US405500A - peteerigk - Google Patents

peteerigk Download PDF

Info

Publication number
US405500A
US405500A US405500DA US405500A US 405500 A US405500 A US 405500A US 405500D A US405500D A US 405500DA US 405500 A US405500 A US 405500A
Authority
US
United States
Prior art keywords
eccentric
shaft
casing
blade
blades
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
Publication date
Application granted granted Critical
Publication of US405500A publication Critical patent/US405500A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26BHAND-HELD CUTTING TOOLS NOT OTHERWISE PROVIDED FOR
    • B26B15/00Hand-held shears with motor-driven blades

Definitions

  • This invention of an improved sheep-shearing machine relates to a type of machine having cutters or blades similar to those used in the ordinary spring-bow shears now commonly used by shearers.
  • the shears or blades are attached to a hollowhandle or casing, in which is assembled the requisite mechanism for imparting motion to one of the blades, leaving the other stationary and secured to the casing by screws, so that it can be easily removed for sharpening or other purposes.
  • motion maybe imparted to both of the blades, although l have shown in my drawings a machine in which motion is imparted to only one blade, the other being stationary.
  • a coupling which is attached to a flexible shaft, through the medium of which the necessary motion is Vimparted to the machine.
  • a thumb-lever is arranged at the side of the casing, by pressing which the operator is enabled to regulate the stroke of the moving blade while the machine is at work and is being guided over the back of a sheep, and, further, by releasing such thumblever the blade may be stopped while the mechanism within the casing is still in action, such motion being brought about by an adjustable eccentric of peculiar construction, which, together with the whole of the mechanism, is hereinafter fully described.
  • Figure l shows aplan-of it with part of the casing broken away to exhibit the essential portions of the mechanism, and Fig. 2 shows it by a longitudinal sectional elevation.
  • Fig. 3 is a transverse section at line a a, Fig. 2; and Fig. 4, a transverse section at line b l), Fig. 2.
  • Fig. 5 is an isometric view of the mechanism for reciprocating the movable blade, the one-half of the casing shown being partly broken away together with the stationary blade, the mechanism being shown as thrown out of operation.
  • Fig. 6 is a like view of the essential portion of the operating mechanism, showing the same in its position of greatest stroke.
  • Fig. 5 is an isometric view of the mechanism for reciprocating the movable blade, the one-half of the casing shown being partly broken away together with the stationary blade, the mechanism being shown as thrown out of operation.
  • Fig. 6 is a like view of the essential portion of the operating mechanism, showing the same in its position of greatest stroke
  • Fig. 8 is a sectional detail view of the actuatingsleeve and a portion of the driving-shaft.
  • A is the hollow handle or casing; B, the iixed blade, and C the ifiovable blade.
  • the casing A is made in halves jointed longitudinally at A', and secured together by the screw-pins A2, such joint passing centrally through the tubular bearing A3 and the socket-bearing A4, which together support the main spindle D.
  • the stem B of the iiXed blade is secured by the countersunk headed screws B2 in a suitable recess formed in the under face of the casing A.
  • the movable blade C has its stem C set or cranked, as shown.
  • Said stem passes through a suitable slot A5 in the end of the casing, and at its end within the casing it has a tubular eye or bearing C2, which is centered on the screwpin C3, screwed into such casing.
  • Movable washers CL are provided at the under side of the bearing C2 to allow for the adjustment of the shears as their faces wear.
  • a vertical spherical-headed pin C5 is also formed on the stem C within the casing, and this spherical head receives the end bearing E of an eccentric -strap E, to which motion is imparted by an adjustable eccentric F, attached to the main spindle D.
  • This adjustable eccentric has lugs vor ears F projecting from its rear face, and the driving-shaft is provided with a flat boss projecting radially therefrom, the actuating-sleeve G being likewise provided with a boss or bearing c, Figs. 5, 6, 7, and 8, projecting from its forward end, said lugs F being pivoted to the bosses of the shaft and sleeve by means of pins F2 F4, respectively, as shown.
