CA1160078A - Ratchet wrench of the socket drive type with socket ejector - Google Patents

Abstract

IMPROVED RATCHET WRENCH OF THE SOCKET
DRIVE TYPE WITH SOCKET EJECTOR

Abstract of the Disclosure Ratchet wrenches of the socket drive type with socket ejector incorporate improved structure and arrangement in-volving the control knob return means, socket ejector pins and ratchet pawl pivot pin, and assembly technique.

Description

1 ~60078 Docket No. DW-407 SP:E~IFICATION

IMPROVED RATCHET_W~ENCH OF THE_ OCKET
DRIVE TYPE WITH SOCKET EJECTOR

~ield of Invention The invention relates to ratehet wrenehes and more partieularly to improved ratchet~wrenches of the socke-t drive type that ineorporates soeket ejeetor means.

Deseription of the Prior Art One of the most eommon types of meehanie's wrenches currently in use is the socket with a ratehet drive. The ratehet drive aeeommodates a number of sockets having a range of sizes to make up a set. A selected soeket is received on a drive stud and is normally retained thereon by means of a detent deviee. Some ratehet drives of the prior art of which I am aware, as exemplified by U.S. Patents Nos.
3,393,587, 3,815,451 and 3,881,376 a incorporate socket ejector means, so that sockets can be removed from the drive stud by depressing an ejeetor control. Improved ratchet drives of the type that ineorporate socket ejector means are disclosed by pending U.S. Patent Applications S.N. 06/141,165 filed April 17, 1980, inventor John Penner, a continuation of S.N. 06/009,459 filed February 5, 1979 and 06/009,462 filed ~ebruary 5, 1979, inventor James W. Konecny.
The general object of the present invention is to provide ratchet drives that incorporate improvements over those that are disclosed by the above-mentioned pending applications.
More specifically, it is an obJect of the present invention to improve the control knob return spring bias means.
Another object of the present invention is to improve the socket ejector pin structure and arrangemen-t.
~7 1 1~0078 Another object of the present invention is to improve the ratchet plug assembly structure so as to facilitate its assembly.
According to the invention there is provided a ratchet wrench of the socket drive type with socket ejector comprising:
a. a handle having a lever portion and a head portion, with the head portion having a central bore with internal spline-like teeth formed therein and oppositely disposed side faces;
b. a ratchet plug assembly installed in-the head portion of said handle and including:
i. a ratchet plug with a body portion having an integral socket drive stud protruding axially outwards beyond one of said head portion side faces, an axial cylindrical recess having a bottom surface and opening to the body por~ion end opposite said socket drive stud, and a pa;r of spaced parallel ejector pin bores extending through said body portion and adjacent to respective side margins of said socket drive stud and opening to said axial cylindrical recess;
ii. ratchet pawl means for driving or ratcheting on said spline-like teeth and reversing means therefor;
iii. a control kno~ disposed in said axial cylindrical recess for reciprocable movement therein, with said control knob having a head portion which has an inner face and a stub shaft portion extending axially inward from said inner face;
iv. an ejector pin retainer plate disposed on said s~ub shaft adjacent said inner face and having oppositely disposed side slots;
v. a pair of ejector pins disposed within said retainer plate side slots and inserted in said ejector pin bores;
vi. a conical type control knob return spring disposed between said cylindrical recess bottom surface and said ejector pin retainer plate.
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-2a-For a further understanding of the invention and further objects, features, and advantages thereof, reference may now be had to the following description, taken in conjunction with the accompanying drawings.

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Brief Description of Drawin~
Fig. l is a top plan view of a typlcal ratchet wrench with socket drive and incorporating socket ejector means, in accordance with a preferred embodiment of the invention.
Fig. 2 is a side elevational view of the ratchet wrench of Fig. l, without a socket installed and with a portion of the handle removed.
Fig. 3 is a side elevation view, partly in section and partly cut away, showing the interior of the drive assembly of the ratchet wrench of Fig. 2, with a socket ejector in the retracted position and with a socket (sho~n in phantom) in working position on the drive stud.
Fig. 4 is like Fig. 3, but with the section being taken in a plane normal to the plane of the Fig. 3 section and with the socket ejector in the extended or ejecting position (the socket has been ejected).
Fig. 5 is an exploded perspective view of the ratchet drive assembly.

Description of Preferred Embodiment For convenience, a ratchet wrench with socket drive which incorporates improvements in accordance with a pre-ferred embodiment of the invention will first be described and then the improvements will be discussed.
Referring now to the drawings it can be seen that the ratchet drive is made up of a handle ll and a ratchet plug assembly 13. The handle 11 has a lever portion 15 which is integrally merged with a cylindrical head portion 17. The cylindrical head portion 17 has a central bore with spline-like teeth 19 formed therein.
The ratchet plug assembly 13 (see ~igs. 3 and 4) includes ratchet plug 21, ratchet pawl 23, ratchet pawl pivot pin 24, control knob 25, ratchet reversing pin 27, reversing pin bias spring 29, first socket ejector pin 31, second socket ejector pin 33, ejector pin retainer plate 35, control knob return conical spring 37 and ratchet plug assembly retainer ring 39.

