Abstract: The thermostatic gas valve comprises a body (2) wherein three cylindrical cavities of parallel axes (8,9,10) contain the flow valves (6,20,13,14) and a thermostatic bellows (11), a single rotating knob (7) having a cap (7a) and an inner cylindrical member (7b) with relative axial movement, and four chambers (30,31,32,33) communicating a respective valve with the two pairs of gas inlets (34,34') and outlets (35,35') located for access thereto from the front of the valve. The guide means (23,40) for the central shaft (8') of the knob (7) are combined with the guide means (15a,15b,15c,41) for the body cover (15) located underneath the knob (7), to find its different angular positions. The obturators of the minimum and proportional gas flows are formed in a single piece by two integral parts.

Abstract: A thermostat control having improved user controls wherein an analog version contains a binary coded switch for selectively setting a setpoint temperature. The binary coded switch is configured to have discrete positions corresponding to a plurality of setpoint temperature settings. It contains, among other things, a resistor network configured to produce a setpoint signal indicative of the binary coded switch position and a setpoint adjust switch for setting the binary coded switch position. Also, digital version having a man-machine interface port, wherein point information from a controller can be viewed and modified with the thermostat control device controls when a hardware passkey is inserted into the man-machine interface port.

Abstract: A refrigeration system whose refrigeration capacity can be regulated continuously in a simple and reliable manner by gradually restricting the flow of refrigerant through an economizer channel to the compressor. The refrigeration system includes a rotary screw compressor, a condenser, a first pressure reducing valve, an economizer, a second pressure reducing valve, and an evaporator connected in sequence by respective channels. An outlet channel connects the evaporator to a low pressure inlet port of the rotary screw compressor to form a closed loop for a refrigerant. An economizer channel selectively connects the economizer to a closed working chamber of the rotary screw compressor. An adjustable valve provided in the economizer channel continuously regulates a mass flow of gaseous refrigerant through the economizer channel. And a sensing device senses a value of at least one parameter of the refrigerant in the closed loop which is indicative of a required refrigeration capacity.

Abstract: A method and control apparatus are described for limiting peak-load contribution by HVAC systems and other systems, and for measuring the effect of energy-conservation expedients. The control apparatus reduces the percentage of on-time and thus fuel and power consumption and demand for utility capacity to a predetermined extent during peak-load periods, by inhibiting fuel-on signals from the thermostat of each HVAC system to the furnace, fuel-pump, or air conditioner of the HVAC system, or other system, so that the total on-time during a load-measuring interval is reduced to a predetermined amount. During non-peak periods, the control apparatus is inactive and the thermostat controls the HVAC system. The measurement aspect of the invention measures and records on and off state time intervals for the HVAC system, and temperatures associated with such intervals.

Abstract: A device for magnetically treating water equipped in a refrigerator, capable of achieving an easy production of magnetically treated water and an easy discharge of the magnetically treated water produced. A device for magnetically treating water mainly includes a permanent magnet for applying a magnetic force to water and a drive motor for rotating the water. A device for magnetically treating water is installed in the interior of the refrigerator so that the produced magnetically treated water is easily taken, thereby enabling a user to easily drink the magnetically treated water.

Abstract: Flow control valves (19) are provided and interfaced with the HVAC ducts (14) at the efferent ends (16) in adjoining rooms of a structure. A flow control command device (29), mounted on the wall of the structure (25), is provided to control the flow of air through the HVAC ducts (14) in response to flow control commands. Flow control commands are transmitted by wireless means to the command decoder (22) and converted to flow control signals. A flow control signal bus (21) is provided to connect the flow control signals to the flow control valves (19). A master thermostat (32) is connected directly to the HVAC system (10) and in series with a slave thermostat (30). This series thermostat connection causes control of the HVAC system (10) to be determined by the thermostat located in the room that receives the higher air flow.

