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Gas-liquid mixing type engine exhaust after-treatment jet apparatus

A technology of exhaust after-treatment and gas-liquid mixing, applied in exhaust devices, engine components, machines/engines, etc., can solve problems such as affecting normal operation and cooling, inconvenient installation, and bulky

Inactive Publication Date: 2016-08-03
ZHEJIANG FAI ELECTRONICS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Due to the high surface tension of the DEF working fluid, when filling the DEF working fluid, the liquid often cannot pass through the filter smoothly into the SCR metering pump, resulting in the difficulty of initial liquid intake
In addition, the SCR metering pump will generate a large amount of steam when it is working. If it cannot be removed in time, it will affect its normal work and cooling.
[0008] In addition, existing technology is difficult to work in any climate without auxiliary heating at all
Since the existing device for providing the jet power source is too large or cannot be implanted into the DEF liquid storage tank due to other reasons, an auxiliary ice-melting device is required, which makes the system more complex and bulky, and the cost remains high
Therefore, solving the problem of complex system structure is a realistic and urgent problem.
For solving the above problems, there are many factors such as high cost and inconvenient installation in the prior art, which need to be further improved.

Method used

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  • Gas-liquid mixing type engine exhaust after-treatment jet apparatus
  • Gas-liquid mixing type engine exhaust after-treatment jet apparatus
  • Gas-liquid mixing type engine exhaust after-treatment jet apparatus

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Embodiment Construction

[0040] Such as figure 1 As shown, the structure diagram of the first embodiment of the gas-liquid hybrid engine exhaust aftertreatment injection device provided by the present invention includes a pulse pump 1, a nozzle 2, a mixing injection unit 3, and an injector 5, A controller 4, an air source 6. The pulse pump 1 is driven by the controller 4 to pressurize and measure the liquid that needs to be metered and injected (such as urea or DPF regenerated diesel) to provide a jet source for the nozzle 2 .

[0041] The pulse pump 1 is a sleeve-piston type pulse pump structure, including an electromagnetic drive device 14 and a plunger pump 10 . Among them, the plunger pump 10 includes a sleeve 20, a plunger 19, a return spring 17, an inlet valve 11 and an outlet valve 16, the sleeve 20 is closely matched with the plunger 19 to form a pressure delivery volume 12, and the return spring 17 Acts on the sleeve 20. The electromagnetic device 14 includes a coil 13 , a yoke 15 , a magn...

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PUM

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Abstract

A gas-liquid mixing type engine exhaust after-treatment jet apparatus comprises a pulse pump, a mixing jet unit, a nozzle, an ejector, a controller and an air source. The mixing jet unit comprises an ejecting cavity, a gas cavity, a nozzle positioning hole communicated with the gas cavity, an air inlet channel, and a limiting hole. The pulse pump comprises a lead for receiving signals and a lead interface, a control signal sent from the controller is transmitted to the pulse pump via the lead to drive the pulse pump to work, and the pulse pump provides the nozzle with a jet flow source. The nozzle sprays liquid to the ejecting cavity, space of the ejecting cavity is arranged in the spraying direction of the liquid, the gas cavity is positioned near a vent of the nozzle, and pressure in the gas cavity is reduced due to the fact that the liquid is sprayed. The purpose of the present invention aims at providing an exhaust after-treatment system that is high in reliability, simple in structure, convenient in installation, replacement and maintenance, and low in cost.

Description

technical field [0001] The invention belongs to the technical field of engine exhaust aftertreatment, and in particular relates to a NOx selective catalytic reduction (SCR) system for engine exhaust aftertreatment, a regenerative injection system for diesel particulate capture and filtration (DPF), and their control technologies. Background technique [0002] Today, vehicles powered by internal combustion engines need to be fitted with exhaust aftertreatment systems in order to meet increasingly stringent emissions requirements. For example, at present, it is mainly used for SCR (Selective Catalytic Reduction) technology for catalytic treatment of NOx and other pollutants in diesel engine exhaust, and technology for capturing diesel particulate matter (DPF) regeneration, etc. [0003] SCR technology needs to quantitatively inject 32.5% urea aqueous solution (also called diesel exhaust treatment fluid DEF = Diesel Exhaust Fluid, or add blue liquid AdBlue) into the exhaust of ...

Claims

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Application Information

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IPC IPC(8): F01N3/28
Inventor 郗大光谈秉乾杨延相
Owner ZHEJIANG FAI ELECTRONICS
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