CN113845947B - Fuel oil device for producing enhanced decarbonizing effect - Google Patents

Abstract

The invention provides a fuel oil device for enhancing a carbon removal effect. Including polyetheramines, polyisobutene amines, and mineral spirits; wherein the polyetheramine, the polyisobutene amine and the solvent oil consist of the following weight ratios: 30-40% of polyether amine, 30-40% of polyisobutene amine and 10-20% of solvent oil, wherein the solvent oil comprises the following weight ratios: 37% of the polyetheramine, 40% of the polyisobutene amine and 18% of the solvent oil, comprising a substrate; the invention provides a fuel oil device for enhancing a carbon removal effect, which comprises polyether amine, polyisobutene amine and solvent oil as main components, wherein the main components are polyether amine, polyisobutene amine and solvent oil, so that carbon deposition of a combustion chamber, an air inlet valve and a gasoline nozzle can be forcefully removed, the carbon deposition removal rate can reach 94% once, and further the purposes of saving fuel oil, reducing emission, restoring power and stabilizing idle speed can be achieved.

Description

Fuel oil device for producing enhanced decarbonizing effect

Technical Field

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

Background

Carbon deposition includes two concepts: 1. one concept is carbon deposition of the engine: in the working process of the engine, unsaturated olefin and colloid in the fuel oil generate a burnt substance in a high-temperature state, and 2, the second concept is carbon deposition in electric spark processing, and the carbon deposition is the phenomenon which should be avoided as much as possible in the electric spark processing, and particularly, the precision die processing can be fatal.

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

The existing fuel oil device for producing the fuel oil device has complex stacking assembly structure and high manufacturing cost, and is not beneficial to small enterprises.

Therefore, it is necessary to provide a fuel device for enhancing the carbon removal effect.

Disclosure of Invention

The invention provides a fuel oil device for enhancing a carbon removal effect, which solves the problems that the existing fuel oil device for producing fuel oil devices has complex stacking component structure and high manufacturing cost and is not beneficial to small enterprises.

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

Preferably, it is composed of the following weight ratios: 37% of polyether amine, 40% of polyisobutene amine and 18% of solvent oil.

A fuel oil 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 arranged at one end of the transmission rod, a collecting block is connected to the inside of the guide groove in a sliding mode, and a collecting groove is formed in the 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 guide assembly is fixedly arranged on the conveying assembly and comprises a guide block, a guide groove is formed in the guide block, a connecting rod is fixedly arranged at one end of the guide block, and an anti-overflow plate is fixedly arranged on the connecting rod.

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

Preferably, one ends of the plurality of transmission rods penetrate through the right side of the moving block and extend to the left side of the moving block, and one ends of the plurality of transmission rods extending to the left side of the moving block are connected with each other through a belt.

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

Preferably, 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 triggering block is arc-shaped, and the triggering block is in sliding connection with the sliding hole.

Preferably, the sliding holes are positioned in the material collecting groove, a plurality of sliding holes are arranged in the material collecting groove, the sliding holes correspond to the material collecting grooves one by one, and the trigger block is in sliding connection with the fixed block.

Preferably, 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.

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 tank, a buffer pad is fixedly arranged on the spill-proof plate, and the buffer pad is made of elastic materials.

Compared with the related art, the fuel oil device for enhancing the carbon removal effect has the following beneficial effects:

the invention provides a fuel oil treasured production device for enhancing a decarbonization effect, which is characterized in that a produced fuel oil treasures are conveyed through a conveying component, the fuel oil treasures are conveyed into a diversion trench, so that the fuel oil treasures move towards one end of the diversion trench, then fall into an aggregation trench from one end of the diversion trench, then move towards the other end of the aggregation trench along one end of an inclined aggregation trench, the extrusion force of the fuel oil treasures on a trigger block is increased along with the increase of the quantity of the fuel oil treasures in the aggregation trench, when the quantity of the fuel oil treasures in the aggregation trench reaches the maximum, the fuel oil treasures extrude the trigger block to be contacted with a touch switch, and then the touch switch controls a rotary motor to rotate, so that the rotary motor drives the aggregation block to move, and then the next aggregation trench moves to one end of the diversion block.

Drawings

FIG. 1 is a schematic diagram of a fuel device for enhancing carbon removal according to a preferred embodiment of the present invention;

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

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

Reference numerals in the drawings: 1. the 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, a collecting groove, 3, a control assembly, 31, a fixed 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 guide assembly, 51, a guide block, 52, a guide groove, 53, a connecting rod, 54 and an anti-overflow plate.

Detailed Description

The invention will be further described with reference to the drawings and embodiments.

First embodiment

A fuel warmer for enhancing decarbonizing effect comprising: polyetheramines, polyisobutene amines, and mineral spirits; wherein the polyetheramine, the polyisobutene amine and the solvent oil consist of the following weight ratios: 30-40% of polyether amine, 30-40% of polyisobutene amine and 10-20% of solvent oil.

