KR20030077120A - anion air cleaner use in titanium collector-plate - Google Patents

Abstract

The present invention relates to an anion-generating air purifier having a dust collecting plate, wherein the dust collecting plate and the negative electrode plate of the air purifier are formed of titanium, and ceramic, activated carbon, and conductive graphite layers are formed on the surface thereof to extend the life thereof, and at the same time, ozone (O_3). The present invention relates to an air purifier that can be used as a wall-hung type by suppressing the generation of the air) and changing the position of the air inlet.

The present invention for this purpose, the negative electrode and the negative electrode plate is provided on the main body consisting of the front case and the rear case, the electronic circuit unit for controlling the power supplied to the inside of the main body, the output side of the electronic circuit unit and generates a negative voltage In the air cleaner comprising a dust collecting plate for generating a dust, the dust collecting plate and the negative electrode plate is formed of a titanium material, and the ceramic coating layer that emits far infrared rays on the surface of the dust collecting plate, the activated carbon coating layer and the dust collecting plate and the negative plate to collect odor molecules contained in the air It is characterized in that the conductive graphite layer is formed to reduce the generation density of ozone to be generated, and to increase the generation density of pure ions.

Accordingly, the anion generating air purifier using the titanium dust collecting plate according to the present invention forms the dust collecting plate and the negative electrode plate used in the air cleaner as a titanium material to suppress the generation of ozone as much as possible, and the ceramic, activated carbon and conductive graphite on the outer surface of the dust collecting plate and the negative electrode plate. Forming a layer has the effect of preventing the oxidation of the dust collecting plate and the negative electrode plate, and can also be used as a wall-mounted type by changing the position of the suction port where the contaminated air is sucked in, thereby creating various interior effects. have.

Description

Anion air cleaner use in titanium collector-plate}

The present invention relates to an anion-generating air purifier equipped with a dust collecting plate, and more particularly, to form a dust collecting plate and a negative electrode plate of an air purifier with titanium, and to form a ceramic, activated carbon and a conductive graphite layer on the surface thereof to extend its lifespan. At the same time, the present invention relates to an air purifier that can be used as a wall-hung type by suppressing the generation of ozone O_3 and changing the position of the air intake port.

In general, the negative ion generating air purifier generates negative ions and purifies the air. The negative ion generating air cleaner is configured to generate negative ions at the output side of the electronic circuit unit configured to output low voltage at high voltage, thereby generating indoor air by the negative ions generated. It is to be clean, and to use the activity, resistance, increase, autonomic nervous system regulation, blood purification action of the cells possessed by the anion.

Accordingly, it will be described with reference to the accompanying drawings an air purifier according to the prior art.

1 is a perspective view showing the appearance of an air cleaner according to the prior art, Figure 2 is a cross-sectional view showing the internal structure of the air cleaner according to the prior art.

As shown, the main body 1 is formed of a rear case 10 having an air inlet 12 through which air is introduced, and a front case 20 having a discharge hole 22 through which clean air and negative ions are discharged. An electronic circuit unit (not shown) configured to output a low voltage supplied at a high voltage is provided in the body 1, and a bracket installed inside the rear case 10 has a negative high voltage as a boosted output. As a high voltage generating point to generate a multi-stage negative electrode plate 40 is installed.

In addition, a plurality of negative electrode pins 41 are formed in all directions of the negative electrode plate 40, and a dust collecting plate 50 having a plurality of through holes 51 is provided in the front direction of the negative electrode pins 41. The pointed end of the pin 41 and the through hole 51 of the dust collecting plate 50 and the discharge hole 22 of the front case 20 are installed at the same position.

The negative ion generating air cleaner configured as described above is subjected to a negative voltage on the negative electrode plate 40 when a predetermined power is applied, and the negative electrode is discharged from the sharp end of the negative electrode pin 41 by a high energy process. Electrons are emitted at high speed with energy enough to cause ionization, and collide with molecules in the air to form anions, and are discharged through the exhaust holes 22 of the front case 20. .

In this process, the fine dust introduced with the air through the air inlet 12 becomes a negative electrode and is attached to the positive dust collecting plate 50, around the plurality of through holes 51 formed in the dust collecting plate 50 By attaching, it will have a dust collection effect of removing fine dust in the air.

