US3897630A

US3897630A - Double cam drive for a hedge trimmer having two reciprocating cutting blades

Info

Publication number: US3897630A
Application number: US463749A
Authority: US
Inventors: Richard Warmath Glover; Edward Joseph Oldewurtel
Original assignee: Black and Decker Manufacturing Co
Current assignee: Black and Decker Corp
Priority date: 1974-04-24
Filing date: 1974-04-24
Publication date: 1975-08-05
Anticipated expiration: 1992-08-05
Also published as: CA1022748A

Abstract

A hedge trimmer having two counter reciprocating cutting blades, each of the blades having a yoke at one end defining a cam follower slot, the cutting blades being held together by mounting means which hold the yokes in close face-to-face contact, and a double cam drive engagable with the cam follower slots, the double cam drive being so designed that one cam cannot interfere with the cam follower slot which is adapted to be engaged by the other cam. The cams are so positioned with respect to each other that the periphery of one cam entirely surrounds the periphery of the other cam. The cams, which are circular, are mounted upon one side of a drive member with the axes of the two cams lying on opposite sides of the axis of the drive member. Preferably the axis of one of the cams is spaced further away from the axis of the drive member than the other cam member, this cam engaging a cutting blade of lower mass than the other cutting blade in order to counterbalance the inertial forces created by the reciprocating cutting blades. Alternatively, the blades may be of equal mass and the axial spacing of the cams equal to achieve counterbalance.

Description

Aug. 5, 1975 United States Patent 1191 Glover et al.

[57] ABSTRACT A hedge trimmer having two counter reciprocating DOUBLE CAM DRIVE FOR A HEDGE TRIMMER HAVING TWO RECIPR CA CUTTING BLADES cutting blades, each of the blades having a yoke at one [75] inventors: Richard warmath Gkwer, j end defining a cam follower slot, the cutting blades Edward Joseph ()ldewurtd, being held together by mounting means which hold Calumbia bum of Md the yokes in close face-to-face contact, and a double The Black and Decker cam drive engagable with the cam follower slots the double cam drive being so designed that one cam can- [73] Assignee:

Manufacturing Cmpany'TOWSOnnot interfere with the cam follower slot which is adapted to be engaged by the other cam. The earns [22] Filed; Apt 24, 1974 are so positioned with respect to each other that the periphery of one cam entirely surrounds the periphery pp No: 463,749 of the other cam. The cams, which are circular are mounted upon one side of a drive member with the axes of the two cams lying on opposite sides of the 1326b 19/02 axis of the drive member Preferably the axis of one of the cams is spaced further away from the axis of the drive member Field of Search 30/2l0, 2l8, 221

30/223, 224, 272 A, 272 R, 2l6, 215; 56/297 than the other cam member this cam engaging a cutting blade of lower mass than the other [56] References Cied cutting blade in order to counterbalance the inertial UNITED STATES PATENTS forces created by the reciprocating cutting blades. Al

ternatively, the blades may be of equal mass and the 2,630,628 3/1953 30/220 x axial 5 ad ofthe Cams 8 ual to achieve Counmb, 2,787,111 4/1957 Templeton..n...,.......11 56/297 ance p g q 29791820 4/1961 Thompson..M...,..n..,,.,.,..1 30/221 x Primary Examiner-Al Lawrence Smith Assistant Examiner-l C. Peters Attorney, Agent, or Firm-Edward D. Murphy; 1] Claimsi ll Drawing Figures Leonard Bloom PATENTEI] AUG 5|975 3.897, 63C] SHEET 3 DOUBLE CAM DRIVE FOR A HEDGE TRIMMER HAVING TWO RECIPROCATING CUTTING BLADES FIELD OF THE INVENTION The present invention relates generally to hedge trimmers or the like which have two movable driven cutting members in which a double cam drive is used to engage cam follower slots in the driven cutting members which are held in face-to-face contact, the double cam drive being of such a design that one of the cams connot interfere with the cam follower slot adapted to be engaged by the other cam.

