PATENT CLAIM ANALYSIS

Application Number: 15746333
Application Type: Utility
Filing Date: 2018-01
Publication Date: 2018-08
Patent Classification: ["432", "070000"]

Abstract:
A continuous aluminum melting furnace with a porous spray pipe heat exchanger, comprising a furnace body, combustion nozzles, a smoke pipeline and a heat exchanger. The heat exchanger comprises a smoke channel and heat exchange cylinders, wherein each of the heat exchange cylinders comprises a head end, a tail end, and a porous spray pipe in at least one of the cylinders. The porous spray pipe comprises a closed end and a pipe body, with several air spray holes provided on a peripheral wall of the pipe body so that cold air entering the at least one heat exchange cylinder is sprayed to an inner wall of the cylinder so as to exchange heat with high-temperature smoke which flows through an outer wall of the cylinder, thus keeping the temperature of the cylinder lower than the rated tolerant temperature of the material from which the cylinder is made.

Claim (Index 1):
A continuous low oxygen and high temperature combustion aluminum melting furnace with porous injection pipe heat exchanger, comprising:\n a furnace body that is comprised of an aluminum melting tank provided inside the furnace body, a combustion chamber provided inside the furnace body and above the aluminum melting tank, and a first high temperature flue gas outlet located on one end wall of the furnace body and connected to the combustion chamber; at least one combustion nozzle provided on the other end wall of the furnace body for injecting fuel and combustion-supporting gas into the combustion chamber, in order to generate heat in the combustion and melt aluminum bar in the aluminum melting tank into molten aluminum; a flue gas piping connected the first high temperature flue gas outlet of the furnace body to a chimney; and a high temperature heat exchanger provided in the flue gas piping to make use of the waste heat of the flue gas for preheating air; wherein, the high temperature heat exchanger is a porous injection pipe heat exchanger comprised of a flue gas passage and at least one heat-exchanging cylinder that is provided in the flue gas passage, the at least one heat-exchanging cylinder is comprised of a head end that is formed into a circular end wall and with an intake hole in the center, a tail end that is formed into open end, and a porous injection pipe that extends around the intake hole from the head end to the tail end in the at least one heat-exchanging cylinder, wherein cold air enters the porous injection pipe heat exchanger through the intake hole and the preheated high temperature air flows out of the porous injection pipe heat exchanger through the tail end, and the porous injection pipe is comprised of a closed end that is adjacent to the tail end and a pipe body that extends between the intake hole and the closed end, a plurality of air apertures are provided on the periphery wall of the pipe body, such that the cold air that enters the at least one heat-exchanging cylinder through the intake hole is injected towards the inner wall of the at least one heat-exchanging cylinder through the plurality of air apertures, in order to conduct fast heat exchange with the high temperature flue gas that flows along the outer wall of the at least one heat-exchanging cylinder, and maintain the temperature of the at least one heat-exchanging cylinder below the calibration heat-resisting temperature of the manufacturing material thereof, and the porous injection pipe heat exchanger is specifically comprised of a first heat-exchanging cylinder, a second heat-exchanging cylinder and a third heat-exchanging cylinder which are provided in the flue gas passage in sequence along the flue gas flowing direction, the porous injection pipe heat exchanger is also comprised of a first connecting passage and a second connecting passage which are provided outside the flue gas passage, the first heat-exchanging cylinder is connected to the third heat-exchanging cylinder end to end along the air flowing direction by the first connecting passage, and the third heat-exchanging cylinder is connected to the second heat-exchanging cylinder end to end along the air flowing direction by the second connecting passage, wherein the cold air enters the first heat-exchanging cylinder through the intake hole of the first heat-exchanging cylinder and then passes the first connecting passage, the third heat-exchanging cylinder, the second connecting passage and the second heat-exchanging cylinder, then the preheated high temperature air flows out the porous injection pipe heat exchanger through the tail end of the second heat-exchanging cylinder

Metadata:
- Claim Count in Document: 5.0
- Percentile: 86.0
- Lexical Diversity: 2.23944
- Patent Class: 432.0
- Transitional Phrase Type: open
- Component Type: 1
- Foreign Priority: True
- Related Applications: ['15561930', '13063037', '12230878', '10804035', '12459318']

Analysis Scores:
- 35 USC 101 Eligibility (BERT): 0.6848763471905737
- 35 USC 102 Novelty (BERT): 0.5067433475975063
- Combined Prediction Score: 0.6670630472312669
- Mean Citation Score: 233.183238
- Max Citation Score: 242.1516
- Similarity Product: 168.56207432928085

Labels:
- Claim Label 101: 1
- Claim Label 102: 1
- Claim Label 103: 1
- Claim Label 112: 1
- Combined Label: 1
- Label 101 Adjusted: 1

Dataset: test