CN113845947A - Fuel oil treasure capable of enhancing carbon removal effect and production device thereof - Google Patents

Abstract

The invention provides a fuel oil treasure capable of enhancing a carbon removal effect and a production device thereof. Comprises polyether amine, polyisobutene amine and solvent oil; wherein the polyether amine, the polyisobutene amine and the solvent oil consist of the following weight ratio: 30-40% of polyether amine, 30-40% of polyisobutylene amine and 10-20% of solvent oil, wherein the polyether amine, the polyisobutylene amine and the solvent oil are prepared from the following components in percentage by weight: the polyether amine comprises 37% of the polyether amine, 40% of the polyisobutene amine and 18% of the solvent oil, and comprises a substrate; the fuel oil treasure capable of enhancing the carbon removal effect and the production device thereof provided by the invention have the advantages that the main components of the fuel oil treasure are polyether amine, polyisobutylene amine and solvent oil, carbon deposition in a combustion chamber, an air inlet valve and a gasoline nozzle can be removed powerfully, the removal rate of the carbon deposition at one time can reach 94%, further fuel oil saving, emission reduction, power recovery and stable idling can be achieved.

Description

Fuel oil treasure capable of enhancing carbon removal effect and production device thereof

Technical Field

The invention relates to the technical field of fuel oil treasures, in particular to a fuel oil treasures capable of enhancing a carbon removal effect and a production device thereof.

Background

Carbon deposition includes two concepts: 1. one concept is carbon deposition of the engine: the second concept is carbon deposition in electric spark machining, which is a fatal influence especially in precision mold machining.

The fuel oil is commonly known as a third-generation gasoline detergent (also called as a gasoline detergent or a fuel oil additive), and aims to solve the problem of carbon deposition of an electronic fuel injection type fuel oil system, quickly recover the optimal working condition of an engine, make up for the defects of certain properties of the gasoline and endow the gasoline with certain new excellent characteristics (such as improvement of atomization, reduction of abrasion, engine protection, emission reduction and the like).

Although the existing fuel oil device can achieve the effect of removing the carbon deposition, the removal rate of the carbon deposition is not high, and further the automobile cannot achieve the best state.

Therefore, it is necessary to provide a fuel oil device for enhancing carbon removal effect and a production device thereof to solve the above technical problems.

Disclosure of Invention

The invention provides a fuel oil treasure capable of enhancing a carbon removal effect and a production device thereof, and solves the problem that the existing fuel oil treasure is low in carbon removal rate.

In order to solve the technical problem, the fuel oil treasure for enhancing the carbon removal effect provided by the invention comprises: polyetheramine, polyisobutylene amine, and mineral spirits; wherein the polyether amine, the polyisobutene amine and the solvent oil consist of the following weight ratio: 30-40% of polyether amine, 30-40% of polyisobutylene amine and 10-20% of solvent oil.

Preferably, the weight ratio of the components is as follows: 37% of the polyether amine, 40% of the polyisobutene amine and 18% of the solvent oil.

A fuel oil treasure production device for enhancing carbon removal effect comprises a substrate; the stepping assembly is arranged on the base plate and comprises a moving block, a guide groove is formed in the moving block, a transmission rod is connected to the moving block in a rotating mode, a rotating motor is fixedly installed at one end of the transmission rod, a material collecting block is connected to the inside of the guide groove in a sliding mode, and a material collecting groove is formed in the material collecting block; the control assembly is arranged on the moving block and comprises a fixed block, an installation groove is formed in the fixed block, a touch switch is fixedly installed in the installation groove, a pushing spring is fixedly installed in the installation groove, a trigger block is fixedly installed at one end of the pushing spring, and a sliding hole is formed in the moving block; the conveying assembly is arranged on the substrate; the flow guide assembly is fixedly mounted on the conveying assembly and comprises a flow guide block, a flow guide groove is formed in the flow guide block, a connecting rod is fixedly mounted at one end of the flow guide block, and an anti-overflow plate is fixedly mounted on the connecting rod.

Preferably, the guide groove is an inclined groove, the number of the transmission rods is multiple, the transmission rods are uniformly distributed in the moving block, and the transmission rods are located in the guide groove.

