US2410799A - Moisture ejection device for air pressure systems - Google Patents

Moisture ejection device for air pressure systems Download PDF

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US2410799A
US2410799A US580691A US58069145A US2410799A US 2410799 A US2410799 A US 2410799A US 580691 A US580691 A US 580691A US 58069145 A US58069145 A US 58069145A US 2410799 A US2410799 A US 2410799A
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cylinder
piston
reservoir
moisture
chamber
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US580691A
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Cyrus W Bassett
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National Pneumatic Co Inc
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National Pneumatic Co Inc
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16TSTEAM TRAPS OR LIKE APPARATUS FOR DRAINING-OFF LIQUIDS FROM ENCLOSURES PREDOMINANTLY CONTAINING GASES OR VAPOURS
    • F16T1/00Steam traps or like apparatus for draining-off liquids from enclosures predominantly containing gases or vapours, e.g. gas lines, steam lines, containers
    • F16T1/12Steam traps or like apparatus for draining-off liquids from enclosures predominantly containing gases or vapours, e.g. gas lines, steam lines, containers with valves controlled by excess or release of pressure
    • F16T1/14Steam traps or like apparatus for draining-off liquids from enclosures predominantly containing gases or vapours, e.g. gas lines, steam lines, containers with valves controlled by excess or release of pressure involving a piston, diaphragm, or bellows, e.g. displaceable under pressure of incoming condensate
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B39/00Component parts, details, or accessories, of pumps or pumping systems specially adapted for elastic fluids, not otherwise provided for in, or of interest apart from, groups F04B25/00 - F04B37/00
    • F04B39/16Filtration; Moisture separation
    • 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
    • Y10T137/00Fluid handling
    • Y10T137/2931Diverse fluid containing pressure systems
    • Y10T137/3003Fluid separating traps or vents
    • Y10T137/3102With liquid emptying means
    • Y10T137/3105Self-emptying
    • 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
    • Y10T137/00Fluid handling
    • Y10T137/7722Line condition change responsive valves
    • Y10T137/7837Direct response valves [i.e., check valve type]
    • Y10T137/7904Reciprocating valves
    • Y10T137/7922Spring biased
    • Y10T137/7925Piston-type valves

Definitions

  • the present invention relates to a device for ejecting moisture from air pressure systems, and particularly, to such a device in which the means for ejecting moisture includes chambers reciprocable in a cylinder.
  • Figure 1 is a longitudinal cross sectional view of my device, the section being taken on the plane of the line l--l of FigureZ;
  • Figure 2 is a bottom elevation of the device of Figure 1
  • Figure 3 is an elevatlonal view showing the application of the device of the invention to an air pressure system
  • Figure 4 is a leit end elevation of the device as shown in figures 1 and 2;
  • Figure 5 is a transverse cross section of the
  • the device of my invention comprises a cylinder it which is capped at one end with end cap ll having a threaded pipe connection it centrally located therein. Between the end of the cylinder and the can i! there is'provided the usual gasket member l3. 7
  • Cylinder ill at its left end, is screw threaded and engages with a casting it, this casting being generally cylindrical in shape and having provided integrally therewith a plate is which may be suitably supported upon the equipment on which the air pressure system, including the device, is located.
  • the portion it of the casting is slotted at i? and is provided with integral ears or lugs it so that the cylinder may he clamped in adjusted position by means of the screw it.
  • the cylindrical portion of the casting i t is capped at its left end, as seen in Figures 1 and 2-, by means of the cap 26, which cap is provided with a port 2! to assure that no pressure will build up within this cylinder.
  • a piston assemblage which operates in the cylinder ill, this assemblage' comprising a piston rod. 22 in. the form. of a bolt, together with aplurality of leather cups 23, washers 2d audit, spacers 2e and 2?, sleeves 28 and 2s, and nut W.
  • each cup 21s isprovided with an expander disk 3i of a common type.
  • the right hand one of the cups 23 together with a pair of washers 2&3 and 2E- and expander disk 3!, comprises the operating piston for the device; pressure exerted thereupon causes movement of. the entire assemblage to the left against the action of a spring 32 which extends from the cap 2t to the left hand one of the washers 25.