BACKGROUND OF THE INVENTION In hedge trimmers and similar applications having reciprocatin cutting members it is common practice to impart reciprocal motion to the cutting member by means of a scotch yoke drive machanism. Thus, the cutting member is provided with a yoke portion having a cam follower slot, and a circular cam, which is eccentrically mounted upon a drive member, engages the yoke to impart reciprocal motion to the cutting member upon rotation of the drive member. When two reciprocal shear bars are employed it has been proposed in the past to employ such a drive mechanism, and one such example is shown in US. Pat. No. 2,630,628 issued March 18, 1953. In the drive shown in this patent two juxtapositioned cams engage cam follower slots into juxtapositioned yokes. However, the drive shown in this patent is not satisfacory as during operation of the cutting devices, forces are imposed upon the cutting members which tend to move the yokes out of their normal plane of operation along the axis of the drive member. If these forces are imposed as one cam is passing the cam follower slot which is adapted to be engaged by the other cam it is possible for the first cam to interfere or engage with the other cam follower slot which may result in the parts locking and/or breaking. Repeated interference will eventually cause a breakdown of the parts.

In view of the deficiencies shown in the aforesaid patent design it has been proposed to separate the yokes so they are not in face-to-face contact. In accordance with one design the yokes are offset from the principal plane of the cutting members and are engaged by cams disposed on opposite sides of the driving member. While the foregoing design is generally satisfactory it is somewhat costly, particularly since it is necessary to provide the cutting members with offset yokes. This is not considered desirable in the design of the cutting members as forces to the cutting members are transmitted from the cam follower slot in the yoke in shear through the offset portion requiring either reinforce ment at the point of offset or requiring higher strengths and thicknesses of materials to be employed in the overall design of the cutting member. Alternatively it has been propsed to mount both of the cams on one side ofa drive member, the cams being separated from each other by a spacing shim which extends between the yokes of the driven members. While this design is generally satisfactory, it is desirable to simplify the design by eliminating the requirements ofa spacing shim.

OBJECTS AND SUMMARY OF THE INVENTION It is a principle object of the present invention to provide a double cam drive for hedge trimmers or the like having two reciprocating cutting bars or blades, the cams engaging cam follower slots in juxtapositioned yokes. the cam design being such that one cam will not interfere with the cam follower slot adapted to be engaged by the other cam.

More specifically, it is an object of the present invention to provide a double cam drive for two juxtapositioned driven members having cam follower slots, the cams being eccentrically mounted upon one side of a driving member, the axis of rotation of the drive member passing within the periphery of one of the cams, and the periphery of the second cam lying entirely within the periphery of the first cam.

It is a further object of the present invention to provide two driven members having juxtapositioned yokes defining cam follower slots, the first circular cam being mounted upon a drive member and having a radius in excess of its throw, and the second cam member being mounted adjacent the first cam member and eccentric to said drive member, the maximum distance between the outer periphery of the second circular cam member and the axis of the drive member being not greater than the difference between the radius of the first cam member and its throw.

It is an additional object of the present invention to provide a portable hand carried hedge trimmer or the like having two driven blades, the mass of one blade being greater than the mass of the other blade, and the blades having juxtapositioned yokes defining cam fol lower slots, and a double cam drive assembly including a first circular cam member mounted on one side of a drive member with its center to one side of the axis of rotation of the drive member, and a second circular cam member mounted on the first cam member with its center to the opposite side of the axis or rotation of the drive member, the distance between the center of the second circular cam member and the axis of rotation of the drive member being greater than the distance between the center of the first circular cam member and the axis or rotation of the drive member, and the second cam lying entirely within the periphery of the first cam, the second cam engaging the shear blade having lower mass so that during the operation of the hedge trimmer or the like the inertial forces created by the unbalanced shear bars will be counterbalanced.

These and other objects and advantages of this invention will be apparent to those skilled in the art after a consideration of the following detailed description, taken in conjunction with the accompanying drawings in which preferred forms of this invention are illustrated.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a hedge trimmer in which the principles of the present invention are incorporated.

