KR102638437B1 - Exhaust gas reduction band and its manufacturing method - Google Patents

Abstract

The present invention relates to an exhaust gas reduction band including a far-infrared radiation material, which includes a far-infrared radiation composition and polyvinyl chloride (PVC), and emits far-infrared rays to differentiate the size of oxygen in the air introduced from the outside through an air inlet into a small size, thereby increasing the concentration of oxygen. Accordingly, the exhaust gas reduction band according to the present invention is suitable to be applied to an internal combustion engine vehicle using energy generated by burning a mixture of fuel and air. The far-infrared ray emitting composition included in the exhaust gas reduction band emits far-infrared rays to differentiate the size of oxygen in the air sucked from the outside through the air inlet into small values, thereby increasing the concentration of oxygen. As the small-sized oxygen explodes, the noise of the engine decreases, while the number of explodes increases as much as the increased concentration of oxygen, so that the output of the engine can be improved.

Description

Exhaust gas reduction band and its manufacturing method {EXHAUST GAS REDUCTION BAND AND ITS MANUFACTURING METHOD}

The present invention relates to an exhaust gas reduction band. More specifically, it relates to an exhaust gas reduction band containing far-infrared radiation materials.

An internal combustion engine is an engine that obtains power by mixing fuel and air and burning it inside the engine, and the heat energy generated acts on a piston or turbine. A representative internal combustion engine is an automobile engine, and most automobile engines use gasoline or diesel. Fuel is being used. As such, the fuel in automobile engines is a mixture of various types of hydrocarbons, and it is impossible to completely combust the mixture of fuel and air with current technology. As a result, carbon monoxide (CO), nitrogen oxides (NOx), and sulfur dioxide are contained in the exhaust gas. It contains harmful components such as (SO2) and is discharged into the atmosphere, becoming the main cause of environmental pollution.

Therefore, as a way to reduce the exhaust gas generated when fuel is burned, technologies related to exhaust gas reduction devices such as Patent Document 1 (No. 10-2002-0029056) and Patent Document 2 (No. 10-2004-0068792), etc. This is being developed.

Patent Document 1 (Korean Patent Publication No. 10-2002-0029056) relates to a fuel saver that is coupled to the fuel supply section of a vehicle. Fuel is clustered through the magnetic force of a permanent magnet provided inside to increase reactivity with oxygen. It's about savings.

However, it is a structure in which permanent magnet pieces are inserted and arranged in a row inside a hollow tube body at odds with each other. Due to this structure, there is a problem in that the passage speed of fuel is slowed and the flow of fuel is not smooth. In addition, the surface of the permanent magnet pieces is continuously exposed to fuel, causing oxidation and corrosion, or the space between the permanent magnet pieces can cause the research magnet pieces to be separated from their original positions, and the research magnet pieces can be moved out of their original positions due to repeated micro-vibrations during vehicle operation. There is a problem that durability is reduced, such as the pieces being damaged and the magnetic force being reduced.

Meanwhile, Patent Document 2 (Korean Patent Publication No. 10-2004-0068792) relates to a diesel engine exhaust reduction device, in which an electric heater provided in front of a ceramic filter removes exhaust gas collected in the filter by periodically burning it. It is about a smoke reduction device.

However, overheating of the electric heater may cause a thermal load on the filter, causing damage to the filter. In order to raise the temperature to the regeneration temperature of the exhaust fumes, a battery with a large capacity is needed to supply sufficient power. Additional costs may apply for installation and management.

Patent Document 1: Republic of Korea Patent Publication No. 10-2002-0029056 (Publication Date: 2002.04.17) Patent Document 2: Republic of Korea Patent Publication No. 10-2004-0068792 (Publication Date: 2004.08.02)

The technical object of the present invention is to provide an exhaust gas reduction band that reduces exhaust gas emitted from an object.

Another technical problem of the present invention is to reduce the time required to install and manage separate devices to reduce exhaust gases.

Another technical problem of the present invention is to reduce costs incurred in the process of installing a separate device to reduce exhaust gas.

In order to solve the above problem, the present invention includes a far-infrared ray-emitting composition that emits far-infrared rays and polyvinyl chloride (PVC), and is provided in the form of a detachable band to reduce the concentration of oxygen in the air flowing into the attached object. Provides an exhaust gas reduction band that reduces exhaust gas emitted by raising the device.