  • the remaining four leather cups 23 are arranged in pairs, with the flanges thereof facing each other, thus forming two'chamherswhich are reciprocable with the piston assemblagel Surrounding the cylinder l 8, in a location to be in alignment with a chamber formed between ing a boss 3% thereon, which boss is threaded and communicates with the interior of the cylinder it by means of the ports extending through the lit ring 33 and the cylinder E0.-
  • the ports or holes 35 are countersunk on the inner ends thereof to avoid sharp cutting edges which might damage the cups 2%. Further, a number of small holes 35, in the particular instance three, is provided rather than a single hole of the same cross sectional area, in order to reduce the tendency to cut the cups 213'.
  • Groups of holes 3d similar to holes es are provided in the cylinder walls at points axially spaced from the holes to in either direction and at distances equal to the travel of the piston assemblaze.
  • connection 41 extends from the bottom of the tank 42, which is where moisture and foreign matter normally collects, to the boss 34 on the ring 33, being threaded or otherwise suitably connected to the ring 33 thereby to communicate with the holes 35.
  • the piston assemblage Upon the next operation of the valve 48, the piston assemblage will move towards the left in Figure 1, and thus connect the left hand chamber to the atmosphere through the left hand set of holes 38, thereby permitting discharge of the moisture and foreign matter to the atmosphere. While this discharge is taking place the right hand chamber will have been brought into communication with the bottom of the tank 42 and air, and moisture will be discharged into this chamber. As soon as the valve 55 is operated to release the pressure from the line as and branch 46, the spring 32 will cause the piston to move to the right; upon completion of this movement, the air and moisture trapped in the left hand chamber will be discharged to atmosphere through-the right hand group of holes 35;
  • the device is mounted upon the bottom of a vehicle, such as a trolley car or a bus, and the position of the cylinder l angularly adlusted by means of the clamp and the bolt 19 so that the holes 38 iace downwardly, to direct the discharge of moisture from the chambers .downwardly.
  • a vehicle such as a trolley car or a bus
  • the device of this invention Owing to the fact that two chambers are provided, and that there is thus a discharge 0! moisture from the cylinder when the piston assemblage lies in either one M its extreme positions, the device of this invention is esp cially empient,
  • a moisture ejecting device for an air pressure system, in combination, a cylinder, 9. piston reciprocable in said cylinder, a pair of chambersmovable with said piston. means for supplying moisture and foreign matter from a pressure'reservoir to oneoi said chamberswhen said piston is in normal position and means commoisture supplying means a distance equal to the travel of the piston for discharging moisture from said chamber.
  • a moisture ejecting device for an air pressure system, in combination, a cylinder, 8. piston reciprocable in said cylinder, a pair of chambers movable with said piston, means for supplying moisture and foreign matter from a pressure reservoir to one of said chambers when said piston is in normal position, said means also serving to supply moisture and foreign matter to the other of said chambers when said piston is in operated position and means comprising outlets to atmosphere spaced along said cylinder on either side of said supply means a distance equal to the travel of the piston for permitting discharge from one of said'chambers at each end of the stroke of said piston.
  • a moisture ejecting device for an air pressure system in combination, a cylinder, a piston reciprocable in said cylinder, means for communicating pressure of the system to urge said piston in one direction, a plurality of leather cups mounted for movement withsaid pistons,
  • said cups being arranged in pairs facing each other to thereby form with the cylinder walls a pair of chambers, an inlet through said cylinder walls, said inlet communicating with the lower portion of an air reservoir, 2. pair of outlets in said cylinder, said outlets being spaced the length of the piston travel oneither side of said inlet whereby moisture is admitted to one of said chambers when the piston is in normal position and is discharged therefrom when the piston reaches its operated position and moisture admitted to the second of said chambers when said piston is in operated position and is discharged when the piston returns to normal position.
  • a system cleaning device for a system placed under air pressure wherein a. pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through.
  • said conduit including a cylinder, means for forming a chamber within the cylinder, an inlet to the cylinder, the inlet being in communication with the reservoir, an so outlet from the cylinder spaced from the inlet,
  • the moving means including means normally eilective to place the chamber in registry with the inlet, and including means under control of air under pressure through the conduit for bringing the chamber into registry with the. outlet.