FIG. 2 is a side view of the hedge trimmer shown in FIG. 1, a portion of the hedge trimmer being shown in section.

FIG. 3 is a bottom view of the hedge trimmer shown in FIG. 1 with the shear blade assembly being removed and portions of the housing and handles being broken out.

FIG. 4 is a bottom view of a clutched drive member having a slightly modified cam for driving the shear blade assembly.

FIG. 5 is a section taken along lines 5-5 in FIG. 4.

FIG. 6 is a top view of a portion of the shear blade assembly with the juxtapositioned yokes being disposed in their intermediate position, the cams which engage the cam follower slots being shown in broken lines.

FIGS. 7, 8, 9, are views illustrating the juxtaposi tioned yokes of the two shear blades with the shear blades being shown in different positions of reciprocation, FIG. 7 showing one of the shear blades all the way to the left and the other all the way to the right, FIGS. 8 and 9 showing two progressive intermediate positions, and FIG. 10 showing the blades in their opposite positions from FIG. 7, the cams being shown in broken lines in these various Figures.

FIG. 11 is a perspective view of the shear blade assembly.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring first to FIGS. 1 and 2, the principles of the present invention are incorporated in an apparatus in the form of a portable power tool or hedge trimmer indicated generally at 10. The hedge trimmer includes a housing 12 and a shear blade assembly indicated generally at 14. The hedge trimmer shown in these drawings is of the type having an electric motor mounted within the housing, the motor receiving its power from an external power source through a line cord. However, it should be appreciated that the motor could be battery driven. The hedge trimmer is provided with two sup port handles l6 and 17, there being a switch 18 (FIG. 2) mounted in the handle 16 for controlling the operation of the motor. The housing [2 includes a mounting casting I9 which is secured to other portions of the housing 12 by screws 20, one of which is shown in FIG. 3.

Referring now to FIGS. 2 and 11, the shear blade assembly includes first and second driven members and support means for mounting the driven members, the driven members being elongated shear bars or driven

cutting blades

22, 24. The shear bar 22 is a driven combing blade having a plurality of outwardly extending teeth 26 provided with combing projections 28. The shear bar 24 is referred to as a driven shear blade and has outwardly projecting teeth 30. The mass of the combing blade 22 is greater than the mass of the shear blade 24 to its greater thickness and also due to the addition of the combing projection 28. Each of the

blades

22, 24 is provided with a yoke at one end which defines a cam follower slot that extends transversely to the length of the blade, the yoke for the combing blade 22 being indicated at 32, the cam follower slot of the combing blade being indicated at 34, the yoke of the shear blade being indicated at 36 and the cam follower slot of the shear blade being indicated at 38. The support means mounts the driven blades for opposed reciprocal movement in a plane about their length, the support means also holding the yokes in face-to-face or juxtapositioned relationship with respect to each other. The support means includes a mounting plate 40 dis posed below the driven blade 24 and a cover plate 42 disposed to the other side of blade 22. The support means further includes fastener means in the formd of nuts 44 and bolts 46 which pass through

elongated apertures

48, 50 in the combing blade 22 and shear blade 24, respectively. In order to provide for reciprocal movement of the blades between the cover plate 42 and the mounting plate 40, spacers 52 are provided, the

spacers having a length slightly in excess of the combined thicknesses of the

blades

22, 24. One end 54 of the mounting plate 40 extends beyond the

yokes

32, 36, the end 54 being provided with slots or apertures 56 which are adapted to receive cap screws 58 for the purpose of mounting the shear blade assembly to the housing II, the cap screws 58 being received within the threaded apertures 60 (FIG. 3) on the mounting casting 19.

Drive means are mounted within the housing I2 for driving the driven

blades

22, 24, in such a manner that they reciprocate in opposite directions relative to each other about their length. The drive means includes the output shaft 62 of the motor mounted within the housing, and a drive member or gear means indicated generally at 64 in FIG. 2. The drive member 64 in this embodiment is a gear 66 having teeth 68 which mesh with teeth 70 formed on the output shaft 62 of the motor. The output shaft of the motor rotates about an axis (indicated by the broken line 72) which is normal to the plane of reciprocation of the

blades

22, 24. Similarly, the gear 66 is mounted for rotation about a stub shaft 74 for rotation about an axis (indicated by the broken line 76) which is also normal to the plane of reciprocation of the

blades

22, 24, the axis of rotation 76 for the gear 66 being parallel to the axis of rotation 72 of the output shaft 62.

