KR100544169B1 - Carrier Removal Device for Wet Printing Machine - Google Patents

Abstract

A carrier removal apparatus of a wet printer for removing a liquid carrier in a developer attached to a photosensitive belt of a wet printer is disclosed. The disclosed carrier removing device includes a hot air supply device for supplying hot air to evaporate and remove the liquid carrier in the developer by raising the temperature of the developer attached to the photosensitive belt. In addition, the hot air supply device, the hot air is generated by the air is introduced into the inside and heated, one side of the hot air pipe provided with a plurality of hot air outlets for discharging the hot air to the photosensitive belt, the hot air pipe flows into the inside Heating means for heating the air to generate hot air, a pump for supplying air into the hot air pipe, and an air supply pipe connecting the pump and the hot air pipe. Therefore, the temperature of the developer attached to the photosensitive belt is increased by the hot air supplied from the hot air supply device, thereby promoting evaporation of the liquid carrier, thereby increasing the squeeze efficiency.

Description

Carrier Removal Device for Wet Printing Machine

The present invention relates to a wet printing machine, and more particularly, to a carrier removing apparatus of a wet printing machine, which is capable of increasing the removal efficiency of a liquid carrier in a developer attached to a photosensitive belt.

Generally, a printer such as a printer or a copier forms a latent electrostatic image on a photosensitive medium such as a photosensitive drum or a photosensitive belt, develops the electrostatic latent image with a toner having a predetermined color, and transfers the image onto a recording sheet to produce a desired image. It is a device to get. The printer is roughly classified into wet and dry according to the toner used. In the wet type, a developer in which a toner is mixed with a volatile liquid carrier is used. Wet printing machines using such a developer have better print quality than the dry method using a powdered toner, and can prevent damage caused by harmful toner dust, and the use thereof is gradually increasing.

1 is a view showing a schematic structure of a conventional wet printing machine.

As shown in the drawing, a conventional wet press has a photosensitive belt 10 having an endless track, a driving roller 20, a backup roller 30, and a tension roller 40 for rotating the photosensitive belt 10 in a given path. It has three rollers.

Then, the main charging unit 50 for uniformly charging the photosensitive belt 10 adjacent to one side of the photosensitive belt 10 is provided, the lower portion of the photosensitive belt 10 in accordance with the image signal (10) A laser scanning unit (LSU) 60 for irradiating a laser beam to form an electrostatic latent image, and a developer 70 for attaching and developing a developer consisting of a toner having a predetermined color and a liquid carrier to a region where the electrostatic latent image is formed It is installed. In the case of a color printer, a plurality of developing units 70 are provided to separately contain a plurality of LSUs 60 and a developer having a plurality of colors for color combinations.

As described above, the developer attached to the photosensitive belt 10 by the developing unit 70 is dried by the dry roller 81 and the heat roller 82 provided after the developing unit 70, so that the electrostatic latent image of the photosensitive belt 10 A toner image remaining only toner is formed. That is, the dry roller 81 absorbs the liquid carrier in the developer, and the heat roller 82 heats and absorbs the absorbed liquid carrier. The toner image is transferred to the recording paper 93 by a transfer roller 91 provided in parallel with the backup roller 30 with the photosensitive belt 10 interposed therebetween. The recording paper 93 is supplied between the transfer roller 91 and a fixing roller 92 provided in parallel with a predetermined distance therebetween, and the toner transferred to the recording paper 93 is fixed to the fixing roller 92. Is heated and pressurized and fixed to the recording paper to form a desired image.

2 is a view schematically showing the internal structure of a developer equipped with a conventional carrier removing device.

Referring to FIG. 2, the developer A made of a toner having a predetermined color and a liquid carrier is contained in the developer 70, and a developer A supplied by the developer supply device 71 is disposed thereon. To the electrostatic latent image area of the photosensitive belt 10, and a carrier removing device for removing the liquid carrier from the developing solution A attached to the photosensitive belt 10. In addition, in the developing device 70, a cleaning roller 80 which is in contact with the developing roller 72 for cleaning the developing solution A attached to the developing roller 72 is rotatably installed.

The carrier removing device includes a squeeze roller 73 installed to rotate in contact with the photosensitive belt 10. The squeeze roller 73 is in close contact with the photosensitive belt 10 by a predetermined pressing means (not shown), and the frictional force is driven to the photosensitive belt 10 while being driven in the traveling direction of the photosensitive belt 10 by the friction force. Squeeze and separate the liquid carrier from the developer (A) attached, and serves to form a thin developer film (B) on the photosensitive belt (10). The liquid carrier separated in this way flows down the squeeze roller 73 and is removed by the blade 74 to be recovered and stored in the developing unit 70.