  • a system cleaning device for a system placed under air pressure wherein a pressure reservoir is provided, and wherein foreign matter and 30 moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir bya conduit, and wherein means are provided to control the flow of air under pressure through said conduit
  • the device including a substantially horizontally disposed cylinder, means for forming a chamber within the cylinder, an inlet to the cylinder, the inlet being in communication with the reservoir, an outlet from the bottom of the cylinder and spaced from the inlet, means in the cylinder for moving the chamber, the moving means including means normally eflective to place the chamber in registry with the inlet, and including means under control of air under pressure through the conduit for bringing the chamber prising outlets to atmosphere, spaced-1mm said. lo into registry with the outlet.
  • a system cleaning device for a system placed under air pressure wherein a pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through said conduit
  • the device including a cylinder, chamber-forming means cooperating with the cylinder, means to form a delivery connection between the cylinder and the reservoir, means to provide discharge communication with the cylinder, the discharge communication providing means being spaced from the delivery connection forming means, means in the cylinder for moving the chamber, the moving means including means normally efiective to place the chamber in registry with the delivery connection forming means, and including means undercontrol of air under pressure through the conduit for bringing the chamber into registry with the discharge communication providing means.
  • a system cleaning device for a system placed under air pressure wherein a pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein an under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through said conduit
  • the device including a substantially horizontally disposed cylinder, chamber-forming means cooperating with the cylinder, means to form a delivery connection between the cylinder and the reservoir, means to provide discharge communication with the bottom of the cylinder, the discharge communication providing means being spaced from the delivery connection forming means, means in the cylinder for moving the chamber, the moving means including means under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through said conduit, the device including a cylinder, 2.
  • piston movable in the cylinder means carried by the piston and cooperating with thecylinder to form a chamber within the cylinder, means to form a delivery connection between the cylinder and the reservoir, means to provide discharge communication with the cylinder, the discharge communication providin means being spaced from the delivery connection forming means, means normally effective to place the chamber in registry with the delivery connection forming means, and means to conduct air from the conduit to the cylinder to cause the piston to bring the chamber into registry with the discharge communication providing means.
  • a system cleaning device for a system placed under air pressure, wherein a pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir,'and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flowof air under pressure through said conduit, the device including a substantially aci -roe horizontally disposed cylinder, a piston movable in the cylinder, means carried by the piston and cooperating with the cylinder to form a chamber within the cylinder, means to form a delivery connection between the cylinder and the reservoir, means to provide discharge communication with the bottom of the cylinder, the discharge communication providing means being spaced from.
  • the delivery connection forming means means normally eifective to place the chamber in registry with the delivery connection forming means, and means to conduct air from the conduit to the cylinder to cause the piston to bring the chamber into registry with the discharge communication providing means.
  • a system cleaning device for a system placed under air pressure, wherein a pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through said conduit, the device including a cylinder, means for forming a plurality of chambers within the cylinder, an inlet'to the cylinder, the inlet being in communication with the reservoir,
  • the-moving means including means normally effective to place a chamber in registry with the inlet, and including means under control of air under pressure through the conduit for bringing a chamber into registry with the outlet.
  • a system cleaning device for a system placed under air pressure wherein a pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through said conduit
  • the device including a cylinder, means for forming a plurality of chambers within the cylinder, an inlet to the cylinder, the inlet beingis provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through said conduit
  • the device including a cylinder, means for forming a plurality of chambers within the cylinder, an inlet to the cylinder, the inlet being in communication with the reservoir, a plurality of outlets from the cylinder spaced from the inlet, means in the cylinder for moving the chambers, the moving means including means normally effective to place one of the chambers in registry with the inlet and the other chamber in registry with an
  • a system cleaning device for a system placed under air pressure wherein a pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through said conduit,
  • the device including a cylinder, 9. piston movable in the cylinder, means carried by the piston and cooperating with the cylinder to form a plurality of chambers within the cylinder, an inlet to the cylinder, the inlet being in communication with the reservoir, an outlet from the cylinder spaced from the inlet, means normally effective to place a chamber in registry with the inlet, and means to conduct air from the conduit to the cylinder to cause the piston to bring the chamber into registry with the outlet.