A double cam drive is provided for engaging the cam follower slots on the

blades

22, 24, the double cam being driven by the drive member 66 in such a manner that the blades reciprocate in opposed directions. The double cams include a first cam means indicated generally at 80 and second cam means indicated generally at 82, both in FIG. 3. The first cam means 80 includes a circular projection forming a cam member 84 formed integrally on the bottom surface 86 of the gear 66. The cam member has its center, indicated by the line 88 in FIG. 2 disposed to one side of the axis of rotation 76 of the drive member 66. The first cam means in addition includes a bearing washer 90 journalled about the cam member 84 and the exterior of the washer 90 defines the periphery 94 of this first cam means. The radius of the first cam means, indicated by the arrow 92 in FIG. 3 is in excess of the throw of the first cam means. The throw of the first cam is the distance between its center 88 and the axis of rotation 76 of the drive member 66. It should be appreciated that since the radius of the first cam means is greater than its throw that the axis of rotation 76 of the drive member will pass within the periphery 94 of the first cam means.

The second cam means includes a second circular projection forming a cam member 96 which extends outwardly from that face 98 of the first circular projection 84 which is disposed away from the surface 86 of the drive member. The center of the second cam member. which is indicated by the broken line 100 in FIG. 2, is in line (in a horizontal plane) with the axis of rotation 76 of the drive member and the center 88 of the first cam member with the axis of rotation 76 being disposed between the

centers

88 and 100 of the first and

second cam members

84, 96, respectively. The second cam means also includes a bearing washer I02 which is journalled about the cam member 96 and the exterior of the washer 96 defines the periphery I04 of this second cam means. The first and second cam means are so dimensioned that the maximum distance between the outer periphery 104 of the second cam means and the axis of rotation 76 of the gear is not more than the difference between the radius 92 of the first circular cam means and its throw. Thus, the outer periphery 104 of the second cam means lies entirely within the outer periphery 94 of the first cam means.

The periphery 94 of the first cam means engages the cam follower slot 34 on the driven combing blade 32 and is operable upon rotation of the gear 66 to impart reciprocal motion to the combing blades. Similarly, the periphery 104 of the second cam means engages the cam follower slot 38 on the driven shear blade and is operable to impart reciprocal motion to the driven shear blade upon rotation of the gear means. The reciprocal motion of the driven blades are opposed to each other as each of the cam means is disposed on opposite sides of the center of rotation of the gear membersv By dimensioning the first and second cam means in such a manner that the second cam means lies entirely within the periphery of the first cam means it is not possible for one cam to interfere with the cam follower slot which is adapted to receive the other cam means. This feature can best be appreciated from an inspection of FIGS. 6 through 10. In FIG. 6 the

blades

22, 24 are shown in an intermediate position where the center of the cam follower slots overlie each other, a line passing through the centers of the cam means being transverse to the direction of reciprocation of the blades. FIGS. 7 and show the positions of the cam means and cam follower slots when the blades are at their extreme positions of movement, FIG. 7 showing the combing blade all the way to the right and the shearing blade 24 all the way to the left. Similarly, FIG. 10 shows the shear blade all the way to the right and the combing blade all the way to the left. FIGS. 8 and 9 show intermediate positions, the position shown in FIG. 8 lying somewhat between the positions shown in FIGS. 6 and 7, and the position shown in FIG. 9 lying somewhere between the position shown in FIGS. 6 and 10. It can be appreciated that at no point can the second cam means engage the cam follower slot which is adapted to be engaged by the first means as at all times the second cam means lies entirely within the cam follower slot adapted to be engaged by the first cam means. Similarly, it is not possible for the first cam means to engage the cam follower slot 38 which is adapted to be engaged by the second cam means as at all times the cam follower slot 38 lies within the periphery of the first cam means. Thus, even though the blades will be subjected to vertical deflection, it is not possible for one cam means to interfere with the cam follower slot that is adapted to be engaged by the other cam means.

