KR101074038B1 - Carrier purification apparatus of Wet-type electrophotographic image forming device - Google Patents

Abstract

The carrier purifying apparatus of the wet image forming apparatus according to the present invention comprises: an oxidation catalyst unit which oxidizes and decomposes a carrier vapor; And a cooling unit cooling the air heated to about 150-400 ° C. with the cold air outside while oxidizing through the oxidation catalyst unit, to a temperature harmless to the human body. According to the present invention, since an expensive heat transfer medium is not required as in the related art, it can be configured at an inexpensive price. Since the external cold air and hot air are cross-collided and mixed, the air is cooled in a short cooling section without using the heat transfer medium. Can be efficiently cooled, and the device can be miniaturized.

Carrier, Steam, Purification, Wet, Image Forming Device, Oxidation Catalyst, Cooling

Description

Carrier purification apparatus of Wet-type electrophotographic image forming device

1 is a cross-sectional view schematically showing a carrier purifying apparatus of a wet image forming apparatus according to the prior art;

2 is a cross-sectional view schematically showing a carrier purifying apparatus of a wet image forming apparatus according to an embodiment of the present invention, and

3 is an enlarged view illustrating main parts of FIG. 2.

Description of the Related Art

100; Oxidation catalyst unit 200; Cooling Unit

210; Air discharge line 211; Air intake

212; Exhaust 213; Reduction

213a; Air spray hole 214; Cooling fins

220; Adiabatic casing 221; insulator

230; Cooling fan

The present invention relates to a device for purifying a gas or the like harmful to a human body, and more particularly, to a carrier purifying apparatus for a wet image forming apparatus for purifying carrier vapor generated in the wet image forming apparatus and releasing it into the atmosphere.

Generally, a wet image forming apparatus uses a liquid developer (hereinafter referred to as a "developer"). The developer consists of a powdery toner and a liquid carrier such as Norpar. When the furnace is heated with a solvent of a hydrocarbon system, it is evaporated into a flammable hydrocarbon gas such as methane and discharged to the outside. Combustible hydrocarbon gases are classified as volatile organic compounds (VOCs) and contain harmful substances to the human body. When released as they are, they pollute the surrounding environment and emit an unpleasant odor.

Because of this problem, the general wet image forming apparatus employs a carrier purifying apparatus which purifies the carrier vapor generated in the developing unit and the fixing unit and discharges it into the atmosphere.

1 shows a typical example of a carrier purifying apparatus employed in a general wet image forming apparatus.

As shown in the drawing, the carrier purifying apparatus of the general wet image forming apparatus cools the air heated to a high temperature of about 150 to 400 ° C. at room temperature while passing through the oxidation catalyst unit 10 and the oxidation catalyst unit 10. Unit 20.

The oxidation catalyst unit 10 includes a catalyst filter and a heater, and oxidizes and decomposes the carrier vapor generated in the developing unit and the fixing unit not shown to water and carbon dioxide. As a result, the carrier vapor is purified by air which is harmless to the human body.                         

The cooling unit 20 serves to cool the heated air heated to 150 to 400 ° C. at room temperature in the process of oxidatively decomposing the carrier vapor in the catalyst filter.

The cooling unit 20 has an air discharge pipe 21 having an air inlet 21a and an exhaust port 21b, an insulation casing 22 disposed at an outer side of the cooling outlet 20 at a constant distance from the air exhaust pipe 21, and the insulation casing. It is provided with the 22 and is provided with the some cooling fan 23 which sucks in external cold air inside.

The oxidation catalyst unit 10 is installed inside the air discharge pipe 21, and a heat transfer medium 25 is installed in the downstream thereof. In addition, a plurality of cooling fins 21c are installed on the outer circumferential surface of the air discharge pipe 21. In the figure, 24 is a heat insulating material.

In the wet image forming apparatus having such a carrier purifying device, the carrier vapor generated in the developing unit and / or the fixing unit passes through the air inlet 21a of the air discharge pipe 21 through a predetermined duct. Inflow).

Carrier vapor is oxidatively decomposed while passing through the oxidation catalyst filter 10 to be hot air of about 150 to 400 ° C. and discharged to the exhaust port 21b. At this time, the high-temperature exhaust air is cooled in a plurality of air outlet pipes 21. In addition to being cooled by heat exchange between the cold air introduced by the fin 21c and the cooling fan 23, the fin 21c is cooled and discharged by the heat transfer medium 25.