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The ratchet plug 21 comprises a generally cylindrical body portion ~1 and a drive stud portion 43~ The cylindrical body portion 41 comprises a cylindrical exterior portion ~5, a retainer ring groove ~7, a bearing shoulder ~9, a spinner control flange 51, a control knob recess 53, a control knob bore 55, a ratchet pawl slot 57, first and second ejec-tor pin bores 59, 61, and a drive stud end surface 62.
The cylindrical exterior portion 45 has a diameter that is slightly less than the minor diameter of the spline-like teeth 19 of the handle head portion 17 and a length that is substantially equal to that of the spline-teeth 19. The cylindrical exterior portion ~5 merges at one end with the retainer ring groove ~7 and at the other end with the bearing shoulder 49 which in turn merges with the spinner control flange 51. The ratchet pawl slot 57 has parallel side faces that are spaced a distance slightly greater than the width of the ratchet pawl 23 and bottom surfaces that lie in a plane parallel to and passing near the central axis of the ratchet plug 21. The ratchet pawl slot 57 is closely = 20 adjacent the retainer ring groove 47, which in turn is closely adjacent the body portion drive stud end surface 62.
The end surface 62 is generally planar and is perpendicular to the ratchet plug central axis.
The control knob has a head portion 63 and a stub shaft portion 65. The head portion 63 has the shape of a disc, the top surface of which merges with an integral generally rectangular boss 67. The stub shaft portion 65 is cylindrical and is coaxial with the head portion 63.
The control knob recess 53 is cylindrical; is coaxial with the ratchet plug 21; has a diameter slightly greater than that of the control knob head portion 63; and has a planar bottom surface 69 that is perpendicular to the ratchet plug central axis. The control knob bore 55 is cylindrical;
is coaxial with the ratchet plug 21; has a diame-ter slightly greater than that of the control knob stub shaft portion 65;
and merges at its open end wi-th a circular depression 6~
located in the control knob recess bottom surface 69. The first and second ejector pin bores 59, 61 are cylindrical;