In FIGS. 4 and 5 a slightly modified gear means and cam assembly is illustrated. The gear means shown in these Figures includes a gear 108 having teeth 110 on its outer periphery, the gear 108 being provided with a circular recess 112 about a hub portion 114. An intermediate drive member 116 is journalled about the hub 114, the intermediate member being driven by the gear through clutch elements 118 having intermediate portions which bear against the outer periphery of the intermediate member and end portions which bear against the outer wall 120 of the recess 112, the clutch elements being formed of resilient steel or the like. The cam means are formed on the bottom surface of the intermediate member 116 and correspond to the cams described above in their dimensional relationships, however, the cam means do not include the bearing washers of the preceding embodiment. The portions of the cam means of this embodment which are common to the previously described embodiment are designated by the same reference numerals. In this embodiment the periphery 94 of the first circular projection 84 would hear directly against the cam follower slot 34 of the blade 32. Similarly, the periphery 104 of the second projection 96 would bear directly against the cam follower slot 38 of the blade 24. The relationship of the cam means to the cam follower slots would be substantially the same as the relationships illustrated in FIGS. 6-10.

In the previous example of FIGS. 2 and 3, the cam means was illustrated as including a cam member and, to allow additional useful life, a bearing washer surrounding the cam member. The envelope of the cam means in that instance was accordingly the envelope of the bearing washer and it is the outer periphery of the smaller bearing washer which must lie within the outer periphery of the larger bearing washer at all times in order to prevent overlap and possible breakage. It is noted that, regardless of whether the cams include a bearing washer or not, the envelope of the smaller cam means can lie anywhere within the periphery of the larger cam means up to a point of internal tangency. Thus, the cam members illustrated in FIGS. 4 and 5 which are tangent can be used as direct driving ele ments fitted in appropriately sized blade yokes, or the peripheries of the washers of FIG. 3 could be tangent if desired.

It is an additional feature of this invention to counterbalance the inertial forces of the rotating and reciprocating members. To this end, the gear 66 is provided with an aperture 122 so that the gear will be dynamically balanced when rotating. Similarly, the throw of the second cam means which engages the lighter weight shear bar is greater than the throw of the first cam means which engages the heavier shear bar, the difference in the throws being so selected that when the gear is rotated the inertial forces created by the opposed reciprocation of the blades of differing masses are sub stantially counterbalanced. In the embodiment shown in FIGS. 4 and 5 the gear means 64 is dynamically balanced by providing an aperture 124 in the intermediate drive member 116.

It is also noted that the present invention has been described in terms ofa counter-reciprocating blade system in which the blade masses are different. If the masses of the blades are equal, the cams are placed on the gear face so that the

centers

88 and 100 thereof are equally spaced about the center of rotation 76 of the gear. Thus, since the two blades of equal mass are moved equal distances, no imbalance occurs. In this regard, it is noted that the cams in either this system or in the systems illustrated in the drawings are already balanced by the provision of an

opening

122 or 124.

The embodiments illustrated above have been directed to the specific instance of a reciprocating drive for a hedge trimmer having two moving blades. It is also noted that this drive mechanism is suitable for adaptation to other constructions such as cultivators or the like in which counter-reciprocating members are to be driven from a rotary source. The advantages set forth above would accrue in a similar manner in these alternative constructions.

While preferred structures in which the principles of the present invention have been incorporated are shown and described above, it is to be understood that the invention is not to be limited to the particular details, as shown and described above. but that. in fact. widely different means may be employed in the practice of the broader aspects of the invention.

