CN219050509U - Filtering structure of combustion chamber carbon removing machine - Google Patents

Abstract

The utility model relates to the technical field of combustion chamber carbon removing machines, in particular to a combustion chamber carbon removing machine filtering structure which comprises a base, wherein two groups of air inlet liquid openings are arranged on the left side of the base, two groups of connecting pipes are arranged at the upper end of the base, air outlet liquid openings are arranged at the upper ends of the connecting pipes, two groups of L-shaped through holes which are used for communicating the air inlet liquid openings with the connecting pipes are arranged in the base, the connecting pipes comprise a main pipe which is perpendicular to the base and carbon deposition pipes which are arranged on the side wall of the main pipe, and the carbon deposition pipes are obliquely downwards arranged. The utility model can carry out unidirectional and bidirectional filtration on carbon deposit extracted from the bottom of the piston of the automobile combustion chamber, prevents impurities from going to the automobile combustion chamber, circulates pulses, enables the automobile combustion chamber to be clean, effectively solves the problem of piston cylinder pulling, ensures that a valve is also clean, does not block a piston ring, avoids engine oil burning, effectively prevents a three-way catalyst from being blocked, and effectively prevents an engine from being overhauled.

Description

Filtering structure of combustion chamber carbon removing machine

Technical Field

The utility model relates to the technical field of combustion chamber carbon removal machines, in particular to a filtering structure of a combustion chamber carbon removal machine.

Background

Most of gasoline contains impurities, and when the vehicle uses fuel oil, the impurities enter the vehicle along with the oil, and carbon deposition can be generated during combustion operation in the engine of the vehicle. If the carbon deposit is not regularly cleaned, the carbon deposit is more accumulated, the oil consumption of the automobile is increased, the power of the engine is reduced, and the noise is overlarge. Therefore, combustion chamber soot is typically cleaned periodically using a soot remover.

The existing combustion chamber carbon remover has the following defects when in use: 1. when the pulse cleaning combustion chamber carbon deposition is carried out: the carbon black blocks and jelly in the combustion chamber cylinder cannot be filtered; 2. carbon deposition particles during cleaning without filtering can be adsorbed on the bottom of a piston, a piston ring, a cylinder wall and a valve; 3. the piston ring carbon deposit is not cleaned well, piston cylinder pulling is easy to cause, engine overhaul is caused, carbon deposit block particles damage the valve, ternary catalysis congestion is caused, and the national six-particle catcher is wrong in identification; 4. the liquid medicine for cleaning the carbon deposit has acidity and corrosiveness, and the carbon deposit black blocks and jelly which are washed out by the pulse can block a machine pipeline if not cleaned in time, so that the two glass cups cannot be fed with liquid and are in unequal quantity.

For this purpose, we propose a filter structure for a combustion chamber decarbonizer.

Disclosure of Invention

The utility model aims to provide a filtering structure of a combustion chamber carbon remover, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a combustion chamber decarbonization machine filtration, includes the base, two sets of inlet air liquid mouths are installed in the base left side, two sets of connecting pipes are installed to the base upper end, the inlet air liquid mouth is installed to the connecting pipe upper end, be equipped with two sets of L type through-holes with inlet air liquid mouth and connecting pipe intercommunication in the base, the connecting pipe includes the person in charge and the carbon deposition tube that sets up in the person in charge lateral wall with the base vertical setting, the carbon deposition tube slope sets up downwards, be equipped with the gas-liquid passageway in the person in charge, be equipped with the carbon deposition storage chamber in the carbon deposition tube, the gas-liquid passageway is separated into gas-liquid passageway and lower gas-liquid passageway with the carbon deposition storage chamber, go up gas-liquid passageway lower extreme and carbon deposition storage chamber upper end and be linked together, the internal diameter of carbon deposition storage chamber is greater than gas-liquid passageway internal diameter, lower gas-liquid passageway upper end is linked together with carbon deposition storage chamber lower lateral wall, the filter screen section of thick bamboo is installed to the carbon deposition storage chamber lower extreme opening part threaded connection has outer wire plug.

