US1024379A - Engine. - Google Patents

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US1024379A
US1024379A US65103411A US1911651034A US1024379A US 1024379 A US1024379 A US 1024379A US 65103411 A US65103411 A US 65103411A US 1911651034 A US1911651034 A US 1911651034A US 1024379 A US1024379 A US 1024379A
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shaft
piston
cylinder
sleeves
pawls
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US65103411A
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Agostino Tosco
Attilio Camino
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01LCYCLICALLY OPERATING VALVES FOR MACHINES OR ENGINES
    • F01L29/00Reversing-gear
    • F01L29/04Reversing-gear by links or guide rods
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/15Intermittent grip type mechanical movement
    • Y10T74/1526Oscillation or reciprocation to intermittent unidirectional motion
    • Y10T74/1527Screw and nut devices

Definitions

  • This invention relates to a steam engine, and particularly pertains to a direct drive reciprocating engine.
  • Another object is to provide a simple and efficient means whereby the direction of rotation of the shaft may be easily reversed.
  • FIG. 1 is a vertical longitudinal section of the invention partly in elevation and partly in diagram.
  • Fig. 2 is an enlarged section of the piston showing the mechanism for converting an alternate reciproeating motion of the piston into a continuous rotary motion of a shaft, and illustrating the device by means of which the direction of rotation of the shaft may be reversed.
  • Fig. 3 is a section on the line X-X of Fig. 2.
  • A represents t-he engine cylinder, which 1s provided with the usual steam passages 2 opening at their outer vends into each end of the cylinder and terminating in a valve casing 3 at their inner ends.
  • a D-valve 4 to control the iow of steam from a supply pipe 5 to and from the passages 2 and the cylinder A, as is common in steam engine construction.
  • the D-valve 4 is designed to be reciprocated by means of a rod 6 actuated by any suitable valve-gear, such for instance, as indicated in diagram at 7, which is controlled by the action of a reciprocating tubular piston-rod 8 which extends longitudinally through the cylinder A centrally thereof; the piston-rod 8 passing through shitting-boxes 9 in the end plates of the cylinder A shown in Fig. l.
  • the piston-rod 8 is divided intermediate its ends and is attached to a hollow piston 10 arranged within the cylinder A and adapted to be reciprocated by the steam pressure admitted to the 'interior of the cylinder A throug'h the passages 2 in the usual manner; the rods 8 being such length as to extend a short distance beyond the ends of the cylinder A at all times.
  • a drive-shaft 11 Extending lengthwise through the tubular pistonrod 8 and the hollow piston 10 and revoluble therein is a drive-shaft 11, the outer ends of which are supported in end-thrust bearings 12-12. Mounted on the drive-shaft l1 adjacent the bearing 12 is a fly-wheel 13.
  • the portion of the shaft 11, which lies withinl the cylinder A is provided with crossed spiral grooves 14-14, as particularly shown in Fig. 2, and mounted within the piston 10 is a. pair of sleeves 15 15 which surround the' shaft 11 and have spiral ribs 16-16 on their inner walls which engagel the spiral grooves 14--14 respectively; the sleeve 15 thus being adapted to travel on the shaft 11 in engagement with the spiral groove 14, while the sleeve 15 will travel on the shaft 11 in engagement with the spiral groove 14.
  • the sleeves 15 and 15 are inclosed within a cylinder 17, disposed within the piston 10, and which cylinder is closed at its ends by means of end plates a and is provided with a partition b, arranged between the adjacent ends of t-he sleeves 15-15; the cylinder 17 being rigidly mounted within the piston 10 by attaching the end plates a of the cylinder 17 to the end plates of the piston 10.
  • the ends of the sleeves 15-15 are provided with annular rooves, and corresponding grooves are ormed on the adjacent faces of the end plate a and the part-ition b; these grooves forming runways for ball-bearings 18 which form anti-friction, end-thrust bearings for the sleeves 15-15.