What is claimed is:

l. A portable hedge trimmer or the like comprising:

housing means;

a shear blade assembly secured to said housing means. said shear blade assembly including first and second driven blades, each of said driven blades having a yoke at one end defining a cam follower slot, and support means for mounting said driven blades for opposed reciprocal movement with respect to each other. said support means holding said yokes in juxtapositioned relationship with respect to each other;

drive means mounted within said housing means. said drive means including a drive member rotatable about an axis normal to the plane of reciprocation of said driven blades;

first circular cam means mounted upon one side of said drive member with its center to one side of the axis of rotation of said drive member. the first cam means having a radius in excess of its throw and the periphery of said first cam means engaging the cam follower slot on the first driven blade and operable upon rotation of said drive member to impart reciprocal movement to said first driven blade; and

second circular cam means mounted on the first cam means with its center eccentric to said first cam means and to said drive member, the periphery of the second cam means engaging the cam follower slot on the second driven blade and operable to impart reciprocal movement to said second driven blade upon rotation ofsaid drive member. the max imum distance between the outer periphery of the second circular cam means and the axis of rotation of the drive member being not more than the difference between the radius of the first circular cam means and its throw whereby one cam means can not interfere with the cam follower slot which is adapted to receive the other cam means.

2. The portable hedge trimmer or the like set forth in claim 1 wherein said first driven blade has a mass in excess of said second driven blade, said second circular cam means having its center lying on the opposite side of the axis of rotation of said drive member. the dis tance between the center of said second circular cam means and the axis of rotation of said drive member being greater than the distance between the center of said first circular cam means and the axis of rotation of the drive member whereby the inertial forces created by the reciprocation of the blades of differing mass are substantially counterbalanced.

3. The portable hedge trimmer set forth in claim 1 wherein the mass of said first driven blade is the same as the mass of said second driven blade. the center of said second circular cam means being positioned on the opposite side of the axis of rotation of said drive mem her from the center of said first circular cam means. the distance between the center of said first circular cam means and the axis of rotation of said drive member being the same as the distance between the center of said second circular cam means and the axis of said drive member whereby unbalanced inertial forces are eliminated.

4. The portable hedge L nnmer or the like set forth in claim 1 wherein said first cam means is integral with said drive member.

5. A portable hedge trimmer or the like comprising:

housing means;

a shear blade assembly secured to said housing means, said shear blade assembly including a driven shear blade and a driven combing blade, each of said driven blades having a yoke at one end defining a transversely extending cam follower slot. the mass of the combing blade being greater than the mass of the shear blade. and support means for mounting said driven blades for opposed reciprocal movement with respect to each other. said support means holding said yokes in juxtapositioned relationship with respect to each other;

drive means mounted within said housing means. said drive means including an output shaft rotatable about an axis normal to the plane of reciprocation of said driven blades; and

gear means mounted within said housing means for rotation about an axis parallel to the axis of the output shaft, said gear means in a driven engagement with said output shaft;

first circular cam means mounted upon one side of said gear means with its center to one side of the axis of rotation of the gear means, the first cam means having a radius in excess of the distance between its center and the axis of rotation of the gear means, the periphery of said first cam means engaging the cam follower slot on the driven combing blade and operable upon rotation of said gear means to impart reciprocal movement to said combing blade; and

second circular cam means mounted on the first cam means lying in a line which passes through the center of the first cam means and the axis of rotation of the gear. with the axis of rotation of the gear being between the centers of the first and second cam means. the periphery of the second cam means engaging the cam follower slot on the driven shear blade and operable to impart reciprocal movement to said driven shear blade upon rotation of said gear means, said reciprocal motion of the driven shear blade being opposed to the reciprocal motion of the driven combing blade. the distance between the center of the second circular cam means and the axis of rotation of the gear being greater than the distance between the center of the first circular cam means and the axis of rotation of the gear whereby the inertial forces created by the opposed reciprocation of the blades of differing masses are substantially counterbalanced, the maximum distance between the outer periphery of the second circular cam means and the axis of rotation of the gear being not more than the difference between the radius of the first circular cam means and the distance between the center of the first circular cam means and the axis of rotation of the gear whereby one cam means cannot interfere with the cam follower slot which is adapted to receive the other cam means.