Preferably, one end of each of the plurality of driving rods penetrates through the right side of the moving block and extends to the left side of the moving block, and one end of each of the plurality of driving rods extending to the left side of the moving block is connected to each other through a belt.

Preferably, the aggregate block is positioned on the transmission rod, the aggregate block is in contact with the transmission rod, the aggregate grooves are arranged in a plurality, and the aggregate grooves are uniformly distributed on the aggregate block.

Preferably, the fixed block is fixedly mounted on the moving block, the pushing spring is sleeved on the surface of the touch switch, one end of the trigger block is arc-shaped, and the trigger block is connected with the sliding hole in a sliding mode.

Preferably, the sliding holes are located inside the material collecting grooves, the sliding holes are arranged in a plurality, the sliding holes correspond to the material collecting grooves one to one, and the trigger block is connected with the fixed block in a sliding mode.

Preferably, the conveying assembly comprises a conveying frame, a conveying belt is fixedly mounted on the conveying frame, and a plurality of conveying rollers are rotatably connected to the conveying frame.

Preferably, the guide block is obliquely arranged at one end of the conveying frame, one end of the guide block is positioned at one end of the collecting groove, a cushion pad is fixedly arranged on the spill-proof plate, and the cushion pad is made of elastic materials.

Compared with the related art, the fuel oil treasure capable of enhancing the carbon removal effect and the production device thereof provided by the invention have the following beneficial effects:

the invention provides a fuel oil treasure for enhancing carbon removal effect and a production device thereof, the main components of the fuel oil treasure are polyetheramine, polyisobutene amine and solvent oil, carbon deposition in a combustion chamber, an air inlet valve and a gasoline nozzle can be removed powerfully, the removal rate of the carbon deposition at one time can reach 94%, and further fuel oil saving, emission reduction, power recovery and stable idling can be achieved.

Drawings

FIG. 1 is a schematic structural view of a fuel oil purifier with enhanced carbon removal effect and a production device thereof according to a preferred embodiment of the present invention;

FIG. 2 is a cross-sectional view of the mounting block shown in FIG. 1;

fig. 3 is a perspective view of the aggregate block shown in fig. 1.

Reference numbers in the figures: 1. the anti-overflow device comprises a base plate, 2, a stepping assembly, 21, a moving block, 22, a guide groove, 23, a transmission rod, 24, a rotating motor, 25, an aggregate block, 26, an aggregate groove, 3, a control assembly, 31, a fixing block, 32, a mounting groove, 33, a touch switch, 34, a pushing spring, 35, a trigger block, 36, a sliding hole, 4, a conveying assembly, 5, a flow guide assembly, 51, a flow guide block, 52, a flow guide groove, 53, a connecting rod, 54 and an anti-overflow plate.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

First embodiment

A fuel oil device for enhancing carbon removal effect comprises: polyetheramine, polyisobutylene amine, and mineral spirits; wherein the polyether amine, the polyisobutene amine and the solvent oil consist of the following weight ratio: 30-40% of polyether amine, 30-40% of polyisobutylene amine and 10-20% of solvent oil.

The fuel oil tank can clean the whole fuel oil system at one time.

The using method comprises the following steps:

1. before refueling, the product is added into a fuel tank of an automobile at one time, and then a proper amount of gasoline is added;

2. the addition amount is as follows: one bottle (150ml) of oil is filled into one tank, and the oil tank is suitable for 40L-60L standard oil tanks;

3. do not add in excess or dilute in excess;

4. if large carbon deposits which are not dissolved float in a pipeline in the cleaning process, the fault lamp possibly turns on, then 2-3 bottles of the product are continuously added to remove the internal carbon deposits, and the fault lamp is eliminated.

Danger information: flammable liquids, swallowed or inhaled into the respiratory tract may be pathogenic; skin irritation may result; toxic to aquatic organisms and has a long lasting effect.

The preventive measures are as follows:

away from heat source/spark/open fire/hot surface, smoking is prohibited during use, and the liquid should be filled without splashing to eyes, mouth, nose and skin, and is prevented from being released into the environment.