However, the air purifier according to the related art as described above is attached to the dust collecting plate 50 while performing the air cleaning operation, and the dust collecting plate 50 and the negative electrode pin 51 are attached to the dust collecting plate 50 as they are used for a long time. ) Is oxidized to shorten its lifespan, and also a large amount of ozone (O_3) is generated along with the ionization of electrons in the dust collecting plate 50 and the negative electrode plate 40 according to the prior art. .

The present invention has been made to solve the above problems, by forming a dust collector plate and a negative electrode plate used in an air cleaner made of titanium material to suppress the generation of ozone (O_3) to the maximum, and the ceramic, activated carbon and The purpose of the present invention is to provide an anion-generating air cleaner using a titanium dust collecting plate which can be used as a wall-hung type by forming a conductive graphite layer to prevent oxidation of the dust collecting plate and the negative electrode plate and changing the position of the suction port where the polluted air is sucked.

1 is a perspective view showing the appearance of an air purifier according to the prior art.

Figure 2 is a cross-sectional view showing the internal structure of the air purifier according to the prior art.

Figure 3 is a perspective view showing an anion generating air cleaner using a titanium dust collecting plate according to the present invention.

Figure 4 is an exemplary view showing a dust collecting plate withdrawal state of the negative ion generating air purifier using a titanium dust collecting plate according to the present invention.

Figure 5 is a cross-sectional view showing a dust collecting plate of the negative ion generating air cleaner using a titanium dust collecting plate according to the present invention.

Figure 6 is a cross-sectional view showing an air flow state of the negative ion generating air cleaner using a titanium dust collecting plate according to the present invention.

<Explanation of symbols for the main parts of the drawings>

100: air purifier 110: front case

112: discharge hole 114: suction hole

120: rear case 124: inflow path

130: dust collector 132: titanium

134: ceramic coating layer 136: activated carbon coating layer

138: conductive graphite layer 140: negative electrode plate

142: cathode pin

Anion generating air purifier using a titanium dust collecting plate according to the present invention for achieving the above object, the main body consisting of a front case and a rear case, an electronic circuit unit for controlling the power supplied to the inside of the main body, and the electronic circuit unit In the air cleaner comprising a negative electrode plate provided on the output side to generate a negative voltage and a dust collecting plate corresponding to the negative electrode plate to generate negative ions, the dust collecting plate and the negative electrode plate is formed of a titanium material, and emits far infrared rays to the surface of the dust collecting plate A ceramic coating layer, an activated carbon coating layer for collecting malodorous molecules contained in the air, and a conductive graphite layer for reducing the generation density of ozone generated in the dust collecting plate and the negative electrode plate and increasing the generation density of pure ions are formed.

In addition, the suction surface is provided with a discharge surface is formed a plurality of air outlets of the front case, the suction surface is bent in a predetermined angle in the opposite direction of the discharge direction of the discharge port on both sides of the discharge surface to form a suction port for suctioning the polluted air It is formed, it is preferable that the inlet path for the air sucked into the suction suction surface inside the rear case is moved to the dust collecting plate and the negative electrode palm side is formed.

Hereinafter, with reference to the accompanying drawings will be described in detail anion generating air purifier using a titanium dust collecting plate according to the present invention.

In the description of the present invention, terms defined are defined in consideration of functions in the present invention, which may vary depending on the intention or custom of a person skilled in the art, and thus, limit the technical components of the present invention. It should not be understood that the same components as in the prior art are given the same reference numerals, and detailed description thereof will be omitted.

Figure 3 is a perspective view showing an anion generating air purifier using a titanium dust collecting plate according to the present invention, Figure 4 is an exemplary view showing a dust extraction plate extraction state of an anion generating air purifier using a titanium dust collecting plate according to the present invention, Figure 5 6 is a cross-sectional view illustrating a dust collecting plate of an anion generating air purifier using a titanium dust collecting plate according to the present invention, and FIG. 6 is a cross-sectional view showing an air flow state of an anion generating air purifier using a titanium collecting plate according to the present invention.

As shown, the negative ion generating air cleaner 100 using the titanium dust collecting plate according to the present invention, the front case is provided with an inlet port 114, through which contaminated air is introduced, and an outlet port 112 through which purified air is discharged ( 110 and the rear case 120 is coupled to the rear surface of the front case 110 to form a movement path of the air flowing into the suction port 114, and a locking groove (not shown) for being mounted on a wall or the like. The main body 100 formed by is provided.

In addition, a dust collecting plate 130 and a negative electrode plate 140 are provided inside the main body 100 formed by the front and rear cases 110 and 120 to clean the air flowing therein, and the front case 110. An inlet passage 124 is formed so that air flowing into the suction port 114 formed therein passes through the dust collecting plate 130 and the negative electrode plate 140, and an electronic circuit unit capable of outputting a low voltage input therein with a high voltage therein. Is composed.