  • Means are provided for preventingrotaf tion of the sleeves 15-15 in either direction, and are here shown as consist-ing of square ratchet teeth 19-19 formed on the sleeves 15-15 respectively and two pairs of pawls 20-20 which are pivotally mounted on a fixed shaft 21, supported on standards 22, mounted on the upper side of the' cylinder 17.
  • the pawls 20-20 extend A of the spiral rib 16 through a slot formed in the cylinder 17; the pawls 20-20 engaging the ratchet teeth 19-19 on one side of the vertical center of the sleeves 15*15, while the pawls 20-20 are adapted to engage the ratchet teeth 19-19 on the opposite side of the vertical diameter of the sleeves 15-15, as shown in Fig. 3.
  • Plate springs 23 bear against the upper or outer faces of the pawls 20u20 to normally retain them in engagement with the ratchet teeth 19-19g it being obvious,
  • crank 24 which crank is formed on the rod or shaft 25 extending through a tube or pipe 26 mounted o-n the end of the piston 10; and which pipe passes through' a stuting-box 27 in the end of the cylinder A, and paralleling the tubular piston rod 8,
  • the shaft 25 is designed to be rocked by means of ay lever handle 29 mounted o-n its outer end adjacent to the end of the tube 26, so as to rock the crank 24 to raise either pawls 20 or the pawls 20 out of engagement with the 'ratchet teeth 19-19, as shown in Fig. 3; a pawl 30 on the sleeve 26 engaging a ratchet 31 on the rod 25 in such manner as to retain the latter in a fixed position and thus securely hold the pawls 2O or 20 in their disengaged position.
  • a pipe or rod 32 is attached to the piston 10 on the side opposite that on which the tube 26 is mounted and extends through a stufiing box 33 in the end of the cylinder A, and is connected at its outer end to the tubular piston rod 8 by means of a standard 34.
  • the sleeve 15 On the return stroke of the piston 10, the sleeve 15 will be blocked against movement by the pawl 20 engaging the teeth 19 so as to cause t-he spiral rib 16 to act on the sides of the spiral groove 14 in such manner as to continue the rotation of the shaft 14 in the same direction as was traversed by the shaft on the forward movement of the piston; the sleeve 15 then traveling freely beneath the pawl 20 as the spiral rib 16 travels back through the spiral groove 14.
  • the fiy-wheel 13 acts in t-he usual manner to maintain a uniform and steady rotation of the drive shaft 11; it being employed as a belt pulley if desired to transmit power from the shaft 11. Any other means may be employed, however, for transmitting power from the drive shaft, not necessary to be here shown.
  • tubular piston rod 8 prevents the escape of steam from one side of the piston to the other through the spiral groove l4-14. and the use of the endthrust bearings 12 on the shaft lland endthrust bearings on the sleeves 15-15 acts in the usual manner to reduce friction at these points.
  • a reciprocating engine, cylinder, a valve chamber, ports connectin with the cylinder ends, a hollow piston aving tubular sleeves extending from its ends through the cylinder heads, a turnable shaft with oppositely crossed spiral grooves between the cylinder heads and exterior thrust bearing, a plurality of sleeves'inclosing the shaft within comprising a the piston having spiral ribs engaging the spiral of the shaft, a cylinder fixed Within the piston and anti-friction bearin sbetween said cylinder and the sleeves, rate ets fixed to the sleeves, pawls suspended upon a shaft a slide valve andv above the center of the piston contained cylinder, and engaging the ratchets upon opposite sides of their centers, and means to disengage either of said pawls from its ratchet.