The upper end of the filter screen cylinder is contacted with the upper wall of the carbon deposit storage cavity, and the lower end of the filter screen cylinder stretches into the outer plug head and is contacted with the inner bottom wall of the outer plug head. When the filter screen cylinder is installed, the filter screen cylinder is plugged into the carbon deposition storage cavity, and then the outer plug is screwed into the opening at the lower end of the carbon deposition storage cavity, so that the outer plug extends into the carbon deposition storage cavity and is positioned at the outer side of the filter screen cylinder, and the filter screen cylinder is limited, so that the upper end of the filter screen cylinder is aligned with the lower end of the upper gas-liquid channel.

And a gap is formed between the outer side wall of the filter screen cylinder and the side wall of the carbon deposit storage cavity. The void is used for storing carbon deposit.

The inner diameter of the upper end of the filter screen cylinder is larger than the inner diameter of the upper gas-liquid channel. After the filter screen cylinder is arranged in the carbon deposition storage cavity, when gas and liquid flow from the gas inlet to the gas outlet, the gas and the liquid entering the carbon deposition storage cavity must enter the filter screen cylinder from the outside of the filter screen cylinder and then enter the upper gas and liquid channel, and carbon deposition is filtered out of the filter screen cylinder in the flowing process of the gas and the liquid, and the carbon deposition storage cavity is inclined downwards, so that the carbon deposition can be accumulated in the carbon deposition storage cavity; when gas and liquid flow from the gas outlet to the gas inlet, the gas and liquid firstly enter the filter screen cylinder from the upper gas and liquid channel, then enter the outside of the filter screen cylinder and then enter the lower gas and liquid channel, and carbon deposition is filtered in the filter screen cylinder in the gas and liquid flowing process.

The upper end of the upper gas-liquid channel is communicated with the gas-liquid outlet, and the lower end of the lower gas-liquid channel is communicated with the L-shaped through hole.

Compared with the prior art, the utility model has the beneficial effects that: the utility model can carry out unidirectional and bidirectional filtration on carbon deposit extracted from the bottom of the piston of the automobile combustion chamber, prevents impurities from going to the automobile combustion chamber, circulates pulses, enables the automobile combustion chamber to be clean, effectively solves the problem of piston cylinder pulling, ensures that a valve is also clean, does not block a piston ring, avoids engine oil burning, effectively prevents a three-way catalyst from being blocked, and effectively prevents an engine from being overhauled.

Drawings

FIG. 1 is a schematic top view of the present utility model;

FIG. 2 is a schematic diagram of a front view structure of the present utility model;

FIG. 3 is a schematic view of the main section structure of the present utility model;

fig. 4 is a schematic view of the structure of the outer plug according to the present utility model.

In the figure: 1. a base; 101. an L-shaped through hole; 2. an air inlet; 3. a connecting pipe; 301. a main pipe; 302. carbon deposition tube; 303. a carbon deposit storage cavity; 304. a gas-liquid passage; 305. a lower gas-liquid channel; 4. a gas-liquid outlet; 5. a filter screen cylinder; 6. an external wire plug.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides a combustion chamber decarbonization machine filtration, includes base 1, two sets of inlet fluid mouths 2 are installed in base 1 left side, two sets of connecting pipes 3 are installed to base 1 upper end, outlet fluid mouth 4 is installed to connecting pipe 3 upper end, be equipped with two sets of L type through-holes 101 with inlet fluid mouths 2 and connecting pipe 3 intercommunication in the base 1. The gas inlet and liquid port 2 is connected with a carbon removing machine, the gas outlet and liquid port 4 is connected with a cleaning hose, and gas and liquid can flow in the gas inlet and liquid port 2, the L-shaped through hole 101, the connecting pipe 3 and the gas outlet and liquid port 4.