  • a system cleaning device for a system placed under air pressure, wherein a pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure though saidconduit.
  • the device including a cylinder, a piston movable in the cylinder, means carried by the piston and cooperating with the cylinder to form a plurality oi!
  • the device including a cylinder, a
  • piston movable in the cylinder means carried by the piston and cooperating with the cylinder to form a plurality of chambers within the cylinder, an inlet to the cylinder, the inlet being in communication with the reservoir, a plurality of outlets from the cylinder spaced from the inlet, means normally effective to place one of the chambers in registry with the inlet and the other chamber in registry with an outlet, and means to conduct air from the conduit to the cylinder to cause the piston to bring the first indicated chamberinto registry with another outlet and the other chamber into registry with the inlet.

Description

Nov. E2, 19%. c. w. BASSETT 2,410,799
MOISTURE EJECTION DEVICE FOR AIR PRESSURE SYSTEM Fi led March 2, 1945 2 Sheets-Sheet l INVENTOR a N m n A /K//////////AA/A4 NW. 12, 1946. c, w. BASSETT 1 1 7 MOISTURE EJECT-ION DEVICE FOR AIR PRESSURE SYSTEM Filed March 2, 1945 I 2 Sheets-Shee t 2 h s. v
INVENTOR CYRUS W. BASSETT ATTORNEY Fetented Nov. l, 194% its MOISTURE EJECON DEVICE FGR PRESS SYSTEMS Cyrus W. Bassett, Long Branch, N. .l., assignor to National Pneatic @ompa'ny,
New York,
N. Y., a corporation of West Virginia Application March 2, 1945, Serial No. 580,691
(on. see-cs) The present invention relates to a device for ejecting moisture from air pressure systems, and particularly, to such a device in which the means for ejecting moisture includes chambers reciprocable in a cylinder.
It is a well known fact that moisture and foreign mattertend to collect at the bottom of air pressure tanks, and that, unless removed, such moisture and matter tend to cause rust,'gummins, and premature wear of piston and valve parts utilized in connection with the air pressure system,
It is an object of this invention to provide a mechanism for removing moisture and foreign matter from an air pressure tank and the lines and devices connected thereto without substantial reduction of the tank pressure.
It is another object of the invention to cause such moisture removal automatically.
It is a still further object of the invention to provide a device for such moisture removal which shall be economical to manufacture and emcient in operation.
Panther objects and features of the invention will appear when the following description is considered in connection with the accompa,
drawings, in which,
Figure 1 is a longitudinal cross sectional view of my device, the section being taken on the plane of the line l--l ofFigureZ;
Figure 2 is a bottom elevation of the device of Figure 1 Figure 3 is an elevatlonal view showing the application of the device of the invention to an air pressure system;
Figure 4 is a leit end elevation of the device as shown in figures 1 and 2; and
Figure 5 is a transverse cross section of the,
device, the section being taken on the line 5-5 of Figure 2, the piston structure being removed.
Referring now to the drawings, the device of my invention comprises a cylinder it which is capped at one end with end cap ll having a threaded pipe connection it centrally located therein. Between the end of the cylinder and the can i! there is'provided the usual gasket member l3. 7
Cylinder ill, at its left end, is screw threaded and engages with a casting it, this casting being generally cylindrical in shape and having provided integrally therewith a plate is which may be suitably supported upon the equipment on which the air pressure system, including the device, is located. The portion it of the casting is slotted at i? and is provided with integral ears or lugs it so that the cylinder may he clamped in adjusted position by means of the screw it. The cylindrical portion of the casting i t is capped at its left end, as seen in Figures 1 and 2-, by means of the cap 26, which cap is provided with a port 2! to assure that no pressure will build up within this cylinder. A piston assemblage is provided which operates in the cylinder ill, this assemblage' comprising a piston rod. 22 in. the form. of a bolt, together with aplurality of leather cups 23, washers 2d audit, spacers 2e and 2?, sleeves 28 and 2s, and nut W. In addition, each cup 21s isprovided with an expander disk 3i of a common type. The right hand one of the cups 23 together with a pair of washers 2&3 and 2E- and expander disk 3!, comprises the operating piston for the device; pressure exerted thereupon causes movement of. the entire assemblage to the left against the action of a spring 32 which extends from the cap 2t to the left hand one of the washers 25.