However, since the carrier purifying apparatus of the general wet image forming apparatus uses the heat transfer medium 25, it is possible to improve the air cooling efficiency compared to the cooling structure by simple heat exchange with external air, By using an expensive heat transfer medium 25 such as a metal foam to be used, there is a problem that the cost increases and the temperature of the exhaust air becomes uneven.

The present invention has been made in view of the above problems, and provides a carrier purifying apparatus for a wet image forming apparatus having a cooling unit capable of effectively cooling exhaust air in a short cooling section without using an expensive heat transfer medium. The purpose is.

Another object of the present invention is to provide a carrier purifying apparatus of a wet image forming apparatus which can fundamentally solve the problem of temperature distribution of discharge air.

Carrier purification device of the wet image forming apparatus according to the present invention for achieving the above object is an oxidation catalyst unit for oxidative decomposition by burning the carrier vapor; And a cooling unit cooling the air heated to 150 to 400 ° C. with the external cold air while passing through the oxidation catalyst unit, to cool it to a temperature harmless to the human body.

The cooling unit includes an air inlet tube, an exhaust port and an air discharge pipe having a reduction portion formed in a plurality of air injection holes for gradually injecting air to the outside and gradually shrinks toward the air discharge direction; An insulated casing installed at an outer side of the air discharge pipe so that a predetermined air mixing space is formed between the air discharge pipe outer peripheral surface; And a plurality of cooling fans installed in the adiabatic casing in order to introduce external cold air into the air mixing space so that hot air and cold air injected through the air injection hole in the air mixing space strongly cross collision. It includes;                     

According to a preferred embodiment of the present invention, the carrier purifying apparatus of the wet image forming apparatus includes the oxidation catalyst unit installed inside the air discharge pipe.

In addition, the air discharge pipe is provided with a plurality of cooling fins protruding on the outer circumferential surface.

The air ejection hole is set in an air discharge direction such that an angle a between an imaginary line A extending from the inner circumferential surface thereof and an imaginary line B perpendicular to the air discharge direction is acute.

According to the present invention as described above, since a short cooling section can be formed without the expensive heat transfer medium as in the prior art, it is possible to provide a carrier purifying apparatus for a small wet image forming apparatus at a low cost.

Hereinafter, the carrier purifying apparatus of the wet image forming apparatus according to the present invention will be described with the accompanying drawings.

2 and 3, the carrier purifying apparatus of the wet image forming apparatus according to the present invention includes an oxidation catalyst unit 100 and a cooling unit 200.

The oxidation catalyst unit 100 purifies the air that is harmless to the human body by burning and oxidizing the carrier vapor generated in the developing unit and / or the fixing unit of the wet image forming apparatus. Although not specifically illustrated, the oxidation catalyst unit 100 includes an oxidation catalyst filter and a heater.

The cooling unit 200 cools the air of a high temperature (about 150 ~ 400 ℃) made during the carrier steam oxidative decomposition process of the oxidation catalyst unit 100 to a temperature harmless to the human body, that is to about room temperature to release to the atmosphere. At this time, the cooling unit 200 according to the features of the present invention has a structure that instantaneously cools by mixing vigorously heated air and cold air outside without using an expensive heat transfer medium as in the prior art.

The cooling unit 200 according to the present invention as described above includes an air discharge pipe 210, the adiabatic casing 220 and the cooling fan 230.

The air discharge pipe 210 has an air inlet 211, an exhaust port 212, and a reduction portion 213. The reduction part 213 gradually decreases toward the air discharge direction and includes a plurality of air injection holes 213a for injecting hot air into the outside.

As shown in FIG. 3, the plurality of air injection holes 213a have an angle α at which an imaginary line A extending from the inner circumferential surface thereof and an imaginary line B perpendicular to the air discharge direction meet. The air discharge direction is set to achieve an acute angle. A plurality of cooling fins 214 protrude from the outer circumferential surface of the air discharge pipe 210 to discharge heat generated from the oxidation catalyst unit 100 to the outside of the air discharge pipe 210.

The adiabatic casing 220 is installed outside the air discharge pipe 210 so that a predetermined air mixing space is formed between the air discharge pipe 210 and the outer circumferential surface thereof. In addition, a heat insulating material 221 is installed at a portion connected to the air discharge pipe 210 so that heat of the air discharge pipe 210 is not transmitted. The adiabatic casing 220 is provided with an opening 222 communicating with the outside of the image forming apparatus.

A plurality of cooling fans 230 are installed in the adiabatic casing 220, and suck external air having a relatively low temperature compared to the inside. The sucked air exchanges heat with the cooling fin 214 and is mixed with the filtered air discharged from the air injection hole 213a.                     