  • H are springs secured to the pin F2 and pressing on pin F4 with the tendency to force the sleeve G toward the back of the machine.
  • the sleeve G slides upon a feather, key, or other similar device on the spindle, D, and
  • a collar G loose upon the spindle D is a collar G loose upon the spindle D, and this collar has gaps in it to receive the ends ofV two curved lever-arms G2, formed on a transverse spindle G3, provided with suitable bearings in the casing A, and having the thumb-lever GL secured on its end outside of the casing, by means of which said lever the regulation of the stroke of the moving blade is effected.
  • G5 is a fixed collar on spindle D, bearing against the inner end of the tubular bearing A3, and its purpose is to retain the spindle in its place within the casing.
  • the back end of spindle D is screwed to receive a coupling J, to the outer end of which is secured the ilexible shaft J, while the casing A has a screwed ferrule A6 at its back end to receive the coupling J2 at the end of the tubular flexible covering for the shaft.
  • the eccentric F before referred to, has also a spherical surface, and it has a suitable hole f, Figs.
  • the mode of operation is as follows: Motion is imparted through the medium of a fiexible shaft to the main spindle D of the machine, the casing or handle of which is held in the hand of the operator, ⁇ and he, by forcing down the thumb-lever G1, places the adjustable eccentric at it-s position to give the requisite stroke to the moving blade. By guiding the shears over the back of a sheep the wool is clipped or shorn off in the ordinary manner. Then the thumb-lever G4 is released, the springs H bring the center of the adjustable eccentric F immediately to a position which coincides with the center of the main spindle D, and so no motion whatever is imparted to the movable blade although the main spindle be still in motion.
  • 2,111 animal-shears in which the cutters consist of a pair of shear-blades, the hereindescribed mechanism for imparting a reciprocating motion to such blades, which consistsof a driving-shaft, an eccentric mounted on said shaft, a shear-blade provided with a crank-arm pivoted on a fixed pivot, and an eccentric-strap encompassing the spherical bearing-face of the eccentric and provided with a lateral arm .for connecting the eccentric with the crank-arm of the shear-blade, substantially as and for the purposes specified.
  • the hereindescribed mechanism for imparting a reciprocating motion to such blades and regulating the amplitude of such motion which consists of a driving-shaft, an eccentric havinga spherical bearing-face and provided with an elongated diametral opening or slot through which said shaft passes, a shear-blade provided with a crank-arm pivoted on a fixed pivot, an eccentric-strap encompassing the spherical bearing-face of the eccentric and having a lateral arm for connecting the eccentric with the crank-arm of the shear-blade, and a shifting device for shifting the position of the eccentric on the shaft, substantially as and for the purposes specified.
  • the combination with a handle, a pair of shear-blades whereof one is fixed to the handle and the other provided with a crank-arm pivoted at its end within said handle, of mechanism for imparting a reciprocating motion to the blade and for regulating the amplitude of such motion contained within the handle and consisting of a driving-shaft, an eccentric hinged to vibrate on said shaft, said eccentric having a sphericalbearing-face and a diametral slot, through which the shaft passes, an eccentric-strap encompassing the spherical bearing-face of the eccentric and having a lateral arm for connecting said eccentric to the crank-arm ofthe shear-blade, and a shifting-rod connecting with the eccentric and operating to shift the position thereof on the shaft, substantially as and for the purposes specified.
  • crank-arm C' pivoted at C3 and having the spherically-headed pin C5
  • driving-shaft D provided with a boss projecting radially therefrom, of a spherical eccentric provided with a dialnetral slot, through which the shaft passes, said eccentric being hinged to the radial boss of said shaft, so as to vibrate thereon, a shifting-rod hinged to the eccentric and adapted to vibrate the saine on the shaft, and an eccentricstrap provid ed with a lateral arm in which is formed a spherical bearing for the corresponding head of the pin O5, substantially as and for the purposes specified,
  • crank-arm C' pivoted at C3, and having the spherically-headed pin G5, and the driving-shaft D, provided With a VERNON PETHERICK.