Additionally, the far-infrared radiation composition and polyvinyl chloride (PVC) may be mixed in a weight ratio of 10:90 to 20:80.

Additionally, the far-infrared ray-emitting composition may be a mixed composition composed of germanium, charcoal powder, elvanite, sulfur, and bentonite.

Additionally, the mixed composition may have a weight ratio of 26 to 30 parts germanium, 12 to 16 parts charcoal powder, 26 to 30 parts elvan, 1 to 5 parts sulfur, and 25 to 29 parts by weight of bentonite.

Additionally, the far-infrared ray-emitting composition may be a mixture of germanium, charcoal powder, elvanite, sulfur, and bentonite in a weight ratio of 28:14:28:3:27.

In addition, mixing germanium, charcoal powder, elvanite, sulfur and bentonite in a predetermined weight ratio, storing the mixture in a constant temperature room, preparing the far-infrared ray-emitting composition by preparing the mixture in a pellet state, and adding the far-infrared ray-emitting composition A method for manufacturing an exhaust gas reduction band is provided, including mixing polyvinyl chloride (PVC) at a predetermined weight ratio and injecting the mixture into a band shape through a mold.

Additionally, the sizes of germanium, charcoal powder, elvanite, sulfur, and bentonite may each be at least 200 mesh or more.

In addition, in the step of mixing germanium, charcoal powder, elvanite, sulfur, and bentonite in a predetermined weight ratio, 26 to 30 parts by weight of germanium, 12 to 16 charcoal powder, 26 to 30 elvanite, 1 to 5 sulfur, and 25 to 29 parts by weight of bentonite It can be mixed in ratio.

Additionally, the mixture can be stored in a constant temperature room at 15 degrees Celsius for 30 days.

Additionally, the far-infrared ray emitting composition and polyvinyl chloride (PVC) may be mixed in a weight ratio of 10:90 to 20:80.

In addition, it is provided in the intake pipe or air filter of an internal combustion engine vehicle and can reduce the exhaust gas emitted by dividing the size of oxygen in the air flowing in from the outside into small pieces and increasing the combustion rate by increasing the concentration of oxygen in the air.

In addition, when provided in an electric vehicle, battery usage time can be extended by lowering the temperature during battery operation of the electric vehicle.

In addition, it is provided in the boiler and can reduce exhaust gases emitted by increasing the combustion rate by increasing the concentration of oxygen in the air flowing in from the outside.

In addition, it is provided in an air conditioner and can reduce exhaust gases emitted by increasing the combustion rate by increasing the concentration of oxygen in the air flowing in from the outside.

In addition, it is provided in the internal combustion engine of a ship and can reduce exhaust gases emitted by increasing the combustion rate by increasing the concentration of oxygen in the air flowing in from the outside.

According to the present invention, exhaust gas emitted from an object can be reduced by increasing the combustion rate by increasing the concentration of oxygen in the air sucked in from the outside.

According to the present invention, the purpose is to reduce time and cost losses incurred in installing and managing a separate device to reduce exhaust gas.

Figure 1 is a diagram briefly showing how air is sucked in from the outside through an intake pipe of an internal combustion engine vehicle.
Figure 2 is a diagram showing a process in which an internal combustion engine vehicle equipped with an exhaust gas reduction band combusts intake air and fuel according to an embodiment of the present invention.
Figure 3 is a flow chart schematically showing the steps of manufacturing an exhaust gas reduction band according to an embodiment of the present invention.
Figure 4 is a perspective view of an exhaust gas reduction band according to an embodiment of the present invention.
Figure 5 is a perspective view showing an exhaust gas reduction band according to an embodiment of the present invention provided on an intake pipe or air filter of an internal combustion engine vehicle.

The terms used in the specification of the present invention are only used to describe exemplary embodiments and are not intended to limit the invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, terms such as "include," "provide," or "have" are intended to designate the presence of implemented features, steps, components, or a combination thereof, but are intended to indicate the presence of one or more other features, steps, or components. It should be understood that the existence or addition possibility of elements or combinations thereof is not excluded in advance.

