Hinged Inlet And Discharge Distributors In Aligned Conduits Patents (Class 417/565)
  • Patent number: 11002261
    Abstract: Modular mechanically driven diaphragm pump features are presented herein. Such a diaphragm pump can include a motor, a drive mechanism, and a coupling mounted on a wheeled frame. A diaphragm pump can be mounted to the coupling by forming mechanical static and dynamic connections to brace a housing of the diaphragm pump relative to a drive rod which is moved by the drive mechanism to operate the pump. These mechanical static and dynamic connections can be broken to dismount the pump for replacement or servicing. In some cases, a gas charge can be introduced on the non-working fluid side of the diaphragm to boost performance and/or a dampener can be integrated into the housing of the diaphragm pump and mounted/dismounted with the diaphragm pump.
    Type: Grant
    Filed: May 5, 2017
    Date of Patent: May 11, 2021
    Assignee: Graco Minnesota Inc.
    Inventors: Bradley J. Hines, Brian W. Koehn, Christopher C. Hines, Adam K. Collins
  • Patent number: 9200605
    Abstract: An apparatus for preventing cavitation damage to a diesel engine fuel injection pump comprises a valve member mounted on a barrel port to shut the barrel port during an early stage of fuel compression performed by the upward movement of a plunger to increase the pressure in the barrel port, a valve housing installed in the deflector or the barrel of a pump housing to support the valve member, and a pressure control valve constituted by a spring interposed between the valve member and the valve housing to elastically support the valve member. The barrel port is shut to increase the pressure therein during the early stage of fuel compression, and when the pressure of fuel in the barrel port exceeds a level higher than an open level, the barrel port opens to discharge fuel.
    Type: Grant
    Filed: October 23, 2009
    Date of Patent: December 1, 2015
    Assignee: HYUNDAI HEAVY INDUSTRIES CO., LTD.
    Inventors: Dong-Hun Kim, Seung-Hyup Ryu, Sang-Hak Ghal, Sang-Lip Kang, Ju-Tae Kim
  • Patent number: 8297957
    Abstract: A compressor having a casing to which a gas suction pipe is connected; a driving motor provided in the casing; a cylinder; a valve supporting plate (210) covering the cylinder (300), the valve supporting plate (210) having a suction hole (212) for sucking gas into the cylinder (300) and two discharge holes (211) for discharging gas compressed in the cylinder (300); a piston (100) having two protrusions (101) at a pressure surface in correspondence to the two discharge holes (211) of the valve supporting plate (210), the protrusions (101) having different sized cross-sections, the piston being linearly reciprocal in the cylinder (300) by receiving a driving force of the driving motor; a suction valve coupled to the valve supporting plate (210) to open and close the suction hole (212); a discharge valve coupled to the valve supporting plate to open and close the two discharge holes (211).
    Type: Grant
    Filed: December 29, 2006
    Date of Patent: October 30, 2012
    Assignee: LG Electronics Inc.
    Inventors: Kyoung-Jun Park, Ji-Young Bae, Jin-Kook Kim, Bum-Joon Kim, Hyuk Nam, Jong-Mok Lee, Jong-Hyuk Kim, Kyeong-Ho Kim
  • Publication number: 20080166250
    Abstract: The invention concerns a piston compressor, particularly a hermetic refrigerant compressor, with a compression chamber, which is limited by a valve plate arrangement having a valve plate with a suction gas opening and a pressure gas opening, a suction valve plate with a suction valve element, and a pressure valve plate with a pressure valve element. It is endeavoured to achieve a good efficiency combined with a simple assembly. For this purpose, it is ensured that the pressure valve plate and the suction valve plate are located on the side of the valve plate facing the compression chamber.
    Type: Application
    Filed: March 24, 2008
    Publication date: July 10, 2008
    Applicant: Danfoss Compressors GmbH
    Inventors: Frank Holm Iversen, Marten Nommensen
  • Patent number: 7331773
    Abstract: A diaphragm is provided in a pump case so as to define a pump chamber communicated with an external member having an air chamber. A motor actuates the diaphragm to introduce air into the pump chamber and to supply the introduced air to the air chamber. An exhaust valve exhausts air in the pump chamber to lower a pressure in the air chamber. The exhaust valve is provided with a valve body and an actuator which is driven by the motor to actuate the valve body so as to open or close an exhaust port communicated with the pump chamber.
    Type: Grant
    Filed: June 30, 2004
    Date of Patent: February 19, 2008
    Assignee: Mitsumi Electric Co., Ltd.
    Inventor: Ikuichiro Nawa
  • Patent number: 6971168
    Abstract: A method of manufacturing a compressor valve plate (36) comprises at least the following steps in succession: blanking of a blank of the plate (36) from a steel sheet of suitable thickness, punching holes corresponding to the output and intake openings, the hole corresponding to the output opening being a preliminary hole (48a) having a diameter larger than the final diameter of this opening (48), forming, by coining, a depression (42) for housing an output valve-closure blade (54), with the depth of the depression increasing towards the end of the depression which corresponds to the preliminary hole (48a), in a manner such that, during the coining, at least some of the material of the blank creeps towards the preliminary hole, partially filling it, calibrating the output opening (48) to the final diameter by punching, and coining an annular projection (50) around the calibrated output opening (48) to define a valve seat for the output closure blade.