The remaining four leather cups 23 are arranged in pairs, with the flanges thereof facing each other, thus forming two'chamherswhich are reciprocable with the piston assemblagel Surrounding the cylinder l 8, in a location to be in alignment with a chamber formed between ing a boss 3% thereon, which boss is threaded and communicates with the interior of the cylinder it by means of the ports extending through the lit ring 33 and the cylinder E0.- The ports or holes 35 are countersunk on the inner ends thereof to avoid sharp cutting edges which might damage the cups 2%. Further, a number of small holes 35, in the particular instance three, is provided rather than a single hole of the same cross sectional area, in order to reduce the tendency to cut the cups 213'.
Groups of holes 3d similar to holes es are provided in the cylinder walls at points axially spaced from the holes to in either direction and at distances equal to the travel of the piston assemblaze. By means of this arrangement, when the left hand chamber is in communication with the holes 35, the right hand chamber is in communication with the right hand group of holes 35; and when the right hand chamber, by virtue of operation of the piston, is in communication. with the holes 35 the left hand chamber is in communication with the left hand group of holes so.
Referring now to Figure 3, there is shown therein the use of the device above described in an air pressure system. In this system. a com tion or the piston assemblage.
' the tank 42 through a control valve 44 and line 45 to'the point of utilization, which may be, for
example, a difi'erential engine of a vehicle door,
or the brake cylinder of a vehicle brake system.v .A branch 48 from the line 45 is connected to pipe connection l2 in the cap H previously described.
In addition, a connection 41 extends from the bottom of the tank 42, which is where moisture and foreign matter normally collects, to the boss 34 on the ring 33, being threaded or otherwise suitably connected to the ring 33 thereby to communicate with the holes 35.
Whenever pressure is applied to the line 65 and branch 58, there will be a; movement of the piston assemblage to the left. Whenever the presv sure is removed, the assemblage will return to the right under urge of the spring 32. Moisture and air will be supplied continually through the connection 81 and the holes 35 to the interior of one or the chambers formed by the two pairs of cups 23. When the piston is in the normal position, as shown in Figure 1, such air and moisture will be supplied to-the left hand one of the v two chambers, the amount being determined by the equalization of pressure in the tank 62 and the chamber. Upon the next operation of the valve 48, the piston assemblage will move towards the left in Figure 1, and thus connect the left hand chamber to the atmosphere through the left hand set of holes 38, thereby permitting discharge of the moisture and foreign matter to the atmosphere. While this discharge is taking place the right hand chamber will have been brought into communication with the bottom of the tank 42 and air, and moisture will be discharged into this chamber. As soon as the valve 55 is operated to release the pressure from the line as and branch 46, the spring 32 will cause the piston to move to the right; upon completion of this movement, the air and moisture trapped in the left hand chamber will be discharged to atmosphere through-the right hand group of holes 35;
In general, the device is mounted upon the bottom of a vehicle, such as a trolley car or a bus, and the position of the cylinder l angularly adlusted by means of the clamp and the bolt 19 so that the holes 38 iace downwardly, to direct the discharge of moisture from the chambers .downwardly.
Owing to the fact that two chambers are provided, and that there is thus a discharge 0! moisture from the cylinder when the piston assemblage lies in either one M its extreme positions, the device of this invention is esp cially empient,
" particularly as contrasted with rotary valve'structures known in the art in which there is asingle discharging action for each complete reciproca- While I have described a preferred embodiment of my invention it will be clear that many other 'tor'ms thereof may be constructed. Consequently I do not want to be restricted by the foregoing description but on the contrary I wish that the only limits be those of the appended claims,
What is claimed is: I. In a moisture ejecting device for an air pressure system, in combination, a cylinder, 9. piston reciprocable in said cylinder, a pair of chambersmovable with said piston. means for supplying moisture and foreign matter from a pressure'reservoir to oneoi said chamberswhen said piston is in normal position and means commoisture supplying means a distance equal to the travel of the piston for discharging moisture from said chamber.