6. The portable hedge trimmer or the like set forth in claim 5 wherein said first circular cam means includes a first circular projection formed integrally with said gear. and a bearing washer mounted concentrically about said first circular projection. said bearing washer engaging the cam follower slot of said driven combing blade.

7. The portable hedge trimmer or the like set forth in claim 6 wherein said second circular cam means includes a second circular projection extending outwardly from said first circular projection and a bearing washer disposed about said second circular projection, the bearing washer engaging the cam follower slot of said driven shear blade.

8. The portable hedge trimmer or the like set forth in claim wherein each of said blades has a plurality of elongated apertures; and said support means for mounting said driven blades includes a mounting plate having one end which extends beyond the yoke of said driven blades, a cover plate, a plurality of fastener means which extend between the mounting plate and the cover plate, said fastener means passing through said elongated apertures in said driven blades, and spacers disposed about said fastener means, the mounting plate being secured to said housing means.

9. The portable hedge trimmer or the like set forth in claim 5 wherein said gear is provided with an aperture to one side of its axis of rotation to the same side as the center of the first circular cam means to dynamically balance said gear.

10. In a portable electric hedge trimmer including a housing, electric motor means within said housing, an output shaft driven by said motor, means for supplying energy to said motor, cutter means having two oppositely reciprocated cutting elements and a coupling system for producing reciprocation of said cutting elements upon rotation of said output shaft, the improvement comprising a rotary member driven about a first axis by said output shaft; first cam means mounted on said rotary membe for eccentric movement about said first axis upon rotation of said rotary member; and second cam means mounted on said first cam means for eccentric motion about said first axis upon rotation of said rotary member; said second cam means having a periphery entirely contained within the periphery of said first cam means.

11. In a portable hedge trimmer of the type comprising an electric motor mounted in a housing for driving two oppositely reciprocating cutter blades mounted in face-to-face relationship, and drive yoke extensions on each of said blades extending into said housing, the improvement comprising a relatively larger yoke and a relatively smaller yoke on said extensions coextensive with their respective blades and in overlying relation ship to each other, a composite drive cam extending through both said yokes and having a relatively smaller cam portion drivingly engaging with said smaller yoke and having a relatively larger cam portion drivingly engaging said larger yoke, said smaller cam portion being entirely contained within the periphery of said larger cam portion and having its axis offset from the axis of said larger cam portion and coupling means to drive said composite drive cam from said electric motor about an axis contained within the periphery of said larger cam and spaced from the axes of said larger and smaller cam portions.

Claims

1. A portable hedge trimmer or the like comprising: housing means; a shear blade assembly secured to said housing means, said shear blade assembly including first and second driven blades, each of said driven blades having a yoke at one end defining a cam follower slot, and support means for mounting said driven blades for opposed reciprocal movement with respect to each other, said support means holding said yokes in juxtapositioned relationship with respect to each other; drive means mounted within said housing means, said drive means including a drive member rotatable about an axis normal to the plane of reciprocation of said driven blades; first circular cam means mounted upon one side of said drive member with its center to one side of the axis of rotation of said drive member, the first cam means having a radius in excess of its throw and the periphery of said first cam means engaging the cam follower slot on the first driven blade and operable upon rotation of said drive member to impart reciprocal movement to said first driven blade; and second circular cam means mounted on the first cam means with its center eccentric to said first cam means and to said drive member, the periphery of the second cam means engaging the cam follower slot on the second driven blade and operable to impart reciprocal movement to said second driven blade upon rotation of said drive member, the maximum distance between the outer periphery of the second circular cam means and the axis of rotation of the drive member being not more than the differEnce between the radius of the first circular cam means and its throw whereby one cam means cannot interfere with the cam follower slot which is adapted to receive the other cam means.

2. The portable hedge trimmer or the like set forth in claim 1 wherein said first driven blade has a mass in excess of said second driven blade, said second circular cam means having its center lying on the opposite side of the axis of rotation of said drive member, the distance between the center of said second circular cam means and the axis of rotation of said drive member being greater than the distance between the center of said first circular cam means and the axis of rotation of the drive member whereby the inertial forces created by the reciprocation of the blades of differing mass are substantially counterbalanced.

