US321085A - carricabueu - Google Patents

carricabueu Download PDF

Info

Publication number
US321085A
US321085A US321085DA US321085A US 321085 A US321085 A US 321085A US 321085D A US321085D A US 321085DA US 321085 A US321085 A US 321085A
Authority
US
United States
Prior art keywords
valve
engine
cylinder
piston
ports
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 US321085A publication Critical patent/US321085A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F15FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
    • F15BSYSTEMS ACTING BY MEANS OF FLUIDS IN GENERAL; FLUID-PRESSURE ACTUATORS, e.g. SERVOMOTORS; DETAILS OF FLUID-PRESSURE SYSTEMS, NOT OTHERWISE PROVIDED FOR
    • F15B11/00Servomotor systems without provision for follow-up action; Circuits therefor
    • F15B11/16Servomotor systems without provision for follow-up action; Circuits therefor with two or more servomotors
    • F15B11/20Servomotor systems without provision for follow-up action; Circuits therefor with two or more servomotors controlling several interacting or sequentially-operating members

Definitions

  • the ports passing from the cylinder of one engine to the valve-moving piston of the other engine are direct, and the ports are entirely free from any valves or moving, directing, or opening or closing devices of any kind, so that my engine is simple and free from any complication, and the ports are always open and ready for the passage of steam when the piston passes the end of the port, and the engineer can understand at a glance the entire operations of the parts.
  • Figure 1 is asection of one cylinder.
  • Fig. 2 is a diagram of the ports, valves, and pistons for use with two D slidevalves; and Fig. 3 is a similar diagram of the parts for use with a B and a D slide-valve, and Fig. 4 is a cross-section of the two cylinders.
  • My present invention relates to the broad features of invention which are only partially shown in said application.
  • the engine No. 1 with steam-cylinder B, piston 1), ports 4 5 6 7, exhaust-port M, valve F,and valve-moving pistonsGand Gin the cylinders H H, are similar to the parts shown in my aforesaid application, and I employ a second cylinder, No. 2, with piston B and ports N N leading to the valve-moving cylinders H H of the engine No. 1.
  • the cylinder B is adjacent to the cylinder B, and such ports N N open into the cylinder B near the middle thereof.
  • the piston 15. uncovers the port N and admits the live steam to pass directly to the valve-moving cylinder H and act'upon the piston G, and shift the valve F of the cylinder B, causing the steam to pass in through the port 7 and act upon the piston b to move it in the opposite direction.
  • the piston B covers the port Nat the same I time that it admits steam by N, hence the exhaust vapors in II and N are confined and form a cushion to prevent concussion of the piston G upon the head of the cylinder H, and when the live steam is acting in both ports N N, or when the exhaust takes place in the cylinder B, there will be no motion of the valve F, because the pressures in H II are equalized.
  • valve F of the cylinderB is dependent solely upon the movement of the piston B in the cylinder B, regardless of the devices that may be used to move the valve F of the. cylinder B, and regardless of the kind of valve used for said cylinder B, and that when the piston B of the engine No. 2 is moving in one direction the steam will act through N" upon G, and when moving in the other direction the steam will act through N upon G, thus moving the valve F first one way and then the other, and the valve-moving pistons will be cushioned, and that the piston of engine No. 2 thus has entire control of the valve-moving pistons of engine No. 1, without any regard to the valves or ports of the engine No. 2, and without the ports NN leading to or through any intermediate valve or moving or controlling device of any kind.
  • the diagram Fig. 2 is a duplication of the devices shown in Fig. l, and the diagram Fig. 3 represents one cylinder with a D-valve, the other with a B-valve.
  • the ports 40 5O 6O of engine No. 2 correspond to the ports 4 5 6 7 of engine No. 1.
  • the ports NN and N N do not have to cross, but where both valves are alike-such as the D- valves shown in Fig. 2-the ports N N from engine-cylinder B cross so that there is a lead of the steam in opposite directions in order that the piston of one engine may uncover the ports to give the motion in the proper direction to the other valve'moving piston.
  • Fig. 8 The parts in Fig. 8 are marked with the same reference-letters as those in Fig. 2, and the operation corresponds with those before described.
  • Fig. 3 the pistons b 13 are represented in a position where they are both moving in the same direction. The piston 1/ reaches the end of its movement at about the same time that the piston 13 uncovers the port N and allows live steam to enter and act upon the valvemoving piston G to shift the valve F.
  • portsN NN N will usually be cast in the metal that unites one valve-chest to the other, and is in the space between the two steam-cylinders, as in- Wlitv W gwa dicated in Fig. 4. I however do not limit myself in this particular, as such ports may be composed of tubes screwed into the respective castings, and where the ports cross each other, as indicated in Fig. 2, care is to be taken to prevent one port opening into the other by any defect in the casting.