Meanwhile, since the invention can be subject to various changes and can have various forms, specific embodiments will be exemplified and described in detail below. However, this is not intended to limit the invention to a specific disclosed form, and should be understood to include all changes, equivalents, and substitutes included in the spirit and technical scope of the invention.

An internal combustion engine is an engine that obtains energy by burning fuel inside a cylinder or combustion chamber. It burns a mixture of fuels such as gasoline, diesel, LPG (Liquefied Petroleum Gas), natural gas, hydrogen, and solid fuel and oxidizing agents such as air. Power is obtained by using the heat energy generated. These internal combustion engines generally have an intake stroke in which fuel and oxidizer are sucked into the cylinder, a compression stroke in which the mixture of fuel and oxidizer in the cylinder is compressed into a piston, an explosion stroke in which the piston is pushed down by the explosive force of the mixture, and an exhaust that expels exhaust gas to the outside. A four-stroke engine including a process is used, and air sucked in from the outside is used as an oxidizing agent. Such internal combustion engines are used not only in various agricultural machines and industrial equipment, but also in automobiles, ships, air conditioners, and boilers. Meanwhile, combustion in conditions where the supply of oxygen is insufficient, fuel is excessive, or fuel is insufficient is called incomplete combustion, and incomplete combustion causes soot, carbon monoxide, and hydrocarbon emissions.

The present invention is intended to improve the combustion rate by being provided in internal combustion engines such as various agricultural machinery and industrial equipment, automobiles, ships, air conditioners, and boilers that obtain power by burning a mixture of fuel and oxidizer as described above, and is intended to improve the combustion rate caused by incomplete combustion. In order to improve possible shortcomings, an exhaust gas reduction band for improving combustion rate and a manufacturing method thereof are disclosed.

Hereinafter, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in various different forms and is not limited to the embodiments disclosed below. In addition, in order to clearly disclose the present invention in the drawings, parts not related to the present invention are omitted, and identical or similar symbols in the drawings indicate identical or similar components.

Figure 1 is a diagram briefly showing air being sucked in from the outside through an intake pipe of an internal combustion engine vehicle. Referring to Figure 1, outside air is drawn into the inside of the internal combustion engine through an air intake port including an intake pipe and an air filter. It is sucked in, mixed with fuel in the cylinder, burned, and then discharged to the outside again. At this time, when the mixture of air and fuel is incompletely combusted, various harmful components are included in the exhaust gas and are discharged, and such exhaust gas becomes a serious cause of various environmental pollution.

Meanwhile, the exhaust gas reduction band that emits far-infrared rays according to an embodiment of the present invention can reduce harmful components contained in exhaust gas by improving the combustion rate of the mixture of fuel and air. Hereinafter, an exhaust gas reduction band and a manufacturing method thereof according to a specific embodiment of the present invention will be described with reference to FIGS. 2 to 5.

Exhaust gas reduction band

The exhaust gas reduction band according to an embodiment of the present invention is intended to reduce exhaust gas discharged, and may be provided to include a far-infrared ray-emitting composition that emits far-infrared rays and polyvinyl chloride (PVC). In detail, the exhaust gas reduction band can be installed on an object such as an internal combustion engine vehicle to improve the combustion rate of fuel by emitting far-infrared rays.

Figure 2 is a diagram showing a process in which an internal combustion engine vehicle equipped with an exhaust gas reduction band combusts intake air and fuel according to an embodiment of the present invention.

Referring to Figure 2, the exhaust gas reduction band is provided at the air intake port such as the intake pipe and air filter through which air sucked in from the outside flows, activating the air by emitting far-infrared rays, and dividing oxygen into small sizes to increase the oxygen concentration. , the output of the engine is improved by increasing the number of explosions corresponding to the increased oxygen concentration. In addition, because a small amount of oxygen explodes, the noise generated during the explosion is reduced. In detail, the exhaust gas reduction band is provided on at least one of the intake pipe or the air filter to radiate electromagnetic waves, and refines the air in the intake port through the interaction between the wave energy of the electromagnetic waves and the air, thereby reducing the concentration of oxygen sucked into the engine. By increasing the complete combustion rate, the exhaust gas emitted can be reduced. At this time, electromagnetic waves are waves that travel in a direction perpendicular to both the electric and magnetic fields that vibrate in directions perpendicular to each other, and may include visible light, radio waves, microwaves, infrared waves, ultraviolet rays, X-rays, gamma rays, etc. .