Hereinafter, the operation of the carrier purifying apparatus of the wet image forming apparatus according to the present invention will be described with reference to FIGS. 2 and 3.

In the wet image forming apparatus having the carrier purifying apparatus as described above, the air containing the carrier vapor generated in the developing unit and / or the fixing unit is air inlet 211 of the air discharge pipe 210 through a predetermined duct. Through the air discharge pipe 210 is introduced.

At this time, the carrier vapor introduced into the air discharge pipe 210 is decomposed into carbon dioxide and water (vapor), which are harmless to the human body, through the oxidation catalyst unit 100 installed in the air discharge pipe 210. In this process, since the carrier vapor is heated to a high temperature of about 300 degrees Celsius by a heater not shown for the oxidation catalyst reaction, the air filtered in the oxidation catalyst unit 100 is very hot. The high temperature discharged air filtered as described above is primarily cooled by heat exchange between the plurality of cooling fins 214 of the air discharge pipe 210 and the cold air introduced by the cooling fan 230.

Meanwhile, as shown in FIG. 2, the air filtered by the oxidation catalyst unit 100 increases its flow rate as the cross-sectional area of the flow path is reduced in the reduction part 213. As such, when the flow rate of the air filtered by the oxidation catalyst unit 100 is increased, the flow rate of the air discharged through the plurality of air injection holes 213a is also increased. At this time, the air discharge direction of the air injection hole (213a) is set so as to collide with the flow direction of the cold outside air sucked in the cooling fan 230, the plurality of air injection holes (213a) The high temperature air discharged at high speed in the air mixture space formed between the air discharge pipe 210 and the adiabatic casing 220, mixed vigorously while cross-collision with cold outside air sucked by the cooling fan 230 Cool down to a temperature that is harmless to the human body.

According to the present invention, since the cold outside air sucked from the cooling fan 230 and the hot air discharged at high speed from the air injection hole 213a are mixed vigorously while forming turbulent flow, The temperature drops rapidly. Therefore, the cooling section can be shortened without using an expensive heat transfer medium as in the related art, thereby reducing the size of the apparatus.

In addition, since the cross-sectional area of the exhaust port 212 is formed to be smaller than the cross-sectional area of the air intake port 211, the amount of the heated air discharged through the exhaust port 212 is injected into the air injection hole 213a and then It is much less than the amount of air that is completely mixed and cooled with the external cold air sucked by the cooling fan 230. Therefore, even if the cooling section for cooling the air discharged through the exhaust port 212 is formed short, it is possible to solve the problem of the temperature non-uniform distribution of the exhaust air discharged through the opening 222.

According to the present invention as described above, since no expensive heat transfer medium is required as in the prior art, it is possible to provide a carrier purifying apparatus for a wet image forming apparatus having a low-cost cooling unit.

In addition, the carrier purifying apparatus of the wet image forming apparatus according to the present invention exchanges cold air and hot air therein by cross collision and heat exchanges, so that the cooling section can be shortened without using a heat transfer medium. Can be reduced.

In addition, since the amount of air that is completely mixed with cold air after being injected into the air injection hole compared to the air discharged through the exhaust port of the air discharge pipe is much larger, the temperature non-uniform distribution of the exhaust air can be solved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. That is, those skilled in the art to which the present invention pertains will appreciate that many changes and modifications can be made to the present invention without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

Claims (5)

delete An oxidation catalyst unit which oxidizes and decomposes a carrier vapor; And A carrier purifying apparatus of a wet image forming apparatus, comprising: a cooling unit that cools the air heated by passing through the oxidation catalyst unit and mixed with cold air outside. The cooling unit, An air inlet pipe having an air inlet, an exhaust port, and a reduction part that is gradually reduced toward the air discharge direction and has a plurality of air injection holes for injecting air therein; An insulated casing installed at an outer side of the air discharge pipe so that a predetermined air mixing space is formed between the air discharge pipe outer peripheral surface; And A plurality of cooling fans installed in the adiabatic casing in order to introduce external cold air into the air mixing space so that hot air and cold air injected through the air injection holes in the air mixing space strongly cross collision; Carrier purifier of the wet image forming apparatus comprising a. The method of claim 2, And the oxidation catalyst unit is installed in the air discharge pipe. The method of claim 2, And the air discharge pipe includes a plurality of cooling fins protruding from an outer circumferential surface thereof. The method of claim 2, The air injection hole is wet image forming, characterized in that the direction is set so that the angle (a) where the virtual line (A) extending from the inner peripheral surface and the virtual line (B) perpendicular to the air discharge direction meets an acute angle. Carrier purifier of the device.

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