Landscapes

  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Output Control And Ontrol Of Special Type Engine (AREA)

Description

(No Model.) 3 Sheets-Sheet 1. L. B. OARRIOABURU.
STEAM AOTUA'I'ED VALVE.
No. 321,085. PatzantedJune so, 1885'.
(No Model.) 3 Sheets-Sheet 2.
L. B. GARRICABURU. STEAM AGTUATED VALVE.
No. 321,085. I Patented June 30, 1 885.
N. PETERS. Photo-Lithograph", Wzlhinglam n C.
(No Model.) 3 Sheetsv-Sheet 3.
L. B. CARRIGAB'URU. STEAM AGTUATED VALVE.
Patented June 30, 1885.-
N. PETERS, FhfllwLilbogmphbr. Wnhinglon, D. C.
NIT'ED STATES ATENT Fries.
LEON B. OARRICABURU, OF NEW YORK, N. Y.
STE AM-ACTUATED VALVE.
SPECIFICATION forming part of Letters Patent No. 321,085, dated June 30, 1885.
Application filed March 30, 1885. (No model.)
To all whom it may concern.-
Be it known that I, LEON B. GARRIOABURU, of the city and State of New York, have invented an Improvement in Steam-Actuated Valves, of which the following is a specification.
Engines have heretofore been made in which there are two cylinders with valves and valvemoving pistons, and steam from the first engine-cylinder has passed through a port and moved the valve of the second engine and the reverse, but in all instances the steam passed through a passage in or controlled by a valve before reaching the valve-moving piston.
In some instances the steam acted upon an intermediate moving portion or valve before reaching the valve-moving piston, and in every case the engine would not operate if the steamvalve itself did not direct or control the steam as it passes from the cylinder of one engine to the valve-moving device of the other engine.
In my improvement, as distinguished from the devices before in existence, the ports passing from the cylinder of one engine to the valve-moving piston of the other engine are direct, and the ports are entirely free from any valves or moving, directing, or opening or closing devices of any kind, so that my engine is simple and free from any complication, and the ports are always open and ready for the passage of steam when the piston passes the end of the port, and the engineer can understand at a glance the entire operations of the parts.
In the drawings, Figure 1 is asection of one cylinder. Fig. 2 is a diagram of the ports, valves, and pistons for use with two D slidevalves; and Fig. 3 is a similar diagram of the parts for use with a B and a D slide-valve, and Fig. 4 is a cross-section of the two cylinders.
In my application No. 136,979, filed July 5, 1884:, I have represented three cylinders, two of which have valves and rockers or similar mechanical device acted upon by tappets, and the third cylinder has valve-moving pistons that are connected. by ports to the two adjacent cylinders.
My present invention relates to the broad features of invention which are only partially shown in said application.
The engine No. 1, with steam-cylinder B, piston 1), ports 4 5 6 7, exhaust-port M, valve F,and valve-moving pistonsGand Gin the cylinders H H, are similar to the parts shown in my aforesaid application, and I employ a second cylinder, No. 2, with piston B and ports N N leading to the valve-moving cylinders H H of the engine No. 1. The cylinder B is adjacent to the cylinder B, and such ports N N open into the cylinder B near the middle thereof.
As the piston B in the cylinder B moves along in the direction of the arrow, the piston 15. uncovers the port N and admits the live steam to pass directly to the valve-moving cylinder H and act'upon the piston G, and shift the valve F of the cylinder B, causing the steam to pass in through the port 7 and act upon the piston b to move it in the opposite direction.
The piston B covers the port Nat the same I time that it admits steam by N, hence the exhaust vapors in II and N are confined and form a cushion to prevent concussion of the piston G upon the head of the cylinder H, and when the live steam is acting in both ports N N, or when the exhaust takes place in the cylinder B, there will be no motion of the valve F, because the pressures in H II are equalized.
It will now be understood that the movement of the valve F of the cylinderB is dependent solely upon the movement of the piston B in the cylinder B, regardless of the devices that may be used to move the valve F of the. cylinder B, and regardless of the kind of valve used for said cylinder B, and that when the piston B of the engine No. 2 is moving in one direction the steam will act through N" upon G, and when moving in the other direction the steam will act through N upon G, thus moving the valve F first one way and then the other, and the valve-moving pistons will be cushioned, and that the piston of engine No. 2 thus has entire control of the valve-moving pistons of engine No. 1, without any regard to the valves or ports of the engine No. 2, and without the ports NN leading to or through any intermediate valve or moving or controlling device of any kind.
It now becomes proper to state how I duplicate the foregoing connections so as to work ICO the engines as duplex engines, in which the piston of engine N o. l admits steam direct to move the valve of N o. 2 engine, and the piston of No. 2 engine admits steam direct to move the valve of engine N 0. 1.
The diagram Fig. 2 is a duplication of the devices shown in Fig. l, and the diagram Fig. 3 represents one cylinder with a D-valve, the other with a B-valve.
In the engine No. 2 (shown in Fig. 2) the piston G2 in the cylinder H is acted upon by steam admitted by the port N upon the return-stroke of the piston 22, and the valve F is moved to its opposite position. This takes place when the piston 12 reaches the point indicated by dotted lines, and the port N being covered the confined vapors cushion the piston G in the cylinder H. This movement of the valveF takes place when the piston B has reached the end of its stroke, and hence the piston B is moved the other way and in its travel'uncovers the port N to move the valve F back to the position shown, which movement takes place when the piston b has reached the opposite end of the cylinder B from that shown.
The ports 40 5O 6O of engine No. 2 correspond to the ports 4 5 6 7 of engine No. 1.
With one engine having a D-valve and the other engine a B-valve, as in Fig. 3, the ports NN and N N do not have to cross, but where both valves are alike-such as the D- valves shown in Fig. 2-the ports N N from engine-cylinder B cross so that there is a lead of the steam in opposite directions in order that the piston of one engine may uncover the ports to give the motion in the proper direction to the other valve'moving piston.
The parts in Fig. 8 are marked with the same reference-letters as those in Fig. 2, and the operation corresponds with those before described. In Fig. 3 the pistons b 13 are represented in a position where they are both moving in the same direction. The piston 1/ reaches the end of its movement at about the same time that the piston 13 uncovers the port N and allows live steam to enter and act upon the valvemoving piston G to shift the valve F.
It will be apparent that the portsN NN N will usually be cast in the metal that unites one valve-chest to the other, and is in the space between the two steam-cylinders, as in- Wlitv W gwa dicated in Fig. 4. I however do not limit myself in this particular, as such ports may be composed of tubes screwed into the respective castings, and where the ports cross each other, as indicated in Fig. 2, care is to be taken to prevent one port opening into the other by any defect in the casting.
I claim as my invention 1. The combination, with an engine having a cylinder, piston, valve, and valve-actuating pistons and cylinders, of a second steam-engine cylinder, and ports leading directly from the second cylinder to the valve-actuating cylinders and pistons of the first engine, substantially as specified.
2. The combination, with the cylinder of the first engine andits valve and valve-actua ing pistons and cylinders, of ports leading into a second steam-cylinder, and a piston in such cylinder that acts as a valve to the said ports to admit steam by one of the ports to move the valve and valve-actuating pistons of the first engine, and to confine the vapors in the other portand in the cylinder with which it is connected to cushion the valve-actuating piston of the first engine, substantially as specified.
3. The combination of two steam-cylinders and their pistons, two steam-valves, valveactuating pistons and their cylinders,and ports leading directly from each cylinder to the valve-actuating cylinder of the adjacent engine, substantially as specified, whereby the piston of one engine acts as a valve to the ports leading directly to the valve-moving de vices of the adjacent engine, and the said ports do not pass through and are not influenced by any valve or moving device, as set forth.
4:. The combination of two engine-cylinders and their pistons and ports, two valve-moving pistons and their cylinders, a D-valve to one engine, and a B -valve to the other engine, and ports leading from the cylinder of one engine to the valve-moving cylinder of the other engine, substantially as set forth.
Signed by me this 24th day of MarclnA. D. 1885.
L. B. OARRIGABURU.
W'itnesses:
Gno. T. PINOKNEY, CHAS. H. SMITH.
US321085D carricabueu Expired - Lifetime US321085A (en)