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

The using method comprises the following steps:

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

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

3. do not add excessively or dilute excessively;

4. the product has the advantages that undissolved large carbon deposit floats in a pipeline in the cleaning process, so that a fault lamp is possibly turned on, and at the moment, 2-3 bottles of the product are continuously added to remove the carbon deposit in the pipeline, so that the fault lamp is eliminated.

Dangerous information: flammable liquids, swallowing or inhalation of the respiratory tract may cause disease; skin irritation may occur; toxic to aquatic organisms and has a long lasting effect.

Preventive measures:

when the cigarette is used, smoking is forbidden, and when the cigarette is filled, the cigarette is not splashed onto eyes, mouth and nose and skin, so that the cigarette is prevented from being released into the environment.

Accident response:

if eating: the hospital/doctor is called immediately, and vomiting is not induced; if touching the skin: flushing with a large amount of water; such as skin irritation: medical/medical visits; such as into the eye: the eyelid is opened and rinsed with a large amount of water for several minutes, such as to still feel irritated, and medical/medical nearby; if a fire occurs: extinguishing fire by using dry powder and a foam device.

And (3) safe storage:

the storage is carried out in a place which is well ventilated and is not easy to be reached by children, and the storage is kept at normal temperature.

And (3) waste treatment:

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

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

Compared with the related art, the fuel oil device for enhancing the carbon removal effect has the following beneficial effects:

the main components of the fuel oil device are polyether amine, polyisobutene amine and solvent oil, so that carbon deposition in a combustion chamber, an air inlet valve and a gasoline nozzle can be removed strongly, the once carbon deposition removal rate can reach 94%, and further the purposes of saving fuel oil, reducing emission, recovering power and stabilizing idle speed can be achieved.

Second embodiment

Referring to fig. 1, fig. 2 and fig. 3, another fuel device for enhancing a carbon removal effect is provided according to a second embodiment of the present application. The second embodiment is merely a preferred manner of the first embodiment, and implementation of the second embodiment does not affect the implementation of the first embodiment alone.

Specifically, the fuel treasure production apparatus for enhancing the carbon removal effect provided in the second embodiment of the present application is different in that the fuel treasure production apparatus for enhancing the carbon removal effect includes a base plate 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 arranged at one end of the transmission rod 23, an aggregate block 25 is connected to the inside of the guide groove 22 in a sliding mode, and an aggregate groove 26 is formed in the aggregate block 25; the control assembly 3 is arranged on the moving block 21, the control assembly 3 comprises a fixed block 31, a mounting groove 32 is formed in the fixed block 31, a touch switch 33 is fixedly arranged in the mounting groove 32, a pushing spring 34 is fixedly arranged in the mounting groove 32, a trigger block 35 is fixedly arranged at one end of the pushing spring 34, and a sliding hole 36 is formed in the moving block 21; a transport assembly 4, the transport assembly 4 being disposed on the substrate 1; the guide assembly 5, guide assembly 5 fixed mounting is in on the conveying assembly 4, guide assembly 5 includes guide block 51, guide groove 52 has been seted up to the inside of guide block 51 to the one end fixed mounting of guide block 51 has connecting rod 53, fixed mounting has spill-proof plate 54 on the connecting rod 53.

When the rotating motor 24 drives the material collecting block 25 to move, the material collecting block 25 can be made to squeeze the trigger block 35, so that the trigger block 35 is no longer positioned in the sliding hole 36, and when the next sliding hole 36 moves to one side of the trigger block 35, the pushing spring 34 pushes the trigger block 35 to enter 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 can control the rotating motor 24 to no longer rotate;

the external power supply supplies power to the rotating motor 24, the touch switch 33 is arranged between the external power supply and the rotating motor 24, when the touch switch 33 contacts with the trigger block 35, the touch switch 33 controls the rotating motor 24 to rotate, and when the touch switch 33 does not contact with the trigger block 35 any more, the touch switch 33 controls the rotating motor 24 to rotate no longer.

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

The inclined guide slot 22 can incline the aggregate block 25, and further can enable the fuel oil slurry entering the interior of the aggregate tank 26 to move towards the lower end.

One ends of the plurality of transmission rods 23 penetrate 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 transmission rods 23 extending to the left side of the moving block 21 are connected to each other by a belt.

The belt may cause all of the transmission rods 23 to rotate synchronously while one of the transmission rods 23 rotates.

The aggregate blocks 25 are located on the transmission rods 23, the aggregate blocks 25 are in contact with the transmission rods 23, a plurality of aggregate grooves 26 are formed in the aggregate blocks 25, and the aggregate grooves 26 are uniformly distributed on the aggregate blocks 25.

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

The arcuate shape of one end of the trigger block 35 may be such that the trigger block 35 is no longer located inside the sliding aperture 36 when the aggregate block 25 is pressed against the trigger block 35.

The sliding holes 36 are located in the collecting tank 26, a plurality of sliding holes 36 are provided, the sliding holes 36 correspond to the collecting tank 26 one by one, and the triggering block 35 is slidably connected with the fixing block 31.