    Type: Grant
    Filed: February 20, 2001
    Date of Patent: December 6, 2005
    Assignee: Embraco Europe S.r.l.
    Inventor: Vittorio Bianchi
  • Patent number: 6942472
    Abstract: A head pressure relief assembly for relieving pressure in the head assembly of an air compressor may include an exhaust valve post formed in the head assembly and an exhaust valve assembly comprised of a flapper valve. An aperture may be formed through the exhaust valve post for venting the head assembly prior to start of the compressor assembly. The flapper valve is capable of engaging the exhaust valve post to close the aperture at least partially for preventing flow from the head assembly through the aperture during the compression stroke of the compressor assembly piston. A head pressure relief assembly may also include an aperture disposed in the head assembly, a connecting tube therefor, or a check valve.
    Type: Grant
    Filed: March 31, 2003
    Date of Patent: September 13, 2005
    Assignee: DeVilbiss Air Power Company
    Inventor: Edward A. Sieberg
  • Publication number: 20040228734
    Abstract: The present invention relates to microfluidic systems, including valves and pumps for microfluidic systems. The valves of the invention include check valves such as diaphragm valves and flap valves. Other valves of the invention include one-use valves. The pumps of the present invention include a reservoir and at least two check valves. The reservoir may be of variable volume. The present invention also relates to a flexible microfluidic system. The present invention additionally relates to a method of making microfluidic systems including those of the present invention. The method includes forming a microfluidic system on a master, connecting a support to the microfluidic system and removing the microfluidic system from the master. The support may remain connected to the microfluidic system or the microfluidic system may be transferred to another substrate. The present invention further relates to a method of manipulating a flow of a fluid in a microfluidic system.
    Type: Application
    Filed: June 14, 2004
    Publication date: November 18, 2004
    Applicant: PRESIDENT AND FELLOWS OF HARVARD COLLEGE
    Inventors: Noo Li Jeon, Daniel T. Chiu, Christopher J. Wargo, Insung S. Choi, Hongkai Wu, Janelle R. Anderson, George M. Whitesides, Justin C. McDonald, Steven J. Metallo, Howard A. Stone
  • Patent number: 6358024
    Abstract: A high pressure fuel supply pump comprising a housing (102) and a pump body (108) fixed within the housing along a body axis and including a plurality of radially oriented plunger bores (20), each bore having a plunger (22) disposed therein. An actuating assembly (116) is disposed around the plunger bores for producing reciprocal motion. A central cavity (120) extends along the axis and intersects the pumping bores to form a pumping chamber (18) in cooperation therewith. An inlet check valve (132) and a discharged check valve (124) are in communication with the pumping chamber.
    Type: Grant
    Filed: August 25, 2000
    Date of Patent: March 19, 2002
    Assignee: Stanadyne Automotive Corp.
    Inventor: Ilija Djordjevic
  • Patent number: 5364244
    Abstract: New valves to allow or prevent material flow through a conduit are disclosed. Such valves comprise a valve seat having a longitudinal axis, defining a through opening and including a seating surface which defines a portion of the through opening. A valve body, operatively coupled to the valve seat, is located at least partially in the through opening. A valve element is secured to and movable relative to the valve body. The valve element includes a sealing surface which is curved in at least one plane parallel to and including the longitudinal axis of the valve seat and is adapted to contact the seating surface to prevent material flow through the through opening. Pump assemblies and condiment dispensing systems employing such valves are also disclosed.
    Type: Grant
    Filed: August 26, 1993
    Date of Patent: November 15, 1994
    Assignee: Carr-Griff, Inc.
    Inventors: Christopher J. Taylor-McCune, Brian J. Kurth, Lloyd D. Golobay
  • Patent number: 5334001
    Abstract: A positive displacement pump includes a vertical pump cylinder or body formed from an extruded tube or pipe of rigid plastics material, and the pump body has a lower end portion connected by an annular compression coupling and a set of bolts to a mating portion of a pump base supported by a fabricated tubular frame. The pump base includes a smaller horizontal conduit having opposite ends removably connected to a set of flapper-type check valves. The upper end portion of the pump body is connected to a support flange by a set of tie rods extending from the coupling and pump base, and a piston is moved axially within the pump body by an offset connecting rod and an eccentric drive mounted on the output shaft of a motor-reducer drive unit. The drive unit is mounted on a platform which rests on the support flange and is pivotally supported by the frame.
    Type: Grant
    Filed: July 27, 1993
    Date of Patent: August 2, 1994
    Assignee: The Williams Pump Co.