And (3) accident response:

if the food is eaten: immediately calling a hospital/doctor without inducing vomiting; if touching the skin: washing with a large amount of water; for example, skin irritation: hospitalizing/attending a doctor; such as into the eye: the eyelid is turned over, and the eyelid is rinsed for a few minutes with a large amount of water, if still feeling stimulation, the doctor/doctor is seen nearby; if a fire breaks out: extinguishing fire by using dry powder and a foam device.

And (4) safe storage:

the product is stored in a place which is well ventilated and is not easy to reach by children, and is kept at normal temperature for storage.

Waste treatment:

after the used packaging bottle is screwed, the bottle cap is put into a harmful garbage classification box.

The weight ratio of the components is as follows: 37% of the polyether amine, 40% of the polyisobutene amine and 18% of the solvent oil.

Compared with the related art, the fuel oil treasure capable of enhancing the carbon removal effect and the production device thereof provided by the invention have the following beneficial effects:

the fuel oil agent mainly comprises polyether amine, polyisobutene amine and solvent oil, can powerfully remove carbon deposition of a combustion chamber, an air inlet valve and a gasoline nozzle, and has a carbon deposition removal rate of 94 percent, so that fuel oil can be saved, emission can be reduced, power can be recovered, and idling can be stabilized.

Second embodiment

Referring to fig. 1, fig. 2 and fig. 3, a second embodiment of the present application provides another fuel oil device for enhancing carbon removal effect and a production device thereof based on a fuel oil device for enhancing carbon removal effect and a production device thereof provided by the first embodiment of the present application. The second embodiment is only the preferred mode of the first embodiment, and the implementation of the second embodiment does not affect the implementation of the first embodiment alone.

Specifically, the difference between the fuel oil treasure capable of enhancing the carbon removal effect and the production device thereof provided by the second embodiment of the application is that the fuel oil treasure capable of enhancing the carbon removal effect comprises a substrate 1; the stepping assembly 2 is arranged on the base plate 1, the stepping assembly 2 comprises a moving block 21, a guide groove 22 is formed in the moving block 21, a transmission rod 23 is connected to the moving block 21 in a rotating mode, a rotating motor 24 is fixedly installed at one end of the transmission rod 23, a material collecting block 25 is connected to the inside of the guide groove 22 in a sliding mode, and a material collecting groove 26 is formed in the material collecting block 25; the control assembly 3 is arranged on the moving block 21, the control assembly 3 comprises a fixed block 31, an installation groove 32 is formed in the fixed block 31, a touch switch 33 is fixedly installed in the installation groove 32, a pushing spring 34 is fixedly installed in the installation groove 32, a trigger block 35 is fixedly installed at one end of the pushing spring 34, and a sliding hole 36 is formed in the moving block 21; the conveying assembly 4 is arranged on the substrate 1; the flow guide assembly 5 is fixedly installed on the conveying assembly 4, the flow guide assembly 5 comprises a flow guide block 51, a flow guide groove 52 is formed in the flow guide block 51, a connecting rod 53 is fixedly installed at one end of the flow guide block 51, and an anti-overflow plate 54 is fixedly installed on the connecting rod 53.

When the rotating motor 24 drives the material collecting block 25 to move, the material collecting block 25 can extrude the trigger block 35, so that the trigger block 35 is no longer located inside the sliding hole 36, and when the next sliding hole 36 moves to one side of the trigger block 35, the push spring 34 pushes the trigger block 35 to enter the inside of the sliding hole 36, so that the trigger block 35 is no longer in contact with the touch switch 33, and the touch switch 33 controls the rotating motor 24 to stop rotating;

provide the power for rotating motor 24 by external power supply, touch switch 33 sets up between external power supply and rotation motor 24, and when touch switch 33 and trigger block 35 contacted, it is rotatory to make touch switch 33 control rotate motor 24, when touch switch 33 and trigger block 35 no longer contacted, it is no longer rotatory to make touch switch 33 control rotate motor 24.

The guide groove 22 is an inclined groove, the plurality of transmission rods 23 are arranged, the plurality of transmission rods 23 are uniformly distributed in the moving block 21, and the transmission rods 23 are located in the guide groove 22.

The inclined guide channel 22 allows the aggregate block 25 to be inclined, which in turn allows the fuel charge entering the interior of the aggregate channel 26 to move towards the lower end.

