in a convertible retaining ring pliers for selectively and alternatively joining relative moveable external members to a common internal member in a more efficient manner.
It is also an object of the present invention to provide a switching mechanism in a retaining ring pliers for enabling simultaneous shifting of the transfer pins.
It is a further object of the present invention to provide a switching mechanism in a retaining ring pliers which provides a user with an enhanced visual indication of the operating position of the pliers.
It is an additional object of the present invention to provide a switching mechanism in a retaining ring pliers wherein the mechanism includes a pair of switches which flex to allow the simultaneous shifting of the transfer pins and hold the transfer pins in their desired operating positions.
Another object of the present invention is to provide a retaining ring pliers switching mechanism which has a minimum of parts and is simple to assemble and operate.
In one aspect of the invention, a retaining ring pliers includes a pivot assembly and first and second jaws arranged for oscillation toward and away from each other about the pivot assembly. The handles have portions adjacent to the pivot assembly disposed on respective opposite sides of the jaws. A transfer pin is slidably disposed in each jaw for alternative engagement with one or the other of the handle portions. The transfer pins are disposed in transverse bores in the jaws having axes parallel to the axis of the pivot assembly. Each of the handle portions has a pair of spaced holes disposed to receive the transfer pins. The transfer pins in the first and second jaws are selectively slidably engaged in the holes of respective first and second handles to effect movement of the jaws towards each other when the handles are moved towards each other to define a first operating position. The transfer pins in the first and second jaws are selectively slidably engaged in the holes of respective second and first handles to effect movement of the jaws away from each other as the handles are moved toward each other to define a second operating position. The pliers is improved by means of a switching mechanism mounted to the pivot assembly and in contact with external surfaces of the handle portions and the transfer pins for enabling simultaneous shifting of the transfer pins in the first and second jaws and holes of the first and second handles. The switching mechanism includes a first flexing spring plate disposed on the external surface of one handle portion, and a second flexing spring plate disposed on the external surface of the other handle portion. Each of the spring plates has a pair of boss pins engageable with opposite ends of the transfer pins.
Each spring plate has an external arcuate-shaped portion integrally joined by a connecting segment to an internal, circular anchoring portion. The external portion, the connecting segment and the internal portion are all substantially coplanar. The external portion has a pair of curved arms held spaced apart from the internal portion. An outer end of each curved arm is provided with one of the boss pins. The internal portion of the first spring plate is anchored to one end of the pivot assembly, and the internal portion of the second spring plate is joined to an opposite end of the pivot assembly. In each spring plate, each curved arm is temporarily deformable about a fulcrum point defined by the connecting segment. For a given operating position, one pair of corresponding boss pins on the first and second spring plates lie raised above the external surfaces of the handle portions, and another pair of corresponding boss pins lie recessed in holes of the first and second handles. Each boss pin lies between an underside of one of the curved arms and an outermost end of the transfer pins. In each operating position, one of the curved arms of each spring plate lies flush against the external surface of one of the handles, and the other of the curved arms of the spring plate is temporarily bent upwardly relative to the external surface of the handle.
In another aspect of the invention, a convertible retaining ring pliers includes a pivot, and first and second jaws as well as first and second handles rotatably joined about the pivot. A pair of transfer pins is slidably disposed for selective movement in the first and second jaws and the first and second handles for establishing a first operating position enabling the jaws to move inwardly as the handles move inwardly, and a second operating position allowing the jaws to move outwardly as the handles move inwardly. A switching mechanism is mounted to the handles at the pivot for providing simultaneous shifting of the transfer pins in the jaws of the handles between the first and second operating positions. The switching mechanism includes a first flexing spring plate mounted to one end of the pivot and disposed on an external surface of the first handle, and a second flexing spring plate mounted to an opposite end of the pivot and disposed on an external surface of the second handle. Each of the spring plates has a pair of boss pins engageable with opposite ends of the transfer pins. In each operating position, one pair of corresponding boss pins on the first and second spring plates lie raised above the external surfaces of the handles, and another pair of corresponding boss pins lies recessed in the first and second handles.
The invention further contemplates a method of converting a retaining ring pliers having a pivot, first and second jaws rotatably secured to the pivot, first and second handles rotatably joined about the pivot, and a pair of transfer pins slidably disposed for selective movement in the first and second jaws and the first and second handles between one operating position enabling the jaws to move inwardly as the handles move inwardly, and a second operating position enabling the jaws to move outwardly as the handles move inwardly. The method includes the steps of mounting a first flexing spring plate having a first pair of boss pins at opposite ends thereof to one end of the pivot such that the first spring plate is disposed on an external surface and the first pair of boss pins are engageable with opposite ends of the transfer pin; mounting a second flexing spring plate having a second pair of boss pins at opposite ends thereof to an opposite end of the pivot such that the second spring plate is disposed on an external surface of the second handle and the second pair of boss pins are engageable with opposite ends of the transfer pins. In each operating position, one pair of corresponding boss pins on the first and second spring plates lie raised above the external surfaces of the handles, and another pair of corresponding boss pins lie recessed in the first and second handles. Finger pressure is applied to ends of the spring plates carrying the raised boss pins to simultaneously shift the transfer pins between the first and second operating positions.
Various other objects, features and advantages of the invention will be made apparent from the following description taken together with the drawings.
The drawings illustrate the best mode presently contemplated of carrying out the invention.
In the drawings:
Referring now to
As best seen in
The handles 14 and 16 may be fabricated from suitable plate material, such as steel and are enlarged at the opposite ends thereof to define end plates 48, 49 which are disposed parallel to each other to partially confine the jaws 18 and 20 and to enclose other components of the pliers 10 to be described.