3. The portable hedge trimmer set forth in claim 1 wherein the mass of said first driven blade is the same as the mass of said second driven blade, the center of said second circular cam means being positioned on the opposite side of the axis of rotation of said drive member from the center of said first circular cam means, the distance between the center of said first circular cam means and the axis of rotation of said drive member being the same as the distance between the center of said second circular cam means and the axis of said drive member whereby unbalanced inertial forces are eliminated.

4. The portable hedge trimmer or the like set forth in claim 1 wherein said first cam means is integral with said drive member.

5. A portable hedge trimmer or the like comprising: housing means; a shear blade assembly secured to said housing means, said shear blade assembly including a driven shear blade and a driven combing blade, each of said driven blades having a yoke at one end defining a transversely extending cam follower slot, the mass of the combing blade being greater than the mass of the shear blade, and support means for mounting said driven blades for opposed reciprocal movement with respect to each other, said support means holding said yokes in juxtapositioned relationship with respect to each other; drive means mounted within said housing means, said drive means including an output shaft rotatable about an axis normal to the plane of reciprocation of said driven blades; and gear means mounted within said housing means for rotation about an axis parallel to the axis of the output shaft, said gear means in a driven engagement with said output shaft; first circular cam means mounted upon one side of said gear means with its center to one side of the axis of rotation of the gear means, the first cam means having a radius in excess of the distance between its center and the axis of rotation of the gear means, the periphery of said first cam means engaging the cam follower slot on the driven combing blade and operable upon rotation of said gear means to impart reciprocal movement to said combing blade; and second circular cam means mounted on the first cam means lying in a line which passes through the center of the first cam means and the axis of rotation of the gear, with the axis of rotation of the gear being between the centers of the first and second cam means, the periphery of the second cam means engaging the cam follower slot on the driven shear blade and operable to impart reciprocal movement to said driven shear blade upon rotation of said gear means, said reciprocal motion of the driven shear blade being opposed to the reciprocal motion of the driven combing blade, the distance between the center of the second circular cam means and the axis of rotation of the gear being greater than the distance between the center of the first circular cam means and the axis of rotation of the gear whereby the inertial forces created by the opposed reciprocation of the blades of differing masses are substantially counterbalanced, the maximum distance between the outer periphery of the second circular cam means and the axis of rotation of thE gear being not more than the difference between the radius of the first circular cam means and the distance between the center of the first circular cam means and the axis of rotation of the gear whereby one cam means cannot interfere with the cam follower slot which is adapted to receive the other cam means.

6. The portable hedge trimmer or the like set forth in claim 5 wherein said first circular cam means includes a first circular projection formed integrally with said gear, and a bearing washer mounted concentrically about said first circular projection, said bearing washer engaging the cam follower slot of said driven combing blade.

8. The portable hedge trimmer or the like set forth in claim 5 wherein each of said blades has a plurality of elongated apertures; and said support means for mounting said driven blades includes a mounting plate having one end which extends beyond the yoke of said driven blades, a cover plate, a plurality of fastener means which extend between the mounting plate and the cover plate, said fastener means passing through said elongated apertures in said driven blades, and spacers disposed about said fastener means, the mounting plate being secured to said housing means.

11. In a portable hedge trimmer of the type comprising an electric motor mounted in a housing for driving two oppositely reciprocating cutter blades mounted in face-to-face relationship, and drive yoke extensions on each of said blades extending into said housing, the improvement comprising a relatively larger yoke and a relatively smaller yoke on said extensions co-extensive with their respective blades and in overlying relationship to each other, a composite drive cam extending through both said yokes and having a relatively smaller cam portion drivingly engaging with said smaller yoke and having a relatively larger cam portion drivingly engaging said larger yoke, said smaller cam portion being entirely contained within the periphery of said larger cam portion and having its axis offset from the axis of said larger cam portion and coupling means to drive said composite drive cam from said electric motor about an axis contained within the periphery of said larger cam and spaced from the axes of said larger and smaller cam portions.