  • a reciprocating engine comprising a cylinder, a valve chamber, a slide valve and ports connecting1 with the cylinder ends, a
  • olloW' piston aving tubular sleeves eX- tending from its ends through the cylinder heads, a turnable shaft With oppositely crossed spiral grooves between lthecylinder heads and exterior thrustbearings, a plurality of sleeves inclosing the shaft Within the piston having spiral ribs engaging the spirals of the shaft, a cylinder fixed Within the piston and antifrictionbearings between said .cylinder and the sleeves, ratchets xed scribing Witnesses.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Transmission Devices (AREA)

Description

A. TOSCO 3a A. CAMINO.
ENGINE. APPLICATION FILED 93H15', 1911.
Patented A111223, 1912.
Z SHEETS-SHEET 1.
A. TOSGO & A. CAMINO.
ENGINE.
APPLIOATION FILED SEPT. 25, 1911.
AGOSTINO TOSCO AND .ATTILIO CAMINO, OF SAN FRANCISCO, CALIFORNIA.
ENGINE.
Specication of Letters Patent.
Patented Apr. 23, 1912.
Application filed September`25, 1911. Serial No. 651,034.
To all whom it may concern:
- ATTILIO CAMINO, subjects of the King of Italy. and both residing in the city and county of San Francisco and State of ICalifornia, have invented new and useful Improvements in Engines, of which the following is a. specification. ff
This invention relates to a steam engine, and particularly pertains to a direct drive reciprocating engine.
It is the object of this invention to provide`means in a reciprocating engine by whiclrthe alternate rectilinear mot-ion of a piston produces a continuous rotary movement of a shaft, and which Ineans is arranged Within tlie engine cylinder so as to drive the shaft direct.
Another object is to provide a simple and efficient means whereby the direction of rotation of the shaft may be easily reversed.
Further objects of this 'invention will be disclosed in the following specification.
The invention consists of the parts and the construction and combination of parts as hereinafter more fully described and claimed, having reference to the accompanying drawings, in which- Figure 1 is a vertical longitudinal section of the invention partly in elevation and partly in diagram. Fig. 2 is an enlarged section of the piston showing the mechanism for converting an alternate reciproeating motion of the piston into a continuous rotary motion of a shaft, and illustrating the device by means of which the direction of rotation of the shaft may be reversed. Fig. 3 is a section on the line X-X of Fig. 2.
In the drawings, A represents t-he engine cylinder, which 1s provided with the usual steam passages 2 opening at their outer vends into each end of the cylinder and terminating in a valve casing 3 at their inner ends. In the casing 3 is mounted a D-valve 4 to control the iow of steam from a supply pipe 5 to and from the passages 2 and the cylinder A, as is common in steam engine construction. The D-valve 4 is designed to be reciprocated by means of a rod 6 actuated by any suitable valve-gear, such for instance, as indicated in diagram at 7, which is controlled by the action of a reciprocating tubular piston-rod 8 which extends longitudinally through the cylinder A centrally thereof; the piston-rod 8 passing through shitting-boxes 9 in the end plates of the cylinder A shown in Fig. l.
The piston-rod 8 is divided intermediate its ends and is attached to a hollow piston 10 arranged within the cylinder A and adapted to be reciprocated by the steam pressure admitted to the 'interior of the cylinder A throug'h the passages 2 in the usual manner; the rods 8 being such length as to extend a short distance beyond the ends of the cylinder A at all times.
Extending lengthwise through the tubular pistonrod 8 and the hollow piston 10 and revoluble therein is a drive-shaft 11, the outer ends of which are supported in end-thrust bearings 12-12. Mounted on the drive-shaft l1 adjacent the bearing 12 is a fly-wheel 13.
The portion of the shaft 11, which lies withinl the cylinder A is provided with crossed spiral grooves 14-14, as particularly shown in Fig. 2, and mounted within the piston 10 is a. pair of sleeves 15 15 which surround the' shaft 11 and have spiral ribs 16-16 on their inner walls which engagel the spiral grooves 14--14 respectively; the sleeve 15 thus being adapted to travel on the shaft 11 in engagement with the spiral groove 14, while the sleeve 15 will travel on the shaft 11 in engagement with the spiral groove 14.