Far infrared rays are infrared rays with a wavelength of 25 ㎛ or more, and they activate the interactions between molecules of the irradiated material and the natural vibrations of the molecules. In other words, far-infrared rays amplify and activate the vibrations of molecules in the air, and at the same time ionize fuel molecules and change the angle of molecular bonding, making it easier to combine with oxygen. Accordingly, the combustion rate is improved, and harmful components such as carbon monoxide (CO), nitrogen oxides (NOx), and sulfur dioxide (SO2), which are contained in exhaust gas and discharged due to incomplete combustion of the fuel and air mixture, can be reduced.

Meanwhile, in the exhaust gas reduction band according to an embodiment of the present invention, the far-infrared ray emitting composition and polyvinyl chloride (PVC) may be mixed in a weight ratio of 10:90 to 20:80. Preferably, the far-infrared ray emitting composition and polyvinyl chloride (PVC) may be mixed at a weight ratio of 15:85. More preferably, the far-infrared radiation composition and polyvinyl chloride (PVC) may be mixed in a weight ratio of 15.4:84.6.

The far-infrared radiation composition may be a mixed composition consisting of germanium, charcoal powder, elvanite, sulfur, and bentonite, and the mixed composition includes 26 to 30 germanium, 12 to 16 charcoal powder, 26 to 30 elvanite, 1 to 5 sulfur, and 25 bentonite. It may have a weight ratio of from 29 to 29 parts by weight. Preferably, the far-infrared ray-emitting composition may be a mixed composition in which germanium, charcoal powder, elvanite, sulfur, and bentonite are mixed in a weight ratio of 28:14:28:3:27.

Germanium is a metalloid element with properties intermediate between metals and non-metals and has similar chemical properties to silicon and tin. It is a commercially available element and is used in various industrial fields such as the electronics industry, optical industry, alloy industry, and glass industry. It is a mineral with high far-infrared emissivity at room temperature.

Charcoal is made by carbonizing wood by heating it in an oxygen-free environment. Most of its components are carbon, which is used as fuel. It is also used as a filter material for deodorization, dehumidification, humidification, and water purification due to its numerous micropores. , emits a large amount of negative ions and far-infrared rays.

Elvan is a rock belonging to porphyry. Its main components are anhydrous silicic acid (SiO) and aluminum oxide (AlO), and contain a small amount of ferric oxide (Fe0). Elvan stone is a porous rock that absorbs and purifies heavy metals and foreign substances contained in the air or water even in its natural state, and has the characteristic of emitting far-infrared rays.

Sulfur is a non-metallic element that exists in nature in the form of pure sulfur, sulfide, or sulfate. It emits far-infrared rays and is mainly used as a raw material for fertilizers, gunpowder, pesticides, and disinfectants.

Bentonite is a clay whose main component is montmorillonite, a monoclinic mineral with a mica-like crystal structure, and also contains quartz, feldspar, and zeolite that emit far-infrared rays.

Exhaust gas reduction band manufacturing method

A method of manufacturing an exhaust gas reduction band using the far-infrared ray emitting composition described above will be described below.

Figure 3 is a flow chart schematically showing the steps of manufacturing an exhaust gas reduction band according to an embodiment of the present invention.

Referring to Figure 3, the method for manufacturing an exhaust gas reduction band according to an embodiment of the present invention includes a component mixing step (S100); Constant temperature room storage step (S200); Far-infrared ray-emitting composition manufacturing step (S300); A far-infrared ray-emitting composition and polyvinyl chloride (PVC) mixing step (S400); and an exhaust gas reduction band injection step (S500).

First, germanium, charcoal powder, elvanite, sulfur, and bentonite are each mixed in a predetermined weight ratio (S100).

According to one embodiment of the present invention, the plurality of ingredients mixed in the above step have far-infrared radioactivity and may include germanium, charcoal powder, elvanite, sulfur, and bentonite. The size of each component may be at least 200 mesh, and may be mixed in a ratio of 26 to 30 germanium, 12 to 16 charcoal powder, 26 to 30 elvan, 1 to 5 sulfur, and 25 to 29 parts by weight of bentonite.