At this time, some of the liquid carrier removed by the squeeze roller 73 causes a wrap-around phenomenon that passes over both ends of the squeeze roller 73. Therefore, air spray nozzles 75 for injecting air to remove them may be installed at both ends of the squeeze roller 73. The air spray nozzle 75 is connected to the pump 77 through an air supply pipe 76. Here, reference numerals 78 and 79 each represent a squeeze backup roller and a developing backup roller which are installed to correspond to the squeeze roller 73 and the developing roller 72 with the photosensitive belt 10 interposed therebetween.

As described above, the removal efficiency (hereinafter referred to as squeeze efficiency) of the liquid carrier in the developer by the squeeze roller 73 greatly affects the image quality. In other words, if the squeeze efficiency is low, the dry roller (81 in FIG. 1) is easily saturated, so that the drying of the developer film B is insufficient and the image quality is degraded.

Important factors for determining the squeeze efficiency as described above include the pressing force applied to the photosensitive belt 10 and the temperature of the developer. In particular, since the temperature is substantially proportional to the squeeze efficiency, when the printer is used in a low temperature environment, the squeeze efficiency by the squeeze roller 73 is lowered, making it difficult to form a normal image. That is, in the state where the temperature is low, it is difficult to obtain a squeeze efficiency of a predetermined level or more simply by increasing the pressing force on the photosensitive belt 10 of the squeeze roller 73.

The present invention has been made to solve the problems of the prior art as described above, and an object of the present invention is to provide a carrier removing device of a wet printing machine equipped with a hot air supply device for increasing the temperature of the developer to increase the squeeze efficiency. .

Carrier removal apparatus of a wet printing machine according to the present invention in order to achieve the above object: to remove the liquid carrier from the developer attached to the photosensitive belt of the wet printing machine, is installed to be rotatable in contact with the bottom of the photosensitive belt development A squeeze roller for removing the liquid carrier in the developer by pressing the developer attached to the photosensitive belt by a roller, and evaporating and removing the liquid carrier in the developer by increasing the temperature of the developer attached to the photosensitive belt by supplying hot air. It characterized in that it comprises a hot air supply device.

Herein, the hot air supply device includes: a hot air pipe having a plurality of hot air discharge ports for discharging the hot air to the photosensitive belt, on one side of which air is introduced and heated; Heating means for generating hot air by heating air introduced into the hot air pipe; A pump for supplying air into the hot air pipe; And an air supply pipe connecting the pump and the hot air pipe.

In addition, the hot air pipe is preferably installed in any one of the after the squeeze roller and before the developing roller, it is preferable that the copper tube is excellent in thermal conductivity. In addition, the heating means is preferably a coil heater made of a resistance heating element installed inside the hot air pipe.

Therefore, the temperature of the developer attached to the photosensitive belt is increased by the hot air supplied from the hot air supplier, thereby promoting the evaporation of the liquid carrier, thereby increasing the squeeze efficiency.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the carrier removing device of the wet printing machine according to the present invention.

Figure 3 is a schematic view showing the internal structure of the developing device with a carrier removing device according to the present invention, Figure 4 is a perspective view showing the structure of the hot air supply device shown in FIG.

3 and 4 together, a developer A made of a toner having a predetermined color and a liquid carrier is contained in the developing unit 170 of the wet printing machine, and a developer supplying device 171 is disposed thereon. A developing roller 172 for attaching the supplied developer A to the electrostatic latent image region of the photosensitive belt 10, and a carrier removing device for removing the liquid carrier from the developer A attached to the photosensitive belt 10; Is installed. In addition, the developing roller 170 is in contact with the developing roller 172, and a cleaning roller 180 for cleaning the developing solution A attached to the developing roller 172 is rotatably installed.

The carrier removing device evaporates the liquid carrier in the developer by raising the temperature of the developer attached to the photosensitive belt 10 by supplying hot air with a squeeze roller 173 installed to rotate in contact with the photosensitive belt 10. It is configured to include a hot air supply device for removing.

The squeeze roller 173 is in close contact with the photosensitive belt 10 by a predetermined pressing means (not shown), and the frictional force is rotated in the traveling direction of the photosensitive belt 10 by the friction force to the photosensitive belt 10. Squeeze and separate the liquid carrier from the developer (A) attached, and serves to form a thin developer film (B) on the photosensitive belt (10). The separated liquid carrier flows down the squeeze roller 173 and is removed by the blade 174 to be recovered and stored in the developing unit 170. Here, reference numerals 178 and 179 each represent a squeeze backup roller and a developing backup roller which are installed to correspond to the squeeze roller 173 and the developing roller 172 with the photosensitive belt 10 interposed therebetween.

The hot air supply device is a feature of the present invention and includes a hot air pipe 181, heating means, a pump 177, and an air supply pipe 176.

The hot air pipe 181 is installed after the squeeze roller 173 and is supported by the bracket 184. The hot air pipe 181 is installed in parallel with the squeeze roller 173 at a predetermined distance from the bottom surface of the photosensitive belt 10. The hot air pipe 181 is a copper pipe having excellent thermal conductivity, and an air inlet 182 connected to the air supply pipe 176 to be described later is provided at one end thereof. In addition, the hot air pipes 181 are provided with a plurality of hot air outlets 183 having a predetermined distance from each other in the longitudinal direction thereof.