2. In a moisture ejecting device for an air pressure system, in combination, a cylinder, 8. piston reciprocable in said cylinder, a pair of chambers movable with said piston, means for supplying moisture and foreign matter from a pressure reservoir to one of said chambers when said piston is in normal position, said means also serving to supply moisture and foreign matter to the other of said chambers when said piston is in operated position and means comprising outlets to atmosphere spaced along said cylinder on either side of said supply means a distance equal to the travel of the piston for permitting discharge from one of said'chambers at each end of the stroke of said piston.
33. In a moisture ejecting device for an air pressure system, in combination, a cylinder, a piston reciprocable in said cylinder, means for communicating pressure of the system to urge said piston in one direction, a plurality of leather cups mounted for movement withsaid pistons,
said cups being arranged in pairs facing each other to thereby form with the cylinder walls a pair of chambers, an inlet through said cylinder walls, said inlet communicating with the lower portion of an air reservoir, 2. pair of outlets in said cylinder, said outlets being spaced the length of the piston travel oneither side of said inlet whereby moisture is admitted to one of said chambers when the piston is in normal position and is discharged therefrom when the piston reaches its operated position and moisture admitted to the second of said chambers when said piston is in operated position and is discharged when the piston returns to normal position.
4. A system cleaning device for a system placed under air pressure, wherein a. pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through. said conduit, the device 'including a cylinder, means for forming a chamber within the cylinder, an inlet to the cylinder, the inlet being in communication with the reservoir, an so outlet from the cylinder spaced from the inlet,
means in the cylinder for moving the chamber,
the moving means including means normally eilective to place the chamber in registry with the inlet, and including means under control of air under pressure through the conduit for bringing the chamber into registry with the. outlet.
5. A system cleaning device for a system placed under air pressure, wherein a pressure reservoir is provided, and wherein foreign matter and 30 moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir bya conduit, and wherein means are provided to control the flow of air under pressure through said conduit, the device including a substantially horizontally disposed cylinder, means for forming a chamber within the cylinder, an inlet to the cylinder, the inlet being in communication with the reservoir, an outlet from the bottom of the cylinder and spaced from the inlet, means in the cylinder for moving the chamber, the moving means including means normally eflective to place the chamber in registry with the inlet, and including means under control of air under pressure through the conduit for bringing the chamber prising outlets to atmosphere, spaced-1mm said. lo into registry with the outlet.
6. A system cleaning device for a system placed under air pressure, wherein a pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through said conduit, the device including a cylinder, chamber-forming means cooperating with the cylinder, means to form a delivery connection between the cylinder and the reservoir, means to provide discharge communication with the cylinder, the discharge communication providing means being spaced from the delivery connection forming means, means in the cylinder for moving the chamber, the moving means including means normally efiective to place the chamber in registry with the delivery connection forming means, and including means undercontrol of air under pressure through the conduit for bringing the chamber into registry with the discharge communication providing means.
7. A system cleaning device for a system placed under air pressure, wherein a pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein an under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through said conduit, the device including a substantially horizontally disposed cylinder, chamber-forming means cooperating with the cylinder, means to form a delivery connection between the cylinder and the reservoir, means to provide discharge communication with the bottom of the cylinder, the discharge communication providing means being spaced from the delivery connection forming means, means in the cylinder for moving the chamber, the moving means including means under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through said conduit, the device including a cylinder, 2. piston movable in the cylinder, means carried by the piston and cooperating with thecylinder to form a chamber within the cylinder, means to form a delivery connection between the cylinder and the reservoir, means to provide discharge communication with the cylinder, the discharge communication providin means being spaced from the delivery connection forming means, means normally effective to place the chamber in registry with the delivery connection forming means, and means to conduct air from the conduit to the cylinder to cause the piston to bring the chamber into registry with the discharge communication providing means.
9. A system cleaning device for a system placed under air pressure, wherein a pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir,'and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flowof air under pressure through said conduit, the device including a substantially aci -roe horizontally disposed cylinder, a piston movable in the cylinder, means carried by the piston and cooperating with the cylinder to form a chamber within the cylinder, means to form a delivery connection between the cylinder and the reservoir, means to provide discharge communication with the bottom of the cylinder, the discharge communication providing means being spaced from. the delivery connection forming means, means normally eifective to place the chamber in registry with the delivery connection forming means, and means to conduct air from the conduit to the cylinder to cause the piston to bring the chamber into registry with the discharge communication providing means.