The front case 110 has a discharge surface 111 is formed with a plurality of discharge holes 112, a plurality of suction holes 114 for sucking contaminated air on both sides of the discharge surface 111 is formed. A formed suction surface 113 is formed, and the suction surface 113 has a predetermined angle with respect to the discharge surface 111 to prevent the air discharged into the discharge hole 112 formed in the discharge surface 111. It is formed to be bent, the inner side of the front case 110, the slide groove 115 is fixed to the dust collecting plate 130 is inserted into the fixed fixing is formed in the lower portion of the dust collecting plate 130 and the negative electrode plate 140 An electronic circuit part (not shown) for imparting a voltage of the electrode is formed, and an electrode part (not shown) connecting the electronic circuit part and the dust collecting plate 130 is formed when the dust collecting plate 130 is slide-inserted.

The rear case 120 is formed in a shape corresponding to the rear surface of the front case 110 to be coupled to the rear surface of the front case 110, a plurality of suction holes 114 formed in the front case 110 An inflow path 124 is formed to move the air sucked from the air, and the moving hole 125 is formed to move the air to the inflow path 124 toward the dust collecting plate 130 and the negative electrode plate 140, The plurality of negative electrode plates 140 are installed at ends of the moving holes 125.

In addition, an upper portion of the front case 110 and the rear case 120 is provided with an insertion portion 101 to which the holding portion 131 to which the dust collecting plate 130 is fixed is inserted and fixed.

The dust collecting plate 130 is formed in a rectangular plate shape in which a plurality of through holes 133 are formed, the material is made of titanium, and the surface of the dust collecting plate 130 is coated with ceramic and activated carbon to a predetermined thickness. In this case, the ceramic coating layer 134 prevents oxidation of the dust collecting plate 130 of titanium material and extends its life, and also generates anion and emits far infrared rays, and the activated carbon coating layer 136 is included in air. When the odors are passed between the dust collecting plate 130 and the negative electrode plate 140 serves to remove odor molecules contained in the air.

In addition, the conductive graphite layer 138 may be formed on the outermost layer of the dust collecting plate 130 to minimize the generation of ozone generated when ionizing electrons, thereby increasing the generation density of pure ions generated by the negative electrode plate 140. Silver, a sharp negative electrode pin 142 is formed at a predetermined interval, and is formed of the same material as the material for forming the dust collecting plate 130.

Although described in detail with respect to preferred embodiments of the present invention as described above, those of ordinary skill in the art, without departing from the spirit and scope of the invention as defined in the appended claims Various modifications may be made to the invention. Therefore, changes in the future embodiments of the present invention will not be able to escape the technology of the present invention.

As described above, the anion generating air purifier using the titanium dust collecting plate according to the present invention forms the dust collecting plate and the negative electrode plate used in the air cleaner as a titanium material to suppress the generation of ozone, ceramic, activated carbon on the outer surface of the dust collecting plate and the negative electrode plate And the formation of a conductive graphite layer to prevent oxidation of the dust collecting plate and the negative electrode plate. Also, by changing the position of the suction port where the contaminated air is sucked, it can also be used as a wall-mounted type to create more interior effects. It has an effect.

Claims (2)

A main body comprising a front case and a rear case, an electronic circuit portion for controlling the power supplied to the inside of the main body, a negative electrode plate provided on the output side of the electronic circuit portion and generating a negative voltage and corresponding to the negative electrode plate to generate negative ions; In the air cleaner comprising the dust collecting plate, The dust collecting plate and the negative electrode plate are made of titanium, and have a ceramic coating layer that emits far infrared rays on the surface of the dust collecting plate, an activated carbon coating layer which collects odor molecules contained in the air, and a density of ozone generated in the dust collecting plate and the negative electrode plate. Anion generating air purifier using a titanium dust collector, characterized in that the conductive graphite layer is formed to reduce, and increase the generation density of pure ions. The method of claim 1, A discharge surface is provided to form a plurality of air outlets of the front case, and a suction surface is formed on both sides of the discharge surface to be inclined at a predetermined angle in a direction opposite to the discharge direction of the discharge port to form an intake port through which contaminated air is sucked. And an inflow path through which the air sucked into the suction inlet surface is moved to the dust collecting plate and the negative electrode plate inside the rear case.