A gas heat pump system is disclosed. The gas heat pump system includes an air conditioning module including a compressor, an outdoor heat exchanger, an expansion device, an indoor heat exchanger and a refrigerant pipe, an engine module including an engine configured to burn a mixture of fuel and air and provide power for operation of the compressor, a cooling module including a cooling water pump configured to generate flow of cooling water for cooling the engine and a cooling water pipe connected to the cooling water pump to guide flow of cooling water. The engine module includes a mixer configured to discharge the mixture of air and fuel to the engine, a supercharger disposed between the mixer and the engine to compress the mixture discharged from the mixer and discharge the mixture to the engine, and an adjuster disposed between the supercharger and the engine to adjust an amount of compressed mixture supplied to the engine.

A fuel economizer for an internal combustion engine includes a computer assembly, a battery, an operation setting system, a lead sensing fan, and an air intake fan motor. The lead sensing fan is mounted on the front of the traffic vehicle. The air intake fan motor is connected to an air inlet port of the internal combustion engine. The lead sensing fan is rotated during movement of the traffic vehicle. When the rotation speed of the lead sensing fan reaches a preset value, the lead sensing fan transmits a signal to the computer assembly which regulates the rotation speed of the air intake fan motor according to a speed grade preset by the operation setting system so as to control the air flow rate of the air inlet port of the internal combustion engine.

A fuel economizer for an internal combustion engine includes a computer assembly, a battery, an operation setting system, a lead sensing fan, and an air intake fan motor. The lead sensing fan is mounted on the front of the traffic vehicle. The air intake fan motor is connected to an air inlet port of the internal combustion engine. The lead sensing fan is rotated during movement of the traffic vehicle. When the rotation speed of the lead sensing fan reaches a preset value, the lead sensing fan transmits a signal to the computer assembly which regulates the rotation speed of the air intake fan motor according to a speed grade preset by the operation setting system so as to control the air flow rate of the air inlet port of the internal combustion engine.

An apparatus for diagnosing an exhaust gas recirculation (EGR) valve includes: an EGR apparatus including an EGR line connecting an exhaust line and an intake line and an EGR valve installed in the EGR line; an electric supercharger installed in the intake line to change an internal pressure of an intake manifold; a manifold pressure sensor measuring the internal pressure of the intake manifold; and a controller that when an engine is stopped while a vehicle is running, learns on an amount of opening of the EGR valve, diagnoses a fixation of the EGR valve and e a leakage of the EGR valve based on the internal pressure of the intake manifold detected by the manifold pressure sensor.

An apparatus for diagnosing an exhaust gas recirculation (EGR) valve includes: an EGR apparatus including an EGR line connecting an exhaust line and an intake line and an EGR valve installed in the EGR line; an electric supercharger installed in the intake line to change an internal pressure of an intake manifold; a manifold pressure sensor measuring the internal pressure of the intake manifold; and a controller that when an engine is stopped while a vehicle is running, learns on an amount of opening of the EGR valve, diagnoses a fixation of the EGR valve and e a leakage of the EGR valve based on the internal pressure of the intake manifold detected by the manifold pressure sensor.

The present invention relates to an adjustment mechanism (100) for variably adjusting the cross-section of a compressor inlet (22) and further relates to a corresponding compressor (20) including such an adjustment mechanism (100). The adjustment mechanism (100) comprises a plurality of rotatable orifice elements (110) and an actuation ring (120). The actuation ring (120) is mechanically coupled to the plurality of orifice elements 110 such that rotation of the actuation ring 120 causes movement of the orifice elements 110. The movement of the orifice elements (110) thereby adjusts the cross-section of a compressor inlet (22). The adjustment mechanism (100) further comprises a plurality of support members (140) which are arranged axially between the plurality of orifice elements (110) and the actuation ring (120). Additionally, the adjustment mechanism (100) comprises a spring (130), more specific a ring-shaped wave spring. The spring (130) is adapted to axially preload the plurality of orifice elements (110) and the actuation ring (120) when being in a mounted state.

A vehicle engine 2 comprises an exhaust system having an exhaust manifold 12 and an exhaust purification device 18. The exhaust manifold 12 is disposed at a predetermined distance from a dash panel 106 constituting a body of the vehicle 100, the exhaust purification device 18 is disposed in a position overlapping a floor tunnel region 114, formed by a floor tunnel of the body, and is disposed below the exhaust manifold 12 and to one side of the center of the engine 2 in the cylinder-array direction, as viewed from the longitudinal direction of the vehicle 100. An exhaust purification device introduction passage 17 connecting the exhaust manifold 12 and the exhaust purification device 18 is disposed on the other side of the center of the exhaust manifold 12 in the cylinder-array direction, and extends below the exhaust manifold 12 to be connected to the exhaust purification device 18.

Fluid pumping system for a vehicle with an internal combustion engine, the fluid pumping system comprising: a housing; an electric motor; a planetary gear with a first member that can be driven by the internal combustion engine, a second member driven by the electric motor, and a third member; and a pump driven by the third element of the planetary gear set, the housing being closed by a pump flange and a pulley with pulley cover, wherein at least the pulley and/or a ring gear disposed in the pulley is made of plastic.

A fuel economizer for an internal combustion engine includes a computer assembly, a battery, an operation setting system, a lead sensing fan, and an air intake fan motor. The lead sensing fan is mounted on the front of the traffic vehicle. The air intake fan motor is connected to an air inlet port of the internal combustion engine. The lead sensing fan is rotated during movement of the traffic vehicle. When the rotation speed of the lead sensing fan reaches a preset value, the lead sensing fan transmits a signal to the computer assembly which regulates the rotation speed of the air intake fan motor according to a speed grade preset by the operation setting system so as to control the air flow rate of the air inlet port of the internal combustion engine.

A fuel economizer for an internal combustion engine includes a computer assembly, a battery, an operation setting system, a lead sensing fan, and an air intake fan motor. The lead sensing fan is mounted on the front of the traffic vehicle. The air intake fan motor is connected to an air inlet port of the internal combustion engine. The lead sensing fan is rotated during movement of the traffic vehicle. When the rotation speed of the lead sensing fan reaches a preset value, the lead sensing fan transmits a signal to the computer assembly which regulates the rotation speed of the air intake fan motor according to a speed grade preset by the operation setting system so as to control the air flow rate of the air inlet port of the internal combustion engine.