One ends of the plurality of driving levers 23 penetrate through the right side of the moving block 21 and extend to the left side of the moving block 21, and one ends of the plurality of driving levers 23 extending to the left side of the moving block 21 are connected to each other by a belt.

The belt can cause all the drive links 23 to rotate in synchronism as one drive link 23 rotates.

The collecting block 25 is positioned on the transmission rod 23, the collecting block 25 is in contact with the transmission rod 23, the collecting grooves 26 are arranged in a plurality, and the collecting grooves 26 are uniformly distributed on the collecting block 25.

The fixed block 31 is fixedly mounted on the moving block 21, the push spring 34 is sleeved on the surface of the touch switch 33, one end of the trigger block 35 is arc-shaped, and the trigger block 35 is slidably connected with the sliding hole 36.

The arcuate shape of one end of trigger block 35 may cause the slug 25 to compress trigger block 35 such that trigger block 35 is no longer located within slide opening 36.

The sliding holes 36 are located inside the material collecting grooves 26, a plurality of sliding holes 36 are arranged, the sliding holes 36 correspond to the material collecting grooves 26 one by one, and the trigger block 35 is connected with the fixed block 31 in a sliding mode.

Conveying assembly 4 includes the transfer frame, fixed mounting has the conveyer belt on the transfer frame to it is connected with a plurality of transfer rollers to rotate on the transfer frame.

The conveyer belt adopts prior art for can accomplish fuel is precious carry can, the transfer roller can reduce the fuel precious and the frictional force of conveying frame, makes more laborsaving to the precious transport of fuel.

The guide block 51 is obliquely arranged at one end of the conveying frame, one end of the guide block 51 is positioned at one end of the collecting groove 26, and a buffer cushion is fixedly arranged on the spill-proof plate 54 and is made of elastic material.

The spill plate 54 can avoid the fuel is precious downward inertia great for the fuel is precious to shift out the top of collecting block 25, and the blotter can avoid the fuel to kick-back after colliding with spill plate 54, makes the fuel precious can't fall into the inside of collecting chute 26.

The working principle is as follows:

when the fuel treasure after being produced needs to be stacked, the material collecting block 25 is placed inside the guide groove 22, then the fuel treasure after being produced is conveyed by the conveying assembly 4, so that the fuel treasure is conveyed to one end of the conveying frame, then the fuel treasure is moved to the inside of the guide groove 52 from the conveying frame, then the fuel treasure slides to the lower end of the guide groove 52 from the inside of the guide groove 52, then the fuel treasure drops to the inside of the material collecting groove 26 from one end of the guide groove 52, then the fuel treasure flows to the other end of the material collecting groove 26 from one end of the material collecting groove 26, when the fuel treasures inside the material collecting groove 26 are more and more, the extrusion force of the fuel treasure to the trigger block 35 is larger and larger, when the fuel treasure inside the material collecting groove 26 is full, the fuel treasure extrudes the trigger block 35 to be contacted with the touch switch 33, and then the touch switch 33 controls the output end of the rotating motor 24 to rotate, the output rotation of rotating motor 24 can drive transfer line 23 rotatory, and transfer line 23 rotation can drive the piece 25 that gathers materials and remove rightly, and the piece 25 that gathers materials removes rightly can drive the groove 26 that gathers materials and remove rightly, and then makes next groove 26 that gathers materials remove to the one end of water conservancy diversion piece 51 for can be with precious water conservancy diversion of fuel to the inside of next groove 26 that gathers materials, and the same reason repeats above step, can accomplish the putting things in good order of fuel precious.