The sleeves 15 and 15 are inclosed within a cylinder 17, disposed within the piston 10, and which cylinder is closed at its ends by means of end plates a and is provided with a partition b, arranged between the adjacent ends of t-he sleeves 15-15; the cylinder 17 being rigidly mounted within the piston 10 by attaching the end plates a of the cylinder 17 to the end plates of the piston 10.
The ends of the sleeves 15-15 are provided with annular rooves, and corresponding grooves are ormed on the adjacent faces of the end plate a and the part-ition b; these grooves forming runways for ball-bearings 18 which form anti-friction, end-thrust bearings for the sleeves 15-15.
Means are provided for preventingrotaf tion of the sleeves 15-15 in either direction, and are here shown as consist-ing of square ratchet teeth 19-19 formed on the sleeves 15-15 respectively and two pairs of pawls 20-20 which are pivotally mounted on a fixed shaft 21, supported on standards 22, mounted on the upper side of the' cylinder 17. The pawls 20-20 extend A of the spiral rib 16 through a slot formed in the cylinder 17; the pawls 20-20 engaging the ratchet teeth 19-19 on one side of the vertical center of the sleeves 15*15, while the pawls 20-20 are adapted to engage the ratchet teeth 19-19 on the opposite side of the vertical diameter of the sleeves 15-15, as shown in Fig. 3.
Plate springs 23 bear against the upper or outer faces of the pawls 20u20 to normally retain them in engagement with the ratchet teeth 19-19g it being obvious,
however, that where the pawls are depended,
as shown in the drawings, they would normally gravitate into their engaged position.
Mounted on the standards 22, below the shaft 21 and extending between the pawls 20-20 is a crank 24, which crank is formed on the rod or shaft 25 extending through a tube or pipe 26 mounted o-n the end of the piston 10; and which pipe passes through' a stuting-box 27 in the end of the cylinder A, and paralleling the tubular piston rod 8,
is attached to the outer end of the latter by means of a standard 28, as shown in Fig. l, or other suitable' fastening. The shaft 25 is designed to be rocked by means of ay lever handle 29 mounted o-n its outer end adjacent to the end of the tube 26, so as to rock the crank 24 to raise either pawls 20 or the pawls 20 out of engagement with the 'ratchet teeth 19-19, as shown in Fig. 3; a pawl 30 on the sleeve 26 engaging a ratchet 31 on the rod 25 in such manner as to retain the latter in a fixed position and thus securely hold the pawls 2O or 20 in their disengaged position.
A pipe or rod 32 is attached to the piston 10 on the side opposite that on which the tube 26 is mounted and extends through a stufiing box 33 in the end of the cylinder A, and is connected at its outer end to the tubular piston rod 8 by means of a standard 34. The tube 26 and tube 32 extending through the ends of the cylinder A, act to prevent rotation of the piston 10.
In the operation of the invention, steam is admitted to the cylinder A through the passages 2 so as to cause the piston l0 to reciprocate in the manner common to the ordinary and well known steam engine. The piston 10 in traveling in the forward direction indicated by t-he arrow Z in Figs. 1 and 2, causes the spiral rib 16 on the sleeve 15 to act in the spiral groove 14 on the shaft 11 on the principle of the inclined plane, in
such manner as to cause the shaft 11 to rev volve in the direction indicatedby the arrow Y, Fig 2; the sleeve 15 being blocked agamst movement in one direction by means o the pawl 20, to cause the shaft 11 to revolve, while the sleeve 15.will rotate freely on the shaft 11 under the pawl 20 by reason traveling in the spiral groove 14 Lon the forward stroke of the piston. On the return stroke of the piston 10, the sleeve 15 will be blocked against movement by the pawl 20 engaging the teeth 19 so as to cause t-he spiral rib 16 to act on the sides of the spiral groove 14 in such manner as to continue the rotation of the shaft 14 in the same direction as was traversed by the shaft on the forward movement of the piston; the sleeve 15 then traveling freely beneath the pawl 20 as the spiral rib 16 travels back through the spiral groove 14.