Abstract: An improved apparatus for controlling a refrigerator equipped with a linear compressor which is capable of achieving an optimum driving efficiency of the system irrespective of an operational condition of a refrigerator by providing the refrigerator with a linear compressor. The apparatus includes an operation ratio computation unit for computing an operation ratio of a compressor, a cooling capacity computation unit for computing a cooling capacity based on a stroke distance of a piston of the compressor, and a controller for maintaining a constant operation ratio by controlling the piston stroke distance in accordance with the operation ratio and the cooling capacity.

Abstract: A process that converts heat energy to kinetic energy comprising at least two fluid cycles thermally joined in which these fluids act as refrigerants. An initiating cycle capable of performing reversed Carnot refrigeration is the major source of heat energy driving the process, and does so by giving off heat energy largely obtained through evaporating and superheating its fluid by condensing its fluid to a reclaiming cycle by causing said reclaiming cycle to boil its fluid, and this boiled fluid expands and moves invoking kinetic energy with the use of a turbine or similar means which is utilized by applicably selected means. The fluid in the reclaiming cycle is then condensed by giving off remaining heat energy and may comprise options of being recycled in the process, rejected out of the process, or used to drive additional reclaiming cycles, or another Remora II process.

Abstract: A temperature control system for melting a solid cooking medium in a deep fat fryer comprising a chamber for containing a cooking medium; a heating surface within the chamber for heating the cooking medium; a heating device for heating the heating surface; a temperature sensor in the vicinity of the heating surface for sensing the temperature of the medium; and a temperature controller for controlling the heating device to control the amount of heat provided to the cooking medium, wherein the temperature controller includes: a system causing the heating device to generate uniform pulses of heat at a fixed duty cycle for a predetermined period of time, and a system for interrupting the operation of the heating device the predetermined period if the temperature of the cooking medium exceeds a first predetermined temperature.

Abstract: A method of controlling an expansion valve in a refrigeration system. The method comprises the steps of controlling the modulation of the expansion valve based upon a first feedback control criteria; and controlling the modulation of the expansion valve based upon a second feed forward control criteria.

Abstract: An operation control device for a refrigerator which can maintains freshness of food and drink for a long time by supplying a cold-storage room with cool air remaining in an evaporator by opening a cold-storage room damper and driving a fan motor until a present temperature of the evaporator sensed by an evaporator temperature sensor is above the temperature of the evaporator sensed while the driving of a compressor motor is stopped, by a predetermined temperature if the present temperature of the cold-storage room sensed by a cold-storage room temperature sensor is above a predetermined temperature set in the cold-storage room while the driving of the compressor motor is stopped.

Abstract: A variable capacity vapor compression cooling system is presented. In the system of the present invention, air conditioning requirements are entered into a microprocessor which controls the system. Liquid phase refrigerant entering an evaporator is regulated by a microprocessor controlled electronic expansion valve. Evaporated refrigerant is delivered to a pair of compressors from the evaporator. The motors for the compressors are controlled by a controller. Each of the compressors has a feed back loop attached thereto for feeding back some of the inducted vapor phase refrigerant. The amount of vapor fed back in each loop is regulated by a corresponding microprocessor controlled multi-purpose valve. The compressed vapor phase refrigerant is then presented to a condenser which condenses the refrigerant to the liquid phase which is used for cooling, as is well known in the art. Thereafter, liquid phase refrigerant is presented to an economizer where vapor phase refrigerant (i.e., flash gas) is drawn off.

Abstract: The present invention is a method for operating an air conditioner chiller system under high ambient air conditions. When the temperature of the standard discharge saturation temperature increases above a first predetermined temperature as a result of a rise in ambient air temperature, an expansion valve is throttled to reduce the capacity of the system compressor. The amount of throttling can be made to be dependent on the amount that the discharge temperature exceeds the first predetermined temperature so that compressor capacity is reduced by an amount no more than is necessary to assure that a maximum operating design pressure is not exceeded.