The handle end plates 48, 49 are provided with transverse bores 50 to pass the pivot pin 22, and are also provided with recesses concentric with the bores 50 and providing internal cylindrical bearing shoulders 52 for coaction with the bearing shoulders 46 of the jaws 18, 20. Through coaction then of the pivot pin 22 and the bearing shoulders 46 and 52, both jaws 18, 20 and both handles 14, 16 are mounted for rotation about a common defined axis. These principal components are maintained in the operative relation by the pivot pin 22.
To effect the convertability of the pliers 10, means are provided for coupling each of the jaws 18, 20 alternatively to one or the other of the two handles 14, 16. In this manner, the jaw 18, 20 is operatively linked to one or the other of the handles 14, 16 for oscillation therewith about the pivot 22. To accomplish this, each jaw 18, 20 is provided at its inner end with a transverse bore 54 (
The handle end plates 48, 49 are each provided with a pair of transverse bores 66 and 68 spaced from each other and from the pivot pin bore 50 and disposed to be axially aligned with respective bores 54 of the jaws 18, 20 in selected relative position. These handle bores 66, 68 have the same diameter as the bores 54 of the jaws 18, 20 so that when a transfer pin 56, 58 is received within a handle bore 66, 68, that handle 14, 16 is securely coupled to the respective jaw 18, 20. As best seen in
Referring now to
As will be better appreciated below, each switch 72, 74 has a thin spring steel structure which effectively enables each arm 90 or 92 to temporarily deform and bend about a fulcrum point generally defined by the connecting segment 88 relative to the other arm 92 or 90.
As will now be described through the coaction of the switching mechanism 12, the pivot assembly 22 and the transfer pins 56, 58, each jaw 18 or 20 may be selectively and rigidly linked or coupled to a selected handle 14 or 16.
The described convertible retaining ring plier 10 is adapted for two operational modes which may be referred to as “the external ring mode” and the “internal ring mode”.
It will also be seen that the boss pins 76 on the ends 94 of curved arms 90 of switches 72, 74 lie upon the ends 70 of the transfer pins 56, 58 and protrude from the handle end plate bores 66. By virtue of their spring construction, the ends 94 and lower portions of curved arms 90 are temporarily bent upwardly. The other boss pins 78 on the switches 72, 74 are fully confined in bores 68 so that ends 96 of curved arms 92 lie flush on handle end plates 48, 49. Switches 72 and 74 are designed to hold boss pins 76, 78 in alignment with handle end plate bores 66, 68.
When it is desired to move from the external ring mode or position to the internal ring mode or position, the user places their right hand thumb upon the end 94 of switch 72 and their left hand forefinger on the end 94 of the other switch 74. Then, gently squeezing the handles 14, 16 inwardly, equal finger pressure is applied to the raised spring ends 94 and protruding boss pins 76 on both sides of the pliers 10. When the transfer pins 56, 58 are aligned with the respective bores 68 in handles 14, 16 and the boss pins 78 in those bores, the finger pressure will simultaneously push the transfer pins 56, 58 through jaw bores 54 such that transfer pin 58 disengages the handle end plate 48 and transfer pin 56 engages the handle end plate 48. In this position shown in
Referring now to
The internal ring mode of the retaining ring pliers 10 is particularly illustrated in
It should now be appreciated that the switching mechanism 12 performs two functions incidental to the operation of pliers 10. One function is that the protruding boss pins 76, 78 coacting with a legend provided on the external handle surface provides a visual indication of the operating mode or position of the pliers 10. Another function is the convenience of shifting the transfer pins 56, 58 to convert the pliers 10 to an alternative operational mode. During that shifting, the transfer pins 56, 58 are readily and simultaneously moved without need for an additional implement into their desired positions by applying finger pressure to the boss pins 76, 78 on the switches 72, 74. The switches 72, 74 are made of spring steel and are intended to flex or deform to allow the boss pins 76, 78 to be pushed out of their respective handle bores 66, 68. The switches 72, 74 also function to hold the boss pins 76, 78 in alignment with the bores 66, 68 depending upon the desired position of the pliers 10.
While the invention has been described with reference to a preferred embodiment, those skilled in the art will appreciate that certain substitutions, alterations and omissions may be made without departing from the spirit thereof. Accordingly, the foregoing description is meant to be exemplary only and should not be deemed limitative on the scope of the invention set forth with the following claims.
Number | Name | Date | Kind |
---|---|---|---|
3995360 | Millheiser | Dec 1976 | A |
4172523 | Weglage | Oct 1979 | A |
4280265 | Murphy | Jul 1981 | A |
4476750 | Murphy | Oct 1984 | A |
4621401 | Anderson | Nov 1986 | A |
4625379 | Anderson | Dec 1986 | A |
4702001 | Malm et al. | Oct 1987 | A |
4790056 | Anderson | Dec 1988 | A |
4862572 | Jeromson, Jr. et al. | Sep 1989 | A |
5007313 | Jeromson, Jr. et al. | Apr 1991 | A |
5079977 | Petrie | Jan 1992 | A |
5174177 | Jeromson, Jr. et al. | Dec 1992 | A |
5542167 | Nakamoto | Aug 1996 | A |
5826467 | Huang | Oct 1998 | A |
5865075 | Medved | Feb 1999 | A |
6145417 | Bates et al. | Nov 2000 | A |
6249946 | Greenhill | Jun 2001 | B1 |
6378403 | Bates et al. | Apr 2002 | B1 |
6470774 | Chang | Oct 2002 | B2 |