US2741424A - Refrigeration - Google Patents

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Classifications

• • F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
  • F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
  • F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
  • F25B31/00—Compressor arrangements
  • F25B31/02—Compressor arrangements of motor-compressor units

Definitions

• This invention relates to refrigeration and particularly to means for preventing slugs of oil or liquid refrigerant from entering the cylinders of a refrigerant compressor.
• the present invention contemplates a device for protecting the valves and other moving parts of a refrigerant compressor by throttling the passage of liquid refrigerant and oil to the cylinders each time the compressor is started.
• I provide a check valve in the suction chamber leading to the intake manifold of the compressor.
• One end of this suction chamber is in open communication with the crankcase and with the motor compartment.
• the opposite end of this suction chamber is in communication, through the check valve, with the intake manifold of the compressor.
• the valve is provided with two sets of ports for parallel flow of refrigerant vapor to the intake manifold and when the compressor is operating normally, that is, when only relatively dry refrigerant vapor is flowing thereto, both sets of ports are open.
• this relatively dense oil and vapor mixture causes the valve to close one set of ports, thus restricting the flow to the other set of ports.
• Fig. 1 is a longitudinal section of a portion of a motor compressor unit incorporating my invention
• Fig. 2 is a vertical section through my improved check valve, showing the valve in open position
• Fig. 3 is a section similar to Fig. 2 but taken at an angle of thereto and showing the valve in closed position.
• an hermetically sealed casing 10 encloses a motor compressor unit adapted for use in a refrigerating system. Only so much of the unit as is necessary for complete understanding of the invention is illustrated in the drawing.
• an electric induction motor comprising a stator 11 and a rotor 12 having an air gap 13 therebetween is arranged within the casing 16.
• the stator may be secured within the casing in any suitable manner as by a'shrink fit.
• the casing is provided with a removable head 15 having an opening 16 therein, which opening is connected by a suitable conduit, not shown, to the suction side of the expander or evaporator of the refrigerating system in which the unit is connected.
• a fine mesh strainer 17 is located at the outlet of the opening 16.
• the compressor includes a crankshaft 18 attached to the rotor 12 and journaled at one end in a support 19. The opposite end of the crankshaft is supported in a suitable manner, not shown, within the opposite end of the casing 10.
• the compressor is of the multiple cylinder type, only one such cylinder, 20, being shown and described.
• a piston 21 is arranged within the cylinder 29 and is connected to the crankshaft 18 by a connecting rod 22.
• the casing 10 is formed with a suction chamber 23 opening at one end into a motor compartment 24'.
• the motor compartment is in open communication with a crankcase 25 by means of openings 26 provided in the upper portion of the support 19.
• a passageway 27 leads from the suction chamber 23 into an intake manifold 28.
• a port 29 provided with a suction valve 39 leads from the intake manifold into the cylinder 20 and an exhaust port 31 provided with an exhaust valve 32 leads. from the cylinder 2% to an exhaust manifold 33.
• the exhaust manifold is connected by a suitable conduit, not shown, to the condenser of the refrigerating system in which the motor compressor unit is used. So, as to provide for how of oil and liquid refrigerant between the motor compartment 24 and the crankcase 25, the stator 11 is provided with an opening 11 in the lower portion thereof and the support 19 is provided with an opening 19 in its lower portion.
• the above described compressor isof a more or less conventional type and. is merely one illustration of a type of compressor in which my invention may be incorporated.
• the passageway 27 that leads from the suction chamber 23 into the intake manifold 28 is provided with a check valve, indicated generally by reference numeral 34.
• This check valve includes a tube 35 provided with a flange 36 adapted to fit within a notch 37 in the casing 10 for holding the tube in position.
• the tube 35 is provided with two sets of ports or openings 38 and 39. As shown, the ports 38 are much larger than the ports 39.
• a valve seat 40 is formed within the tube 35, and between the ports 38 and 39.
• a buoyant check ball 41 is located within the tube 35 and is retained therein by flanged portions 42 at the lower end of the tube.
• a compression spring 43 having its lower end in contact with the check ball 41 and its upper end in contact with a retaining pin 44, urges the check ball away from the valve seat 40 and toward the lower end of the tube 35.
• a compressor having a crankcase containing a quantity of oil and at times a quantity of liquid refrigerant, said compressor including a cylinder, a piston within said cylinder, means for reciprocating said piston,
• inlet and outlet valves leading to and from said cylinder means forming suction'and exhaust chambers connected to and leading to and from said cylinder, said suction chamber also beingin open communication with said crankcase for flow of refrigerant vapor and entrained oil from the crankcase to said cylinder, and means insaid suction chamber operable responsive to the density of the mixture of refrigerant vapor and oil passing therethrough for automatically throttling the flow of such fluid.
• a compressor' having a crankcase containing a quantity of oil and at times containing a quantity of liquid refrigerant, 'said compressor including a cylinder, a piston within said cylinder, means for reciprocating said piston, inlet and outlet valves leading to and from said cylinder, means forming suction and exhaust cham bers connected to and leading to and from said cylinder,
• said suction chamber also being in open communication with said crankcase for flow of refrigerant vapor and entrained oil from the crankcase to said cylinder, jmeans in said suction chamber providing parallel paths of flow of vfluid between said crankcaseand said cylinder, and means in at least one of said paths of flow operable responsive to the density of fluid flowing through said suction chamber for throttling the flow of fluid to said cylinder.
• a compressor having a crankcase containing a quantity of oil and at times containing a quantity of liquid refrigerant, said compressor including a cylinder, a piston Within said cylinder, means for reciprocating said piston, inlet and outlet valves leading to and from said cylinder, means forming suction and exhaust chambers connected to and leading to and from said cylinder, said suction chamber also being in open communication with said crankcase for flow ofrefrigerant vapor and entrained oil from the crankcase to the cylinder, a valve in said suction chamber, said valve having a plurality of ports, and means for closing certain of said' ports while leaving others of said ports open, said last named means being operable responsive to the density of fluid passing through said valve.

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• Engineering & Computer Science (AREA)
• Physics & Mathematics (AREA)
• Mechanical Engineering (AREA)
• Thermal Sciences (AREA)
• General Engineering & Computer Science (AREA)
• Compressor (AREA)

Description

Priority Applications (1)

Applications Claiming Priority (1)

Publications (1)

Family

ID=22875497

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Cited By (14)

Citations (7)

• 1951
  • 1951-06-22 US US233008A patent/US2741424A/en not_active Expired - Lifetime

Patent Citations (7)

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