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have the same diameters, which are sligh-tly greater than those of the ejector pins 31, 33; are disposed on opposike sides of the control knob bore 55; have their axes parallel to that of the control knob bore 55; open at one end to the control knob recess bottom sllrface 69 and at the other end to the drive stud end surface 62 of the cylindrical body portion 41. A plane containing the axes of the ejector pin bores 59, 61 is parallel to a plane containing the bottom surfaces of the ratchet pawl slot 57.
The drive stud portion 43 of the ratchet plug 21 is integral with the cylindrical bGdy portion ~1; extends outwardly ~rom the drive stud end surface 62; is coaxial with the ratchet plug 21; has the conventional generally square transverse section shape; is dimensioned -to receive the sockets of a set having the corresponding drive size;
and is provided with the conventional detent ball 71 a~d spring (not shown).
The ratchet pawl 23 has a generally arcuate outer surface having a set of axially extending spline-like teeth 73, 74 at each end portion thereof; an inner sur~ace having an axially extending center notch portion 75 with a respective planar portion 77, 79 extending outwardly from each side of the notch portion; a rocker bore 81 extending axially of the ratchet pawl 23 and opening to respective parallel planar pawl side faces 83, 85 with the rocker bore axis being parallel to said spline-like teeth 73, 7~ and lying in a plane that bisects the ratchet pawl 23.
The first and second ejector pins 31, 33 are alike and each have a cylindrical exterior surface portion 87 and an annular groove 88 adjacent a head portion 39. The ejector pin retainer plate 35 has a generally circular peripheral shape, with a pair of oppositely disposed side slots 91 and a center slot 93.
To assemble the ratchet plug assembly 13, the ratchet pawl 23 is positioned in the ratchet pawl slot 57 with its center notch portion 75 facing inwardly and the ratchet pawl pivot pin 24 is inserted and positioned within first and 1 ~6V~7~
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second aligned bearing bores 102, 104 which are ~ormed in the ratchet plug 21, and also within the ratchet pawl rocker bore 81. The ratchet pawl pivot pin 24 is secured in position by crimping or staking. The aligned bearing bores 102, 104 have their central axes lying in a first plane that is perpendicular to a second plane that contains the central axes of the ejector pin bores 59, 61.
Next, the respective ejector pins 31, 33 are mounted in the retainer plate side slots 91 which conform with the annular grooves 88 and space the ejector pins at their head portions 89 in alignment with the ejector pin bores 59, 61.
The retainer plate 35 is then mounted to the control knob 25, with the side slot 93 being conformingly received by a peripheral groove 97 at the inner end of the control knob stub shaft portion 65. The retainer plate 35 has a slight.
curvature in the directions perpendicular to the central axis o~ the center slot 93, so as to minimize friction be-tween the ejector pin head portions 89 and the inner face 99 of the control knob head portion 63 and to reduce the required depth of the control knob recess 53 (see Fig. 4).
Next, the control knob return conical spring 37 is placed on the control knob stub shaft portion 65 with its smaller end facing the inner face 99 of the control knob head portion 63. Then, the ratchet reverse pin 27 and its bias spring 29 are inserted in a transverse bore 101 in the control knob stub shaft portion 65. Next, the control knob 25, with attachments, is inserted in the ratchet plug control knob recess 53 (see Figs. 3 and 4); with the ejector pins 31, 33 being guided so as to begin entry into the ejector pin bores 59, 61, and the control knob return conical spring 37 having its large end seated in the cir-cular depression 68, and with the control knob stub shaft portion 65 being guided to begin entry into the control knob bore 55, and with the central axis of the ratchet reversing pin 27 lying in a plane that is substantially perpendicular to the plane containing the central axes of the ejector pins 31, 33 and with ratchet reversing pin 27 abutting the bottom surface of the circular depression 68.
An assembly access opening 106 is provided that com-4C municates between the interior of the control knob recess 53 ~ 1~007 adjacent its bottom surface 69 and the exterior of the ratchet plug 21. The central axis of the assembly access opening 106 is perpendicular to and intersects the central axis of the ratchet plug 21 and is perpendicular to and intersects the central axis of the aligned bearing bores 102, 104. Consequently, the assembly access opening is also substantially aligned with the central axis of the ratchet reversing pin 27 at its present stage of assembly. Next, the ratchet reversing pin 27 is depressed sufficiently, by means of a suitable tool (not shown) inserted in the assembly access opening 106, to permit its entry into the control knob bore 55.
A plane containing the bottom surfaces of the ratchet pawl slot 57 will intersect the control knob bore 55 (see Fig. 5) to form a rectangular opening that will be disposed opposite the ratchet pawl center notch portion 75. Thus, when the control knob stub shaft portion 65 has been moved a sufficient distance into the control knob bore 55, the reversing pin 27 will enter the abovementioned rectangular opening at which time it will be extended by the force of its bias spring 29 to bear against the ratchet pawl under-side or notch portion 75. When pressure on the control knob 25 is released the return conical spring 37 will move the control knob outwardly until the ratchet reversing pin abuts a side face of the ratchet pawl slot 57, at which time the outer surface of the control knob head 63 is substantially flush with the outer extremity of the control knob recess 53.
To assemble the ratchet plug assembly 13 onto the handle 11, the ratchet plug cylindrical exterior portion 45 is inserted into the bore of the handle cylindrical head portion 17 until the bearing shoulder 49 abuts a shoulder 105 of the handle cylindrical head portion 17, at which time the retainer ring groove 47 will extend outwardly just beyond the side face 107 o~ the handle cylindrical head portion 17. The ratchet plug assembly retainer ring 39 is then installed in the retainer ring groo~e 47. The ratchet ~ ~6007~
retainer ring may be a conven~ional commercially available type made of spring strip material formed to have the shape of a circular flat spiral, as shown. The retainer ring 39 can be e~panded radially to increase its inner diameter sufficiently to pass over the periphery of the ratchet plug end surface 62 and then will relax so that its inner dia-me-ter will substantially conform to the bottom of the retainer ring groove 47. When the retainer ring 39 is installed, its inner side surface will bear agains-t the adjacent side face 107 of the handle cylindrical head portion 17 so as to substantially prevent axial movement of the ratchet plug assembly 13. When inserting the ratchet plug assembly 13 into the bore of the handle cylindrical head portion 17 it is necessary to rock the ratchet pawl 23 slightly in a direction to compress the ratchet reverse pin bias spring 29, which then permits the teeth 73, 74 of the pawl 23 to pass into the bore of the handle cylindrical head portion 17. When ins-talling pressure on the pawl 23 is released, the bias spring 29 acting on the ratchet reversing pin 27 will rock the ratchet pawl 23 so that its respective ~- teeth 73 or 74 are in proper engagement with the spline-like teeth 19 of the handle cylindrical head portion 17.
In operation, a socket 109 (shown in phantom in Fig. 3) is installed on the drive stud por-tion 43 and is held in place in a conventional manner by action of the detent ball 71. The control knob 25 is then in the ejector pin retracted position and the ratchet pawl 23 (as shown by Fig. 3) is in the drive clockwise and ratchet counter clockwise position.
To drive counter clockwise and ratchet clockwise the control knob 25 is simply rotated to its extreme cloclcwise position, causing the ratchet reverse pin 27 to shift its position on the inner surface of the ratchet pawl 23 so as to pivot the ratchet pawl on the ratchet pawl pivot pin 24 so as to disengage one set of pawl teeth 74 and engage the other set 73. To eject the socket 109, the control knob 25 is depressed to the ejector pin extended position (see Fig. ~) and the ~ ~6~07~
_9_ socket 109 is pushed by the ejector pins 31, 33 out of engagement with the detent ball 71 and off the end of the drive stud 43.
As stated hereinabove, ratchet drives of the present invention incorporate improvements over those disclosed by the named pending applications. These improvements will now be discussed.
In the pending applications, the control knob return spring is of the cylindrical type and is disposed between the bottom of the control knob bore and the end of the control knob stub shaft portion in which there is provided a special return spring locator cavity. In accordance with the present invention, the control knob return spring is of the conical type and is disposed between the bottom surface of the circular depression 68 and the ejector pin retainer plate 35. As a consequence, the control knob bore 55 needs only to have sufficient depth to accommodate the travel of the control knob stub shaft portion 65. This decreased depth results in a significant increase in the strength or structural integrity of the ratchet plug drive stud portion 43.
In the pending applications, the central axes of the socket ejector pin bores lie in a plane that bisects the ratchet pawl slot, and one of the ejector pins serves also as the ratchet pawl pivot. In accordance with the present invention, the central axes of the socket ejector pin bores 59, 61 lie in a plane that is perpendicular to the plane that bisects the ratchet pawl slot 57 and a separate ratchet pawl pivot pin 24 is provided. Since neither of the ejector pins 31, 33 serves as a ratchet pawl pivot pin, the possibility of a malfunction of the ejector mechanism due to bending of an ejector pin by the forces imposed on it via the ratchet pawl is eliminated. Further, the size of the ejector pins is no longer dictated by forces imposed via the ratchet pawl and consequently they can be made significantly smaller. In addition, the position of the ejector pins makes possible an improved assembly technique as will be presently described.