Landscapes

  • Life Sciences & Earth Sciences (AREA)
  • Forests & Forestry (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Scissors And Nippers (AREA)
  • Food-Manufacturing Devices (AREA)

Description

(No Model.) 2 Sheets-Sheet 1.
V. PETHERICK.
SHEEP SHEARS.
l'Iy PETERS. Phu!o-Lilhngmphentwashngton. DNC,
(No Mom.) 2 sheetssheet 2,
V. PBTHERICK.
. SHEEP SHBARS.
No. 405,500. 0 PatentedJune 18, 1080.
Armar OFFICE.
VERNON PETHERICK, OF BRISBANFJ, QUEENSLAND.
SHEEP-SHEARS.
SPECIFICATION forming part of Letters Patent No. 405,500, dated June 18, 1889.
Application led November 9, 1887. Serial No. 254.700 (No model.)
To all whom it may concern,.-
,Be it known that I, VERNON PETHERICK, en gineer, a subject of the Queen of Great Britain, residing at Brisbane, in the colony of Queens` land, have invented an Improved Sheep- Shearing Machine, of which the following is a specification.
This invention of an improved sheep-shearing machine relates to a type of machine having cutters or blades similar to those used in the ordinary spring-bow shears now commonly used by shearers.
In carrying out this invention the shears or blades are attached to a hollowhandle or casing, in which is assembled the requisite mechanism for imparting motion to one of the blades, leaving the other stationary and secured to the casing by screws, so that it can be easily removed for sharpening or other purposes. If desired, motion maybe imparted to both of the blades, although l have shown in my drawings a machine in which motion is imparted to only one blade, the other being stationary. At the back end of the handle or casing and connected with the main spindle therein is a coupling which is attached to a flexible shaft, through the medium of which the necessary motion is Vimparted to the machine. A thumb-lever is arranged at the side of the casing, by pressing which the operator is enabled to regulate the stroke of the moving blade while the machine is at work and is being guided over the back of a sheep, and, further, by releasing such thumblever the blade may be stopped while the mechanism within the casing is still in action, such motion being brought about by an adjustable eccentric of peculiar construction, which, together with the whole of the mechanism, is hereinafter fully described.
The attached drawings illustrate my improved sheep-shearing machine.
Figure l shows aplan-of it with part of the casing broken away to exhibit the essential portions of the mechanism, and Fig. 2 shows it by a longitudinal sectional elevation. Fig. 3 is a transverse section at line a a, Fig. 2; and Fig. 4, a transverse section at line b l), Fig. 2. Fig. 5 is an isometric view of the mechanism for reciprocating the movable blade, the one-half of the casing shown being partly broken away together with the stationary blade, the mechanism being shown as thrown out of operation. Fig. 6 is a like view of the essential portion of the operating mechanism, showing the same in its position of greatest stroke. Fig. 7 is a side view from the off side of a portion of the mechanism, showing the connections of the movable blade therewith as well as its fulcrum-pin; and Fig. 8 is a sectional detail view of the actuatingsleeve and a portion of the driving-shaft.
A is the hollow handle or casing; B, the iixed blade, and C the ifiovable blade. The casing A is made in halves jointed longitudinally at A', and secured together by the screw-pins A2, such joint passing centrally through the tubular bearing A3 and the socket-bearing A4, which together support the main spindle D. The stem B of the iiXed blade is secured by the countersunk headed screws B2 in a suitable recess formed in the under face of the casing A. The movable blade C has its stem C set or cranked, as shown. Said stem passes through a suitable slot A5 in the end of the casing, and at its end within the casing it has a tubular eye or bearing C2, which is centered on the screwpin C3, screwed into such casing.. Movable washers CL are provided at the under side of the bearing C2 to allow for the adjustment of the shears as their faces wear. A vertical spherical-headed pin C5 is also formed on the stem C within the casing, and this spherical head receives the end bearing E of an eccentric -strap E, to which motion is imparted by an adjustable eccentric F, attached to the main spindle D. This adjustable eccentric has lugs vor ears F projecting from its rear face, and the driving-shaft is provided with a flat boss projecting radially therefrom, the actuating-sleeve G being likewise provided with a boss or bearing c, Figs. 5, 6, 7, and 8, projecting from its forward end, said lugs F being pivoted to the bosses of the shaft and sleeve by means of pins F2 F4, respectively, as shown.
H are springs secured to the pin F2 and pressing on pin F4 with the tendency to force the sleeve G toward the back of the machine. The sleeve G slides upon a feather, key, or other similar device on the spindle, D, and
IOO
bearing against it at its back end is a collar G loose upon the spindle D, and this collar has gaps in it to receive the ends ofV two curved lever-arms G2, formed on a transverse spindle G3, provided with suitable bearings in the casing A, and having the thumb-lever GL secured on its end outside of the casing, by means of which said lever the regulation of the stroke of the moving blade is effected.