Next, the mixture is stored in a constant temperature room (S200).

According to one embodiment of the present invention, in the above step, the mixture mixed in the ingredient mixing step (S100) is stored in a constant temperature room at 14 ° C. for 30 days.

Next, a far-infrared ray-emitting composition is prepared by manufacturing the ingredients stored in a constant temperature room in a pellet form (S300).

According to one embodiment of the present invention, in the above step, a far-infrared ray-emitting composition that emits far-infrared rays is manufactured by extruding the ingredients stored for 30 days in a constant temperature room at 14 ° C. and forming them into pellets.

Next, the far-infrared radiation composition and polyvinyl chloride (PVC) are mixed at a predetermined weight ratio (S400).

According to one embodiment of the present invention, in the above step, the far-infrared ray-emitting composition in the pellet state and polyvinyl chloride (PVC) are mixed in a ratio of 10:90 to 20:80 parts by weight, preferably the far-infrared ray-emitting composition and polyvinyl chloride (PVC) PVC) can be mixed at a ratio of 15:85 parts by weight.

Next, the exhaust gas reduction band is injected (S500).

According to one embodiment of the present invention, in the above step, a strip-shaped exhaust gas reduction band is produced through an injection process of a mixture of a far-infrared ray-emitting composition and polyvinyl chloride (PVC). Meanwhile, there are no restrictions on the shape of the exhaust gas reduction band, but it is preferable to have a shape that is easy to install and manage, reducing time and cost, and is provided in a detachable form that does not require a separate installation or removal process. It would be more desirable to be provided with.

Figure 4 is a perspective view of an exhaust gas reduction band according to an embodiment of the present invention, and Figure 5 shows an exhaust gas reduction band according to an embodiment of the present invention provided on the intake pipe or air filter of an internal combustion engine vehicle. It is a perspective view.

Referring to Figures 4 and 5, the exhaust gas reduction band according to an embodiment of the present invention is formed in the form of a band, and is used in various agricultural machinery and industrial equipment, internal combustion engine vehicles, ships, air conditioners and boilers, etc. It can be formed to be attached to an internal combustion engine. Specifically, the exhaust gas reduction band is attached to the surface of the intake pipe or air filter of an internal combustion engine vehicle, and radiates far-infrared rays to the air sucked in from the outside through the air intake port to improve the combustion rate by differentiating the size of oxygen in the air into smaller sizes. Exhaust gas can be reduced. Alternatively, the exhaust gas reduction band can be attached to an electric vehicle to extend battery use time by lowering the temperature when the electric vehicle's battery is operating. Alternatively, the exhaust gas reduction band can be attached to the air intake port of the boiler to reduce the exhaust gas discharged by increasing the concentration of oxygen in the air flowing in from the outside. Alternatively, it can be attached to the intake port provided in the internal combustion engine of a ship and reduce the exhaust gas discharged by increasing the concentration of oxygen in the air flowing in from the outside.

Experiment: Noise Measurement

The exhaust gas reduction band manufactured according to the above-described manufacturing method was attached to the vehicle, and the noise level of the vehicle was measured. The vehicle model is XM3 and uses a gasoline engine, the vehicle model year is 2022, and the mileage is approximately 33,000 km. Referring to the results in Table 1 below, in the case of one embodiment according to the present invention, it was confirmed that noise was reduced by 21% after attaching the exhaust gas reduction band compared to before attaching the exhaust gas reduction band.

Experiment: Output Measurements

The exhaust gas reduction band manufactured according to the above-described manufacturing method was attached to the vehicle, and the vehicle's power output was measured. The vehicle model is XM3 and uses a gasoline engine, the vehicle model year is 2022, and the mileage is approximately 33,000 km. Referring to the results in Table 2 below, in the case of one embodiment according to the present invention, it was confirmed that the maximum output increased by 17% after attaching the exhaust gas reduction band compared to before attaching the exhaust gas reduction band.

Experiment: Exhaust gas measurement

The exhaust gas reduction band manufactured according to the above-described manufacturing method was attached to the vehicle, and the level of exhaust gas emissions from the vehicle was measured. The vehicle models were Santa Fe, Porter, and Carnival, and the vehicle model years were 2003, 2005, and 2010, respectively, and each was measured twice. Referring to the results in Table 3 below, in the case of one embodiment according to the present invention, the exhaust gas emission concentration was reduced by 88 to 92% after attaching the exhaust gas reduction band compared to before attaching the exhaust gas reduction band, and the exhaust gas emission concentration was reduced by 88 to 92%. It was confirmed that the concentration was significantly reduced.