10. A system cleaning device for a system placed under air pressure, wherein a pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through said conduit, the device including a cylinder, means for forming a plurality of chambers within the cylinder, an inlet'to the cylinder, the inlet being in communication with the reservoir,
an outlet from the cylinder spaced from the inlet,
means in the cylinder for moving the chambers, the-moving means including means normally effective to place a chamber in registry with the inlet, and including means under control of air under pressure through the conduit for bringing a chamber into registry with the outlet.
11. A system cleaning device for a system placed under air pressure, wherein a pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through said conduit, the device including a cylinder, means for forming a plurality of chambers within the cylinder, an inlet to the cylinder, the inlet beingis provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through said conduit, the device including a cylinder, means for forming a plurality of chambers within the cylinder, an inlet to the cylinder, the inlet being in communication with the reservoir, a plurality of outlets from the cylinder spaced from the inlet, means in the cylinder for moving the chambers, the moving means including means normally effective to place one of the chambers in registry with the inlet and the other chamber in registry with an outlet, and including means under control of air under pressure through the conduit for bringin the first indicated chamber into registry with another outlet and the other chamber into registry with the inlet.
13. A system cleaning device for a system placed under air pressure, wherein a pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure through said conduit, the device including a cylinder, 9. piston movable in the cylinder, means carried by the piston and cooperating with the cylinder to form a plurality of chambers within the cylinder, an inlet to the cylinder, the inlet being in communication with the reservoir, an outlet from the cylinder spaced from the inlet, means normally effective to place a chamber in registry with the inlet, and means to conduct air from the conduit to the cylinder to cause the piston to bring the chamber into registry with the outlet.
14. A system cleaning device for a system placed under air pressure, wherein a pressure reservoir is provided, and wherein foreign matter and moisture accumulate in the reservoir, and wherein air under pressure is led away from the reservoir by a conduit, and wherein means are provided to control the flow of air under pressure though saidconduit. the device including a cylinder, a piston movable in the cylinder, means carried by the piston and cooperating with the cylinder to form a plurality oi! chambers within the cylinder, an inlet to the cylinder, the inlet being in com- -munication'with the reservoir, an outlet from the- 8 cylinder spaced from the inlet, means normally efiective to place the chambers alternately in re;- istry with the inlet, and means to conduct air from the conduit to the cylinder to cause the.
said conduit, the device including a cylinder, a
piston movable in the cylinder, means carried by the piston and cooperating with the cylinder to form a plurality of chambers within the cylinder, an inlet to the cylinder, the inlet being in communication with the reservoir, a plurality of outlets from the cylinder spaced from the inlet, means normally effective to place one of the chambers in registry with the inlet and the other chamber in registry with an outlet, and means to conduct air from the conduit to the cylinder to cause the piston to bring the first indicated chamberinto registry with another outlet and the other chamber into registry with the inlet.
CYRUS W. BASSETI.
US580691A 1945-03-02 1945-03-02 Moisture ejection device for air pressure systems Expired - Lifetime US2410799A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2509880A (en) * 1948-05-04 1950-05-30 Robert L Pelton Air pressure mechanism
US2534697A (en) * 1948-02-27 1950-12-19 Carl O Bruestle Moisture ejector valve and system
US2729229A (en) * 1950-09-12 1956-01-03 Jackson H Rollings Automatic blow-off for pressure tanks
US4259821A (en) * 1977-06-29 1981-04-07 The United States Of America As Represented By The Administrator Of The National Aeronautics And Space Administration Lightweight structural columns

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2534697A (en) * 1948-02-27 1950-12-19 Carl O Bruestle Moisture ejector valve and system
US2509880A (en) * 1948-05-04 1950-05-30 Robert L Pelton Air pressure mechanism
US2729229A (en) * 1950-09-12 1956-01-03 Jackson H Rollings Automatic blow-off for pressure tanks
US4259821A (en) * 1977-06-29 1981-04-07 The United States Of America As Represented By The Administrator Of The National Aeronautics And Space Administration Lightweight structural columns

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