It will be seen, when t-he pawls 20 are engaged with the ratchet teeth 19-19, tha't as the piston 10 is reciprocated 4the shaftv 11 will be rotated continuously in one direction by the alternate action of the spiral ribs 16-16 in the sleeves'15-15 on the grooves 14-14 respectively. When it is desired to reverse the direction of rotation of the shaft 11, the crank 24 is thrown over by the operation of the lever handle 29 in such manner as to allow the pawls 20 to drop and engage the ratchet teeth 19-19 and. to throw the pawls 20 out of engagement therewith. This blocks the rotation of the sleeve 15 on the rearward stroke of the piston 10 and allows it to move freely on the forward stroke while the sleeve 15 is blocked against rotation on the forward stroke and is free to revolve on therearward stroke.
The fiy-wheel 13 acts in t-he usual manner to maintain a uniform and steady rotation of the drive shaft 11; it being employed as a belt pulley if desired to transmit power from the shaft 11. Any other means may be employed, however, for transmitting power from the drive shaft, not necessary to be here shown.
The use of the tubular piston rod 8 prevents the escape of steam from one side of the piston to the other through the spiral groove l4-14. and the use of the endthrust bearings 12 on the shaft lland endthrust bearings on the sleeves 15-15 acts in the usual manner to reduce friction at these points.
Having thus described our invention, what we claim and desire to secure by'Letters Patent is y 1. A reciprocating engine, cylinder, a valve chamber, ports connectin with the cylinder ends, a hollow piston aving tubular sleeves extending from its ends through the cylinder heads, a turnable shaft with oppositely crossed spiral grooves between the cylinder heads and exterior thrust bearing, a plurality of sleeves'inclosing the shaft within comprising a the piston having spiral ribs engaging the spiral of the shaft, a cylinder fixed Within the piston and anti-friction bearin sbetween said cylinder and the sleeves, rate ets fixed to the sleeves, pawls suspended upon a shaft a slide valve andv above the center of the piston contained cylinder, and engaging the ratchets upon opposite sides of their centers, and means to disengage either of said pawls from its ratchet. p
2. A reciprocating engine, comprising a cylinder, a valve chamber, a slide valve and ports connecting1 with the cylinder ends, a
olloW' piston aving tubular sleeves eX- tending from its ends through the cylinder heads, a turnable shaft With oppositely crossed spiral grooves between lthecylinder heads and exterior thrustbearings, a plurality of sleeves inclosing the shaft Within the piston having spiral ribs engaging the spirals of the shaft, a cylinder fixed Within the piston and antifrictionbearings between said .cylinder and the sleeves, ratchets xed scribing Witnesses.
AGOSTINO TOSCO. ATTILIO CAMINO. Witnesses:
JOHN H. IIERRING, CHARLES EDELMAN.
US65103411A 1911-09-25 1911-09-25 Engine. Expired - Lifetime US1024379A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2935048A (en) * 1957-08-29 1960-05-03 Gen Motors Corp Actuator assembly
US5390585A (en) * 1994-01-11 1995-02-21 Samjoo Machinery Co., Ltd. Rotary motion/constant velocity linear reciprocating motion conversion device and hydraulic system using the same
US5542335A (en) * 1994-11-14 1996-08-06 Goodyear; Richard G. Hydraulic assist propulsion apparatus for vehicle drive

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2935048A (en) * 1957-08-29 1960-05-03 Gen Motors Corp Actuator assembly
US5390585A (en) * 1994-01-11 1995-02-21 Samjoo Machinery Co., Ltd. Rotary motion/constant velocity linear reciprocating motion conversion device and hydraulic system using the same
US5542335A (en) * 1994-11-14 1996-08-06 Goodyear; Richard G. Hydraulic assist propulsion apparatus for vehicle drive

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