The connecting pipe 3 comprises a main pipe 301 and a carbon deposition pipe 302, wherein the main pipe 301 is perpendicular to the base 1, the carbon deposition pipe 302 is arranged on the side wall of the main pipe 301, the carbon deposition pipe 302 is obliquely downwards arranged, a gas-liquid channel is arranged in the main pipe 301, a carbon deposition storage cavity 303 is arranged in the carbon deposition pipe 302, the gas-liquid channel is divided into an upper gas-liquid channel 304 and a lower gas-liquid channel 305 by the carbon deposition storage cavity 303, the upper end of the upper gas-liquid channel 304 is communicated with the gas outlet 4, the lower end of the lower gas-liquid channel 305 is communicated with the L-shaped through hole 101, and the lower end of the upper gas-liquid channel 304 is communicated with the upper end of the carbon deposition storage cavity 303. So that the gas-liquid must pass through the carbon deposition storage chamber 303 of the carbon deposition tube 302 while flowing in the gas-liquid passage of the main pipe 301.

The inner diameter of the carbon deposition storage cavity 303 is larger than the inner diameter of the gas-liquid channel, the upper end of the lower gas-liquid channel 305 is communicated with the lower side wall of the carbon deposition storage cavity 303, a filter screen cylinder 5 is installed in the carbon deposition storage cavity 303, an outer wire plug 6 is connected with the opening of the lower end of the carbon deposition storage cavity 303 in a threaded manner, the upper end of the filter screen cylinder 5 is in contact with the upper wall of the carbon deposition storage cavity 303, the lower end of the filter screen cylinder 5 stretches into the inner portion of the outer wire plug 6 and is in contact with the inner bottom wall of the outer wire plug 6, a gap is formed between the outer side wall of the filter screen cylinder 5 and the side wall of the carbon deposition storage cavity 303, and the inner diameter of the upper end of the filter screen cylinder 5 is larger than the inner diameter of the upper gas-liquid channel 304. When the filter screen cylinder 5 is installed, the filter screen cylinder 5 is plugged into the carbon deposition storage cavity 303, and then the outer plug head 6 is screwed into an opening at the lower end of the carbon deposition storage cavity 303, so that the outer plug head 6 extends into the carbon deposition storage cavity 303 and is positioned at the outer side of the filter screen cylinder 5, and the filter screen cylinder 5 is limited, so that the upper end of the filter screen cylinder 5 is aligned with the lower end of the upper gas-liquid channel 304; when gas and liquid flow from the gas inlet liquid port 2 to the gas outlet liquid port 4, the gas and liquid entering the carbon deposition storage cavity 303 must enter the filter screen cylinder 5 from the outside of the filter screen cylinder 5 and then enter the upper gas and liquid channel 304, and carbon deposition is filtered out of the filter screen cylinder 5 in the flowing process of the gas and liquid, and the carbon deposition storage cavity 303 is inclined downwards, so that carbon deposition can be accumulated in the carbon deposition storage cavity 303; when gas and liquid flow from the gas outlet 4 to the gas inlet 2, the gas and liquid firstly enter the filter screen cylinder 5 from the upper gas and liquid channel 304, then enter the outside of the filter screen cylinder 5 and then enter the lower gas and liquid channel 305, and carbon deposition is filtered in the filter screen cylinder 5 in the gas and liquid flowing process. The filter structure of the combustion chamber carbon remover can filter unidirectionally and bidirectionally.