Publications (1)

Publication Number Publication Date
US321085A true US321085A (en) 1885-06-30

Family

ID=2390226

Family Applications (1)

Application Number Title Priority Date Filing Date
US321085D Expired - Lifetime US321085A (en) carricabueu

Country Status (1)

Country Link
US (1) US321085A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3530681A (en) * 1968-08-05 1970-09-29 Hughes Aircraft Co Hydraulically driven cryogenic refrigerator

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3530681A (en) * 1968-08-05 1970-09-29 Hughes Aircraft Co Hydraulically driven cryogenic refrigerator

Similar Documents

Publication Publication Date Title
US321085A (en) carricabueu
US733985A (en) Steam-actuated valve for engines.
US334108A (en) Steam-actuated valve
US1056115A (en) Valve-gear for fluid-pressure engines.
US471882A (en) Steam-actuated valve for engines
US174570A (en) Improvement in steam-valves
US1102181A (en) Engine-valve.
US180433A (en) Improvement in valves for steam-engines
US369797A (en) Steam-valve
US303705A (en) Peters
US252084A (en) Direct-acting engine
US321084A (en) caericaburu
US303706A (en) carricaburu
US161025A (en) Improvement in valves for engines
US57509A (en) Improvement in automatic steam-valves
US262649A (en) cummiskey
US588533A (en) Territory
US814793A (en) Steam pumping-engine.
US436266A (en) Valve geae
US221955A (en) Improvement in slide-valves for steam-engines
US287845A (en) Steam-actuated valve
USRE7420E (en) Improvement in valve-gears for steam-engines
US485579A (en) Ernest c
US431180A (en) Duplex valve for pumping-engines
US555858A (en) Valve mechanism for steam-engines