The conveying assembly 4 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.

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

The guide block 51 is obliquely installed at one end of the conveying frame, one end of the guide block 51 is located at one end of the collecting tank 26, and a buffer pad is fixedly installed on the spill-proof plate 54 and made of elastic materials.

The spill plate 54 can avoid the downward inertia of the fuel warmer to be larger, so that the fuel warmer moves out of the upper part of the collecting block 25, and the buffer pad can avoid the fuel warmer from rebounding after colliding with the spill plate 54, so that the fuel warmer cannot fall into the collecting tank 26.

Working principle:

when the produced fuel is required to be stacked, the material collecting block 25 is placed in the guide groove 22, then the produced fuel is conveyed by the conveying component 4, the fuel is conveyed to one end of the conveying frame, then the fuel is enabled to move to the inside of the guide groove 52 through the conveying frame, the lower end of the guide groove 52 slides through the inside of the guide groove 52, then the material collecting block 25 falls to the inside of the material collecting groove 26 through one end of the guide groove 52, then the fuel is enabled to flow to the other end of the material collecting groove 26 through one end of the material collecting groove 26, when the fuel in the material collecting groove 26 is more and more, the extrusion force of the fuel is enabled to be larger and larger to the trigger block 35, when the fuel in the material collecting groove 26 is filled with the fuel, the fuel is enabled to extrude the trigger block 35 to be contacted with the touch switch 33, then the touch switch 33 controls the output end of the rotary motor 24 to rotate, the output end of the rotary motor 24 can drive the transmission rod 23 to rotate, the material collecting block 25 can be driven to move rightwards, the material collecting groove 26 can be driven to move rightwards, and the next material collecting groove 26 can be enabled to move to the material collecting groove 26 to be enabled to be stacked with the fuel in the same amount as the material collecting groove 51, and the fuel can be stacked.

The beneficial effects are that:

the fuel treasured after the production is carried through conveying assembly 4, carry the inside of guiding gutter 52 with the fuel treasured, make the one end of fuel treasured guiding gutter 52 remove, then drop the inside of collecting vat 26 by the one end of guiding gutter 52, then remove to the other end of collecting vat 26 along the one end of slope collecting vat 26, along with the precious quantity increase of the inside fuel of collecting vat 26, can make the extrusion force of fuel treasured to trigger piece 35 increase, when the precious quantity of the inside fuel of collecting vat 26 reaches the biggest, can make the precious extrusion trigger piece 35 contact with touch switch 33, and then by touch switch 33 control rotating machine 24 rotation, make rotating machine 24 drive collecting piece 25 remove, and then make next collecting vat 26 remove the one end of guiding piece 51, the problem that the operation just can accomplish the stacking up of precious fuel was used to the current stacking component structure is complicated, manufacturing cost is big, be unfavorable for small-size enterprise.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present invention.

Claims (5)

1. The fuel oil device for enhancing the 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 arranged at one end of the transmission rod, a collecting block is connected to the inside of the guide groove in a sliding mode, and a collecting groove is formed in the 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 guide assembly is fixedly arranged on the conveying assembly and comprises a guide block, a guide groove is formed in the guide block, a connecting rod is fixedly arranged at one end of the guide block, and an anti-overflow plate is fixedly arranged on the connecting rod; the utility model discloses a touch switch, including the fixed block, the push spring cover is located the piece that gathers materials on the transfer line, gather materials the piece with the transfer line contact, gather materials the groove and be provided with a plurality ofly altogether gather materials the groove evenly distributed gathers materials the piece is last, fixed block fixed mounting is in on the movable block, the push spring cover is established touch switch's surface, trigger piece's one end is the arc, trigger piece with sliding connection of sliding hole, the sliding hole is located gather materials the inside in groove, and the sliding hole is provided with a plurality ofly altogether, a plurality of sliding hole and a plurality of gather materials the groove one-to-one, trigger piece with fixed block sliding connection.

2. The fuel oil device for enhancing a decarbonizing effect according to claim 1, wherein the guide groove is an inclined groove, a plurality of transmission rods are arranged in the guide groove, the transmission rods are uniformly distributed in the moving block, and the transmission rods are located in the guide groove.

3. The device for producing fuel oil with enhanced carbon removal effect according to claim 1, wherein one ends of the plurality of transmission rods penetrate through the right side of the moving block and extend to the left side of the moving block, and one ends of the plurality of transmission rods extending to the left side of the moving block are connected to each other by a belt.

4. The fuel device for enhancing a decarbonizing effect according to claim 1, wherein the conveying assembly comprises a conveying frame, a conveying belt is fixedly arranged on the conveying frame, and a plurality of conveying rollers are rotatably connected to the conveying frame.

5. The fuel oil device for enhancing a decarbonizing effect according to claim 1, wherein 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 tank, a buffer pad is fixedly arranged on the spill-proof plate, and the buffer pad is made of elastic materials.

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