G5 is a fixed collar on spindle D, bearing against the inner end of the tubular bearing A3, and its purpose is to retain the spindle in its place within the casing. The back end of spindle D is screwed to receive a coupling J, to the outer end of which is secured the ilexible shaft J, while the casing A has a screwed ferrule A6 at its back end to receive the coupling J2 at the end of the tubular flexible covering for the shaft. The eccentric F, before referred to, has also a spherical surface, and it has a suitable hole f, Figs. 5 and 6, formed in it to allow of it-s vibrating freely on the spindle D from a position where its center coincides with the center of the spindle to the position shown in Figs. l and 6, when the greatest possible stroke is given to the movable blade C, the stem C of which is made of a suitable section to allow of its having the necessary spring or elasticity while at work. Vhen the faces of the blades wear, the stem of the movable blade is slightly lowered by taking out the screw-pin C3, and either removing one of the thin washers C4' or reducing it slightly in thickness, and then replacing the screw-pin C3 and screwing it down, as before.
The mode of operation is as follows: Motion is imparted through the medium of a fiexible shaft to the main spindle D of the machine, the casing or handle of which is held in the hand of the operator, `and he, by forcing down the thumb-lever G1, places the adjustable eccentric at it-s position to give the requisite stroke to the moving blade. By guiding the shears over the back of a sheep the wool is clipped or shorn off in the ordinary manner. Then the thumb-lever G4 is released, the springs H bring the center of the adjustable eccentric F immediately to a position which coincides with the center of the main spindle D, and so no motion whatever is imparted to the movable blade although the main spindle be still in motion.
lt will be obvious that, if preferred, motion may be imparted to both of the blades instead of to one only, as herein described, by duplicating the adjustable eccentric and its appurtenant parts, and having both blades pivoted in the casing, as described, and connected with such eccentrics.
Having thus described the nature of my invention and the manner of performing same, I would have it understood that what l believe to be new, and therefore claim, in my improved sheep-shearing machine is- 1. Thel herein-described animal-shears, consisting, essentially, of a pair of shear-blades,
a handle therefor divided in two sections along 'its axial line, each section having semicylindrical bearings in said axial line, and mechanism contained within the handle for reciprocating one of the blades, comprising an eccentric connected with such blade and a driving-shaft mounted in said bearings and adapted to operate the eccentric, substantially as and for the purposes specified.
2,111 animal-shears in which the cutters consist of a pair of shear-blades, the hereindescribed mechanism for imparting a reciprocating motion to such blades, which consistsof a driving-shaft, an eccentric mounted on said shaft, a shear-blade provided with a crank-arm pivoted on a fixed pivot, and an eccentric-strap encompassing the spherical bearing-face of the eccentric and provided with a lateral arm .for connecting the eccentric with the crank-arm of the shear-blade, substantially as and for the purposes specified.
3. In animal-shears in which the cutters consist of a pair of shear-blades, the hereindescribed mechanism for imparting a reciprocating motion to such blades and regulating the amplitude of such motion, which consists of a driving-shaft, an eccentric havinga spherical bearing-face and provided with an elongated diametral opening or slot through which said shaft passes, a shear-blade provided with a crank-arm pivoted on a fixed pivot, an eccentric-strap encompassing the spherical bearing-face of the eccentric and having a lateral arm for connecting the eccentric with the crank-arm of the shear-blade, and a shifting device for shifting the position of the eccentric on the shaft, substantially as and for the purposes specified.
4. In animal-shears, the combination, with a handle, a pair of shear-blades whereof one is fixed to the handle and the other provided with a crank-arm pivoted at its end within said handle, of mechanism for imparting a reciprocating motion to the blade and for regulating the amplitude of such motion contained within the handle and consisting of a driving-shaft, an eccentric hinged to vibrate on said shaft, said eccentric having a sphericalbearing-face and a diametral slot, through which the shaft passes, an eccentric-strap encompassing the spherical bearing-face of the eccentric and having a lateral arm for connecting said eccentric to the crank-arm ofthe shear-blade, and a shifting-rod connecting with the eccentric and operating to shift the position thereof on the shaft, substantially as and for the purposes specified.
5. The combination, substantially as herein described, with the crank-arm C', pivoted at C3 and having the spherically-headed pin C5, and the driving-shaft D, of a spherical eccentric mounted on said shaft, and an eccentric-strap provided with a lateral arm, in which is formed a spherical bearing for said pin C5, for the purposes specified.
'6. The combination, substantially as here- IOO IIO
in described, with the crank-arm C', pivoted at C3 and having the spherically-headed pin C5, and the driving-shaft D, provided with a boss projecting radially therefrom, of a spherical eccentric provided with a dialnetral slot, through which the shaft passes, said eccentric being hinged to the radial boss of said shaft, so as to vibrate thereon, a shifting-rod hinged to the eccentric and adapted to vibrate the saine on the shaft, and an eccentricstrap provid ed with a lateral arm in which is formed a spherical bearing for the corresponding head of the pin O5, substantially as and for the purposes specified,
7. The combination, substantially as herein described, With the crank-arm C', pivoted at C3, and having the spherically-headed pin G5, and the driving-shaft D, provided With a VERNON PETHERICK.
Vitnesses:
CHARLES ST. JOHN DAVIS, CHARLES EDWARD GRAHAM.
US405500D peteerigk Expired - Lifetime US405500A (en)