Has the advantages that:

the fuel oil treasure after being produced is conveyed through the conveying component 4, the fuel oil treasure is conveyed to the inside of the diversion trench 52, so that the fuel oil treasure moves towards one end of the diversion trench 52, then the fuel oil treasure drops to the inside of the material collecting groove 26 from one end of the diversion trench 52, then the fuel oil treasure moves towards the other end of the material collecting groove 26 along one end of the inclined material collecting groove 26, along with the increase of the number of the fuel oil treasures in the material collecting groove 26, the extrusion force of the fuel oil treasures on the trigger block 35 can be increased, when the number of the fuel oil treasures in the material collecting groove 26 reaches the maximum, the fuel oil treasure extrudes the trigger block 35 to be contacted with the touch switch 33, further the touch switch 33 controls the rotating motor 24 to rotate, so that the rotating motor 24 drives the material collecting block 25 to move, further the next material collecting groove 26 moves to one end of the diversion block 51, the stacking of the fuel oil treasures can be completed by repeating the above operations, and the complex structure of the existing stacking component is avoided, the manufacturing cost is high, and the use of small enterprises is not facilitated.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a fuel is precious that reinforcing decarbonization effect which characterized in that includes:

polyetheramine, polyisobutylene amine, and mineral spirits;

wherein the polyether amine, the polyisobutene amine and the solvent oil consist of the following weight ratio: 30-40% of polyether amine, 30-40% of polyisobutylene amine and 10-20% of solvent oil.

2. The fuel oil device for enhancing the carbon removal effect according to claim 1 is characterized by comprising the following weight ratio: 37% of the polyether amine, 40% of the polyisobutene amine and 18% of the solvent oil.

3. A fuel oil treasure production device for enhancing carbon removal effect is characterized by comprising a substrate;

the stepping assembly is arranged on the base plate and comprises a moving block, a guide groove is formed in the moving block, a transmission rod is connected to the moving block in a rotating mode, a rotating motor is fixedly installed at one end of the transmission rod, a material collecting block is connected to the inside of the guide groove in a sliding mode, and a material collecting groove is formed in the material collecting block;

the control assembly is arranged on the moving block and comprises a fixed block, an installation groove is formed in the fixed block, a touch switch is fixedly installed in the installation groove, a pushing spring is fixedly installed in the installation groove, a trigger block is fixedly installed at one end of the pushing spring, and a sliding hole is formed in the moving block;

the conveying assembly is arranged on the substrate;

the flow guide assembly is fixedly mounted on the conveying assembly and comprises a flow guide block, a flow guide groove is formed in the flow guide block, a connecting rod is fixedly mounted at one end of the flow guide block, and an anti-overflow plate is fixedly mounted on the connecting rod.

4. The device for producing fuel oil wastes with the enhanced decarbonization effect as claimed in claim 3, wherein the guide groove is an inclined groove, a plurality of driving rods are arranged, the plurality of driving rods are uniformly distributed inside the moving block, and the driving rods are located inside the guide groove.

5. The device for producing fuel oil wastes with enhanced decarbonization effect according to claim 3, wherein one end of the plurality of the transmission rods penetrates the right side of the moving block and extends to the left side of the moving block, and one ends of the plurality of the transmission rods extending to the left side of the moving block are connected to each other by a belt.

6. The device for producing fuel oil pal enhancing the carbon removal effect as claimed in claim 3, wherein said collecting block is located on said driving rod and is in contact with said driving rod, said collecting groove is provided in plurality in number, and a plurality of said collecting grooves are uniformly distributed on said collecting block.

7. The device for producing a fuel oil treasure capable of enhancing a carbon removal effect as claimed in claim 3, wherein the fixed block is fixedly installed on the moving block, the pushing spring is sleeved on the surface of the touch switch, one end of the trigger block is arc-shaped, and the trigger block is slidably connected with the sliding hole.

8. The device for producing the fuel oil treasure capable of enhancing the carbon removal effect as claimed in claim 3, wherein the sliding holes are located inside the material collecting grooves, the sliding holes are provided in a plurality, the sliding holes correspond to the material collecting grooves in a one-to-one mode, and the trigger block is connected with the fixing block in a sliding mode.

9. The device for producing the fuel oil treasure capable of enhancing the carbon removal effect as claimed in claim 3, wherein the conveying assembly comprises a conveying frame, a conveying belt is fixedly installed on the conveying frame, and a plurality of conveying rollers are rotatably connected to the conveying frame.

10. The device for producing a fuel oil treasure capable of enhancing carbon removal effect as claimed in claim 3, wherein the diversion block is installed at one end of the conveying frame in an inclined manner, one end of the diversion block is located at one end of the material collecting groove, a cushion pad is fixedly installed on the spill plate, and the cushion pad is made of elastic material.

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