Experiment: Measurement of fuel efficiency

The exhaust gas reduction band manufactured according to the above-described manufacturing method was attached to the vehicle, and the fuel efficiency of the vehicle was measured. The models of the vehicles were Santa Fe, Porter, and Carnival, the model years of the vehicles were 2003, 2005, and 2010, respectively, and the mileage was 55km, 50km, and 53km, respectively, and each was measured twice. Referring to the results in Table 4 below, in the case of one embodiment according to the present invention, fuel efficiency increases by 30 to 34% after attaching the exhaust gas reduction band compared to before attaching the exhaust gas reduction band, showing a significant increase in fuel efficiency. I was able to confirm.

Although specific embodiments of the present invention have been described and shown above, it is known in the art that the present invention is not limited to the described embodiments, and that various modifications and changes can be made without departing from the spirit and scope of the present invention. This is self-evident to those who have it. Accordingly, such modifications or variations should not be understood individually from the technical idea or viewpoint of the present invention, and the modified embodiments should be considered to fall within the scope of the claims of the present invention.

S100: Ingredient mixing step S200: Constant temperature room storage step
S300: Far-infrared ray-emitting composition manufacturing step
S400: Far-infrared radiation composition and polyvinyl chloride (PVC) mixing step
S500: Exhaust gas reduction band injection stage

Claims (15)

Contains a far-infrared ray-emitting composition that emits far-infrared rays and polyvinyl chloride (PVC),
The far-infrared ray-emitting composition and polyvinyl chloride (PVC) have a mixed composition of 10:90 to 20:80 parts by weight,
The far-infrared ray-emitting composition is a mixed composition consisting of germanium, charcoal powder, elvanite, sulfur, and bentonite,
The mixed composition is an exhaust gas reduction band characterized in that it has a weight ratio of 26 to 30 germanium, 12 to 16 charcoal powder, 26 to 30 elvan, 1 to 5 sulfur, and 25 to 29 bentonite. delete delete delete According to clause 1,
The far-infrared ray-emitting composition,
An exhaust gas reduction band characterized in that germanium, charcoal powder, elvanite, sulfur and bentonite are mixed in a weight ratio of 28:14:28:3:27. Germanium, charcoal powder, elvanite, sulfur, and bentonite, each of at least 200 mesh, are mixed in a ratio of 26 to 30 germanium, 12 to 16 charcoal powder, 26 to 30 elvanite, 1 to 5 sulfur, and 25 to 29 parts by weight of bentonite. step;
storing the blend in a constant temperature room under conditions of 15° C. for 30 days;
Preparing a far-infrared ray-emitting composition by preparing the mixture in a pellet state;
Mixing the far-infrared ray-emitting composition and polyvinyl chloride (PVC) at a weight ratio of 10:90 to 20:80;
A method of manufacturing an exhaust gas reduction band comprising the step of injecting the mixture into a band shape through a mold. delete delete delete delete According to clause 1,
An exhaust system provided in the intake pipe or air filter of an internal combustion engine vehicle to reduce the exhaust gas emitted by dividing the size of oxygen in the air flowing in from the outside into smaller sizes and increasing the combustion rate by increasing the concentration of oxygen in the air. Gas reduction band.
According to clause 1,
An exhaust gas reduction band provided in an electric vehicle and extending battery use time by lowering the temperature when the battery of the electric vehicle is operating.
According to clause 1,
An exhaust gas reduction band provided in a boiler to reduce exhaust gas emitted by increasing the combustion rate by increasing the concentration of oxygen in the air flowing in from the outside.
According to clause 1,
An exhaust gas reduction band provided in an air conditioner to reduce exhaust gas emitted by increasing the combustion rate by increasing the concentration of oxygen in the air flowing in from the outside.
According to clause 1,
An exhaust gas reduction band provided in a ship's internal combustion engine to reduce exhaust gas emitted by increasing the combustion rate by increasing the concentration of oxygen in the air flowing in from the outside.

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