    Inventor: Richard L. Williams
  • Patent number: 5328338
    Abstract: A hermetically sealed electric motor compressor, comprising a hermetically sealed casing, a reciprocating compressor unit mounted within the casing and compressing a working fluid, the compressor unit having a first discharge passageway, a valve assembly mounted within the casing and opening and closing the first discharge passageway, the valve assembly having a second discharge passageway, a discharge port mounted to the second discharge passageway within the casing and including a muffler. The muffler defines a plurality of resonance chambers. The discharge port includes a base plate having a projection. The valve assembly includes a reed valve assembly including a reed valve and a valve backer mounted behind the reed valve.
    Type: Grant
    Filed: March 1, 1993
    Date of Patent: July 12, 1994
    Assignee: Sanyo Electric Co., Ltd.
    Inventors: Yutaka Hirano, Hirokazu Kawakami, Ryuji Watanabe, Kiyoshi Tanaka, Hiroshi Takagi
  • Patent number: 4948351
    Abstract: A sewage pumping system for use in residential sewer systems. The pumping system includes a sump, a intake conduit, a discharge conduit, and a pump for pumping sewage from the sump through the intake into discharge conduits. The pump is a piston type pump with rolling resilient O-rings received between the piston and cylinder. Four check valves are provided, two of which are located in the intake conduit and two of which are located in the discharge conduit. The check valves in the intake conduit are spaced apart approximately 1 to 4 feet and the check valves and the intake conduit are also spaced apart approximately 1 to 4 feet. The check valves insure that the flow through the conduits is unidirectional and the spacing of the check valves insures that they will not be both wedged in the open position by passage of debris therethrough.
    Type: Grant
    Filed: March 15, 1989
    Date of Patent: August 14, 1990
    Inventor: Richard L. Williams
  • Patent number: 4895494
    Abstract: A double acting diaphragm pump includes a flat valve construction which is reversible to provide valving for both the inlet and outlet to the pumping chamber. A modular manifold construction cooperates with the flap valve construction to facilitate ease of replacement of the flap valve construction and case of repair of the diaphragm pump.
    Type: Grant
    Filed: July 15, 1988
    Date of Patent: January 23, 1990
    Assignee: The ARO Corporation
    Inventor: Richard K. Gardner
  • Patent number: 4699574
    Abstract: Two concentric vertical cylinders are separated by three radial partitions. An opening at the bottom of one of the partitions connects an air cell on one side of the partition with an outlet chamber on the other side of the partition. The two other partitions form sides of an inlet chamber, which receives fluid from outside the outer cylinder. The inner cylinder has a central pumping section positioned between upper and lower valve sections. In the valve sections ports extend through the inner cylinder wall to the inlet and outlet chambers. Spring loaded valves close the ports. Tension springs extend across the inlet chamber or compression springs extend across the inner cylinder to close the inlet valves. Tension springs extend across the inner cylinder to close the outlet valves. The elastomeric valve flaps have rigid curved backing members. A piston rod extends through one end cover to move a piston in the central section.
    Type: Grant
    Filed: November 27, 1985
    Date of Patent: October 13, 1987
    Inventors: Don E. Avery, Bryan F. Young
  • Patent number: 4165208
    Abstract: The present invention comprises a small, precise measuring pump provided with a germ barrier that is specifically designed for intravenous feeding devices and comprises: inlet and outlet chambers which are preferably integral one with the other, an inlet adapted to receive a tube from a storage device and the outlet chamber provided with an outlet adapted to receive a tube for delivery of material pumped to a patient; a passageway between the two chambers, which serves as an outlet from the inlet chamber and an inlet into the outlet chamber; a valve (preferably a float valve) associated with each inlet; and an actuating device which includes a piston and a tightly fitting resilient sheath enclosing the piston, the combination of piston and sheath projecting into the inlet chamber.
    Type: Grant
    Filed: December 15, 1977
    Date of Patent: August 21, 1979
    Assignee: Valleylab
    Inventor: Ingemar H. Lundquist
  • Patent number: 3998243
    Abstract: The flapper valve is to be utilized in a compressor of the type having a valve chamber adjacent a discharge or outlet port. The valve comprises a flexible valve member in the valve chamber which has a port closure at the front end thereof to seal the discharge port of the compressor. A backer plate is similarly received in the valve chamber and has one end in engagement with the rear end of the valve member to normally bias the port closure to a position wherein the discharge port of the compressor is closed. The valve member is provided with forwardly extending arms which cooperate with upturned ears on the backer plate to prevent longitudinal and lateral movement of the valve member. Accordingly, the valve member and backer plate need not be connected together prior to placement into the valve chamber. Alternatively, if the member and plate are connected together, their relative positions will be maintained even if the connection breaks.
    Type: Grant
    Filed: November 19, 1975
    Date of Patent: December 21, 1976
    Assignee: Fedders Corporation
    Inventors: Charles L. Osterkorn, Milton M. Kosfeld