Air intake supercharging mechanism capable of recovering brake energy

A technology of air intake pressurization and regenerative braking, which is applied to combustion engines, engine components, machines/engines, etc., can solve problems such as high cost, many additional devices, and complicated technology, and achieve low cost, simple devices, and improved progress. The effect of gas pressure and combustion efficiency

Active Publication Date: 2014-08-27
辽源市万通汽车部件有限公司
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  • Abstract
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Problems solved by technology

[0004] The technical problem to be solved by the present invention is to overcome the problems of many and large additional devices, high cost and complicated te

Method used

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  • Air intake supercharging mechanism capable of recovering brake energy
  • Air intake supercharging mechanism capable of recovering brake energy
  • Air intake supercharging mechanism capable of recovering brake energy

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Embodiment Construction

[0038] The present invention is described in detail below in conjunction with accompanying drawing:

[0039] refer to figure 1 , the air intake supercharging mechanism 4 that can recover braking energy is a box-type structural component as a whole, and is fixed on the vehicle frame of the engine compartment by four intake supercharging mechanism lugs 18 with the same structure during installation . The left end of the air intake supercharging mechanism 4 is the transmission output shaft 9 that is connected with the automobile transmission system, and the top of the air intake supercharging mechanism 4 is provided with an air intake supercharging mechanism air inlet 12 connected with the pressurized air inlet 5, and the right side It is the exhaust port 8 of the air intake supercharging mechanism connected with the electronic throttle valve 15 of the engine.

[0040] The air intake supercharging mechanism 4 which can recover braking energy is mainly composed of a clutch part,...

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Abstract

The invention discloses an air intake supercharging mechanism capable of recovering brake energy. The air intake supercharging mechanism capable of recovering the brake energy aims at solving the problem that the brake energy recovering systems of oil-electricity hybrid power vehicles as well as air hybrid power vehicles are large in quantity and size of additional devices, high in cost and complex in techniques. The air intake supercharging mechanism capable of recovering the brake energy comprises a clutch unit, a shifting fork unit, an air compressor, an air tank and control valve unit, an air intake supercharging mechanism housing and an air intake supercharging control unit. The clutch unit is mounted on the left of the inside of the air intake supercharging mechanism housing; the air compressor is mounted inside the air intake supercharging mechanism housing on the right of the air compressor; the air tank and control valve unit is mounted inside the air intake supercharging mechanism housing on the right of the air compressor; the shifting fork unit is mounted inside the air intake supercharging mechanism housing under the clutch unit; the air intake supercharging control unit is fixed onto the inner side of the lower wall of the air intake supercharging mechanism housing and sequentially connected with the control signal wires of an air tank air intake control valve, an air tank air exhaust control valve, an air tank air pressure sensor and a lifting fork electromagnetic valve.

Description

technical field [0001] The invention relates to an air intake supercharging mechanism in the technical field of energy-saving automobiles, more precisely, the invention relates to an engine air intake supercharging mechanism capable of recovering braking energy. Background technique [0002] With the introduction of the government's energy-saving and environmental protection policies, various advanced energy-saving technologies have begun to be used in new energy vehicles. Electric energy is stored in the battery, which reduces the energy lost by the heat of the brake pads, and also reduces the wear of the brake pads; Compared with the traditional energy recovery system, the air hybrid used in Peugeot's air hybrid The technology has opened up a new road for new energy. It uses a hydraulic pump, a hydraulic motor and two gas storage tanks. When braking, the mechanical energy in the transmission system is used to drive the hydraulic pump, and the pressure energy is stored in t...

Claims

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Application Information

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IPC IPC(8): F02B33/36F02B39/04F02B33/44
Inventor 靳立强何刚李建华陈鹏飞郑迎
Owner 辽源市万通汽车部件有限公司
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