Specifically, during the use, inlet gas liquid mouth 2 is connected with the decarbonization machine, and outlet gas liquid mouth 4 connects washs the hose, dismantles the spark plug of car combustion chamber to insert the car combustion chamber with wasing the hose, washs the liquid medicine and pours into the car combustion chamber into through wasing the hose into, carries out circulation pulse through the decarbonization machine and washs the car combustion chamber. When the cleaning liquid flowing out of the carbon removing machine passes through the filtering structure of the combustion chamber carbon removing machine, firstly, the cleaning liquid sequentially passes through the L-shaped through hole 101 and the lower gas-liquid channel 305 through the gas inlet 2, enters the carbon deposit storage cavity 303, then enters the filter screen cylinder 5 from the outside of the filter screen cylinder 5, then enters the upper gas-liquid channel 304 and the gas outlet 4, finally, rushes into the automobile combustion chamber, in the process, residual carbon deposit is trapped outside the filter screen cylinder 5, and the carbon deposit is accumulated in the carbon deposit storage cavity 303 due to the inclined downward direction of the carbon deposit storage cavity 303, and when the carbon deposit is required to be cleaned, only the outer plug 6 is required to be disassembled, and the filter screen cylinder 5 is taken out; when the cleaning liquid medicine containing carbon deposit is pumped out from the bottom of the piston of the automobile combustion chamber and passes through the filtering structure of the carbon removing machine of the combustion chamber, the cleaning liquid medicine firstly enters the upper gas-liquid channel 304 through the gas-liquid outlet 4, then enters the filter screen cylinder 5, is filtered by the filter screen cylinder 5, then enters the lower gas-liquid channel 305, and then flows back to the carbon removing machine from the L-shaped through hole 101 and the gas inlet 2, carbon deposit is trapped inside the filter screen cylinder 5 in the process, and when the carbon deposit needs to be cleaned, the outer plug 6 is only required to be detached, and the filter screen cylinder 5 is taken out. The carbon deposit can be subjected to unidirectional and bidirectional filtration, impurities are prevented from going to the combustion chamber, the combustion chamber of the automobile is clean, the valve is also clean, the problem of piston cylinder pulling is effectively solved, the piston ring is not blocked, engine oil is prevented from being burned, the three-way catalyst is effectively prevented from being blocked, and the overhaul engine is effectively prevented.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a combustion chamber decarbonization machine filtration, includes base (1), its characterized in that: two sets of inlet (2) are installed in base (1) left side, two sets of connecting pipes (3) are installed to base (1) upper end, gas-liquid outlet (4) are installed to connecting pipe (3) upper end, be equipped with two sets of L type through-holes (101) with inlet (2) and connecting pipe (3) intercommunication in base (1), connecting pipe (3) include with base (1) perpendicular main pipe (301) and set up in carbon deposition tube (302) of main pipe (301) lateral wall, carbon deposition tube (302) slope downward setting, be equipped with gas-liquid passage in main pipe (301), be equipped with carbon deposition storage chamber (303) in carbon deposition tube (302), gas-liquid passage is separated into gas-liquid passage (304) and lower gas-liquid passage (305) in carbon deposition storage chamber (303), the internal diameter of carbon deposition storage chamber (303) is greater than gas-liquid passage internal diameter, lower gas-liquid passage (305) are equipped with gas-liquid passage, filter screen (303) are connected with the outer end of a thread cap (5), filter screen (303) are installed to the end cap (5).

2. The combustion chamber decarbonizer filter structure of claim 1, wherein: the upper end of the filter screen cylinder (5) is contacted with the upper wall of the carbon deposit storage cavity (303), and the lower end of the filter screen cylinder (5) stretches into the outer wire plug (6) and is contacted with the inner bottom wall of the outer wire plug (6).

3. The combustion chamber decarbonizer filter structure of claim 1, wherein: a gap is formed between the outer side wall of the filter screen cylinder (5) and the side wall of the carbon deposit storage cavity (303).

4. The combustion chamber decarbonizer filter structure of claim 1, wherein: the inner diameter of the upper end of the filter screen cylinder (5) is larger than the inner diameter of the upper gas-liquid channel (304).

5. The combustion chamber decarbonizer filter structure of claim 1, wherein: the upper end of the upper gas-liquid channel (304) is communicated with the gas-liquid outlet (4), and the lower end of the lower gas-liquid channel (305) is communicated with the L-shaped through hole (101).

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