Abstract: A method and apparatus are disclosed for improving the consistency and quality of a frozen carbonated beverage product. The invention utilizes a method of monitoring the level of liquid in the mixing chamber of a frozen carbonated beverage machine to accomplish this result. The method involves measuring the pressure spikes that occur in the mixing chamber. The magnitude of a pressure spike is indicative of the amount of liquid in the mixing chamber. If a pressure spike is too high or too low, that is indicative that there is too much or too little liquid in the mixing chamber. By regulating the amount of liquid in the chamber, the consistency and quality of the beverage product can be maintained. The present invention uses a microprocessor to determine when the spikes are outside of an acceptable predetermined range.

Abstract: A refrigerator for rapidly cooling down and then maintaining a plurality of wine bottles of arbitrary configuration within a selected temperature range comprises a compression type refrigeration unit in association with the refrigerated compartment which receives the wine bottles. The refrigeration unit includes a controllable expansion valve and a control system in which a microcontroller is arranged with a plurality of stored cooldown models as references for bringing the wine bottles to temperature without damage to the wine. Temperature, pressure and air flow measurements are used by a computer programmed to determine the status of the thermal load as affected by the number of wine bottles and their temperatures, and to adjust variations in the load compartment temperature for both cooldown modes and a steady state mode. Given an arbitrary thermal load, the refrigerator system lowers the wine temperature in a maximized but controlled manner so that chilled wine is available in no more than 30 minutes.

Abstract: A refrigeration system which controls subcooling by controlling the amount of refrigerant diverted from the condenser to the receiver based upon the difference in temperature between the phase change transition temperature of the refrigerant in the condenser and the liquid refrigerant temperature at the condenser output. Refrigerant is bled from the receiver to charge the system until the condenser pressure causes the difference between the phase change and liquid temperatures to exceed a predetermined value. A controller responds to this condition by simultaneously operating a bleed valve at the receiver inlet and a release valve at its outlet to draw refrigerant from the condenser into the receiver. As the condenser pressure drops, the difference between the phase change and liquid temperatures decreases toward the desired amount, and the cycle begins again.

Abstract: A method and apparatus for improved latent heat extraction combines a run-around coil system with a condenser heat recovery system to enhance the moisture removing capability of a conventional vapor compression air conditioning unit. The run-around coil system exchanges energy between the return and supply air flows of the air conditioning unit. Energy recovered in the condenser heat recovery system is selectively combined with the run-around system energy extracted from the return air flow to reheat the supply air stream for downstream humidity control. A control system regulates the relative proportions of the extracted return air flow energy and recovered heat energy delivered to the reheat coil for efficient control over moisture in the supply air flow. Auxiliary energy in the form of electric heat energy is further added to the recovered heat energy for additional reheat use.

Abstract: A regulating apparatus for a motor vehicle air conditioner which automatically influences a cab temperature set by a vehicle operator dependent upon sunshine striking the vehicle, wherein, an intensity of sun rays is determined from, an intensity of daylight brightness and an intensity of an infrared portion of the daylight. The daylight is led to one or more sensors by one or more light conductors.

Abstract: A thermostat includes a first temperature sensor integral with the thermostat and at least one and typically three remotely positioned temperature sensors. Switches are provided to select which one or more temperature sensors are employed to provide an averaged measured temperature. Voltages representative of the temperature ambient to each diversely placed sensor are applied to separate inputs to an analog multiplexer which transfers a single voltage to an analog-to-digital converter in accordance with address codes received from a processor. The output of the A-D converter, a digital count representative of the temperature measured by the currently selected sensor, is read by the processor and temporarily saved. Then, the next selected sensor is similarly processed.

Abstract: An engine-driven heat pump apparatus having a refrigerant circulation line which includes at least one inside heat-exchanger for exchanging heat between the air in a room and the refrigerant, and a pressure-controlling device for substantially maintaining the pressure on the high pressure side of the refrigerant circulation line by, for example, narrowing the opening of the expansion valve(s), decreasing the volume of air passing through the inside heat-exchanger(s), recirculating the air passing through the inside heat-exchanger(s), lowering the heat efficiency of the engine when the required quantity of radiated heat from the inside heat-exchanger(s) in use is increased, e.g., when the number of inside heat-exchanger(s) in use is increased, thereby maintaining or increasing heating power in the heating mode, irrespective of the number of inside heat-exchangers in use.