The heating means serves to generate hot air by heating the air introduced into the hot air pipe 181. The heating means is preferably a coil heater 185 made of a resistance heating element installed inside the hot air pipe 181. Both ends of the coil heater 185 are connected to a heater power source 186.

The pump 177 is for supplying air into the hot air pipe 181, and the air supply pipe 176 is a passage through which air is supplied from the pump 177 into the hot air pipe 181. 177 and the air supply port 182 of the hot air pipe 181 is installed to connect.

On the other hand, some of the liquid carrier removed by the squeeze roller 173 causes a wrap-around phenomenon that passes over both ends of the squeeze roller 173, thus injecting air to remove it. Air spray nozzles 175 may be installed at both ends of the squeeze roller 173. In this case, a pump and an air supply pipe for supplying air to the air injection nozzle 175 are required. Therefore, the pump 177 and the air supply pipe 176 may be shared for the purpose of supplying air to the hot air pipe 181 and the air spray nozzle 175.

Referring to the operation of the hot air supply device having such a configuration as follows.

Air is introduced into the hot air pipe 181 through the air supply pipe 176 and the air inlet 182 from the pump 177. The introduced air is heated by the coil heater 185 to generate hot air, and the hot air is discharged toward the photosensitive belt 10 through the hot air outlet 183. The hot air reaching the photosensitive belt 10 heats the developer film B attached to the photosensitive belt 10 to evaporate and remove the liquid carrier. Therefore, the squeeze efficiency is approximately two times higher than in the prior art, and thus the image quality is improved.

Although not shown, the hot air pipe 181 of the hot air supply device may be installed before the developing roller 172. At this time, the hot air discharged from the hot air pipe 181 heats the photosensitive belt 10. Accordingly, the temperature of the developing solution A attached to the photosensitive belt 10 by the developing roller 172 is increased. As it rises, evaporation of the liquid carrier in the developing solution A is promoted.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely illustrative, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the appended claims.

As described above, the apparatus for removing a wet printer according to the present invention includes a hot air supply device for supplying hot air to heat the photosensitive belt or the developer attached thereto. Therefore, the temperature of the developing solution rises to promote the evaporation of the liquid carrier, thereby increasing the squeeze efficiency. In particular, even if the printing operation is performed in a low temperature environment, the squeeze efficiency of a certain level or more can be obtained, so that the image quality is improved.

1 is a view showing a schematic structure of a conventional wet printing machine,

Figure 2 is a schematic view showing the internal structure of a developer equipped with a conventional carrier removal device,

3 is a view schematically showing the internal structure of a developer equipped with a carrier removing device according to the present invention;

Figure 4 is a perspective view showing the structure of the hot air supply device shown in FIG.

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

10 ... Photosensitive belt 70,170 ...

71,171 Developer Solution Feeder 72,172 Developer Roller

73,173 ... squeeze roller 74,174 ... blade

75,175 Air spray nozzle 76,176 Air supply pipe

77,177 ... pump 80,180 ... cleaning roller

181 Hot air pipe 182 Air inlet

183 Hot air outlet 184 Bracket

185 ... coil heater 186 ... heater power

Claims (6)

In the carrier removal apparatus of the wet printer for removing the liquid carrier in the developer attached to the photosensitive belt of the wet printer: A squeeze roller which is installed to be rotatable in contact with the bottom surface of the photosensitive belt and removes the liquid carrier in the developing solution by pressing the developer attached to the photosensitive belt by a developing roller; And And a hot air supply device for evaporating and removing the liquid carrier in the developer by supplying hot air to raise the temperature of the developer attached to the photosensitive belt. According to claim 1, wherein the hot air supply device, Air is introduced into the inside and heated to generate hot air, one side of the hot air pipe is provided with a plurality of hot air outlets for discharging the hot air to the photosensitive belt; Heating means for generating hot air by heating air introduced into the hot air pipe; A pump for supplying air into the hot air pipe; And And an air supply pipe connecting the pump and the hot air pipe. The method of claim 2, The hot air pipe is a carrier removal device of the wet printing machine, characterized in that installed in any one of after the squeeze roller and before the developing roller. The method of claim 2, The hot air pipe is a carrier removal device of a wet printing machine, characterized in that the copper tube made of excellent thermal conductivity. The method of claim 2, And the heating means is a coil heater made of a resistance heating element installed inside the hot air pipe. The method of claim 2, The apparatus for removing a carrier further includes an air spray nozzle for removing a liquid carrier passing over both ends of the squeeze roller, and the pump and the air supply pipe are also used for supplying air to the air spray nozzle. Carrier removal device of the wet printing machine.