In the pending applications, the ejector pins each have a flanged head portion which bears against the ejector yin retainer plate to move the respec-tive ejec-tor pin in the retracting direction. In accordance with the present invention the flanged head portions are eliminated and the ejector pins are each provided with an annular groove 88 adjacent a head portion 89. This configuration increases ejector pin quality while reducing cost due to a signiicant reduction in the necessary machining. The annular groove also provides positive control over longitudinal movement of the respective ejector pin in both directions.
In the pending applications, in the assembling of the ratchet plug assembly, difficulty was encountered in de-pressing the ratchet reversing pin so that it could begin entry along with the control knob stub shaft portion into the control knob bore. In accordance with the present invention there is provided an assembly access opening 106 ~isposed so that it is substantially in axial alignment with the central axis of the ratchet reversing pin 27 when the latter is in contact with the bottom surface of the circular depression 68 just prior to its entry into the control knob bore 55. Since the ejector pins have been repositioned so as to be out of the way, it is possible to insert a tool via the assembly access opening 106 and conveniently depress the ratchet reversing pin 27 sufficiently to permit its entry into the control knob bore 55.
The foregoing disclosure and the showings made in the drawings are merely illustrative of the principles of this invention and are not to be interpreted in a limiting sense.

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Claims

THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:

1. A ratchet wrench of the socket drive type with socket ejector comprising:
a. a handle having a lever portion and a head portion, with the head portion having a central bore with internal spline-like teeth formed therein and oppositely disposed side faces;
b. a ratchet plug assembly installed in the head portion of said handle and including:
i. a ratchet plug with a body portion having an integral socket drive stud protruding axially outwards beyond one of said head portion side faces, an axial cylindrical recess having a bottom surface and opening to the body portion end opposite said socket drive stud, and a pair of spaced parallel ejector pin bores extending through said body portion and adjacent to respective side margins of said socket drive stud and opening to said axial cylindrical recess;
ii. ratchet pawl means for driving or ratcheting on said spline-like teeth and reversing means therefor;
iii. a control knob disposed in said axial cylindri-cal recess for reciprocable movement therein, with said control knob having a head portion which has an inner face and a stub shaft portion extending axially inward from said inner face;
iv. an ejector pin retainer plate disposed on said stub shaft adjacent said inner face and having oppositely disposed side slots;
v. a pair of ejector pins disposed within said retainer plate side slots and inserted in said ejector pin bores;

and, vi. a conical type control knob return spring disposed between said cylindrical recess bottom surface and said ejector pin retainer plate.