Publications (1)

Publication Number Publication Date
US405500A true US405500A (en) 1889-06-18

Family

ID=2474449

Family Applications (1)

Application Number Title Priority Date Filing Date
US405500D Expired - Lifetime US405500A (en) peteerigk

Country Status (1)

Country Link
US (1) US405500A (en)

Similar Documents

Publication Publication Date Title
US405500A (en) peteerigk
US2651107A (en) Shearing handpiece
US1427587A (en) Hair clipper
US442239A (en) eylet
US1134511A (en) Valve-grinder.
US494070A (en) moffat
US518204A (en) broomhead
US523880A (en) Charles btjrgon and harry burgon
US1037933A (en) Animal-shears.
US646377A (en) Shearing-tool.
US541288A (en) Machine
US814113A (en) Animal-shears.
US641922A (en) Brace or bit stock attachment.
US614078A (en) bland
US1046323A (en) Sheep-shearing machine.
US709522A (en) Shearing tool or clipper.
US926726A (en) Animal-shears.
US636146A (en) Animal-shears.
US968209A (en) Massage-machine.
US254090A (en) Lewis t
US550082A (en) Animal-shears
US1388439A (en) Animal-shears
US698073A (en) Clipper or shearing-tool.
US494071A (en) moffat
US636724A (en) Cloth-cutter.