KR100297753B1 - Condenser for collecting carrier of wet printer - Google Patents

Abstract

PURPOSE: A condenser for collecting a carrier in a wet printer is provided to improve radiating efficiency of a heat sink by equally blowing wind of a fan into the heat sink through wind guide member. CONSTITUTION: A condenser for collecting a carrier of a wet printer comprises a condensing tub(51) storing condensing solution by being mounted in a housing(50); a thermoelectric module(55) installed on a side portion of the condensing tub; a radiating unit radiating heat of the thermoelectric module; a dry unit(20) evaporating carrier steam; an air discharge pipe(53) discharging air letting from the dray unit by being mounted on an upper portion of the condensing tub; a carrier discharge pipe(54) discharging the liquid carrier; an inlet pipe(52) penetrating an upper portion of the condensing tub; a heat sink(62) discharging the heat of the thermoelectric module; a fan(64) refrigerating the heat sink; a wind guide member(66) guiding moving direction of the wind of the fan by being mounted on the housing.

Description

Carrier recovery condenser of wet press

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a carrier recovery condenser of a wet printer, and more particularly, to a carrier recovery condenser of a wet printer having an improved structure to effectively dissipate heat in the condenser.

Generally, a wet printer applied to a printer or a copier includes an electrostatic latent image region formed on a photosensitive medium such as a photosensitive belt that travels in an endless track using a developer mixed with a solid toner having a predetermined color and a liquid carrier serving as a solvent. It is a printing apparatus which can obtain a desired image by attaching to a.

FIG. 1 is a schematic configuration diagram of a general wet printing machine, which is supported by a plurality of support rollers 11 and travels on an endless track, a plurality of developing devices 13a, 13b, 13c, and 13d, and drying. A part 20 and the transfer roller 16 are included.

The photosensitive belt 10 is maintained in a charged state at a predetermined potential by the charger 15, and a plurality of laser scanning units 14a, 14b, 14c, which are installed in proximity to each of the developing devices 13a, 13b, 13c, 13d, The potential is changed by the beam scanned at 14d), thereby forming an electrostatic latent image. The developing devices 13a, 13b, 13c, and 13d selectively attach the developing solution in which the toner and the liquid carrier are mixed to the electrostatic latent image area of the photosensitive belt 10. The toner T is transferred to the transfer roller 16 and printed on the printing paper P passed from the transfer roller 16 between the transfer roller 16 and the fixing roller 17 by the difference in surface energy.

On the other hand, the drying unit 20 includes a drying roller 22 and the heating roller 24. The drying roller 22 completely removes the liquid carrier from the photosensitive belt 10 passing through each of the developing devices 13a, 13b, 13c, and 13d. The heating roller 24 assists the function of the drying roller 22 by evaporating the liquid carrier removed by the drying roller 22. As such, the carrier removed by the drying unit 20 should be prevented from being released into the air because it is harmful to the human body. Therefore, in general, the wet press is provided with a carrier recovery condensation apparatus that collects and condenses the carrier vapor evaporated by the drying unit 20 to recover the liquid carrier.

2 is a cross-sectional view schematically showing a condenser for carrier recovery provided to be adjacent to the drying unit 20.

Referring to the drawings, some of the carrier vapor evaporated in the drying unit 20 is liquefied in the drying unit 20 is sent to the recovery container 30, the remaining portion of the housing together with the air through the inlet pipe 42 It is sent to the condensation tank 41 in 40. Here, the carrier vapor is liquefied in contact with the cold condensate (W), the air is discharged to the outside through the air discharge pipe 43 through the condensate (W). Then, the liquefied carrier is discharged to the recovery container 30 through the carrier discharge pipe 44 provided on one side of the condensation tank (41).

On the other hand, the condensate (W) is the heat absorbed by the thermoelectric element 45 installed on one side of the condensation tank 41 is kept cold without increasing the temperature. Heat absorbed by the thermoelectric element 45 is transferred to the heat sink 46 and forcedly cooled by the wind from the fan 47.

By the way, in the carrier recovery condenser of the conventional wet printer as described above, the wind from the fan 47 is concentrated and blown only on a part of the surface of the heat sink 46, and is not uniformly blown through the entire surface. . Therefore, only a part of the heat sink 46 is forcedly cooled to lower the overall heat dissipation efficiency.

The present invention has been made to solve the above problems, to provide a condensing device for the carrier recovery of the wet printing machine with improved structure to improve the heat dissipation efficiency by uniformly blowing the wind from the fan to the entire surface of the heat sink. The purpose is.

1 is a schematic configuration diagram of a general wet printing machine.

Figure 2 is a schematic cross-sectional view showing a part of a wet press to which the condensing device for carrier recovery of the conventional wet press is applied.

Figure 3 is a schematic cross-sectional view showing a part of a wet printer to which the condensing device for carrier recovery of the wet printer according to an embodiment of the present invention is applied.

Figure 4 is a schematic perspective view showing an extract of the main portion of FIG.

5 is a cross-sectional view taken along the line VV of FIG. 3.

<Brief Description of Major Codes in Drawings>

20. Drying unit 22. Drying roller

24. Heating roller 30. Recovery container

50. Housing 51. Condensation

52..Inlet pipe 53..Air discharge pipe

54. Carrier discharge tube 55. Thermoelectric element

62.Heat sink 64 .. 홴

66..Wind guide member 68..Wind plate

Carrier condensing apparatus for a wet printing machine according to the present invention for achieving the above object, the condensing tank for storing the condensate for condensing the carrier vapor evaporated in the drying unit of the printer to the liquid carrier; A thermoelectric element installed on one side of the condensation tank to cool the condensate and absorbing heat; A heat recovery condenser for a wet printing machine including heat dissipation means for dissipating heat from the thermoelectric element, wherein the heat dissipation means comprises: a heat sink installed in proximity to the thermoelectric element to absorb heat and release it to the outside; A fan for forcibly cooling the heat sink with wind; And a wind direction guide member installed to receive the heat sink to guide the movement direction of the wind so that the wind from the wind is supplied to the heat sink as a whole.

Hereinafter, with reference to the accompanying drawings will be described in detail the carrier recovery condensation apparatus of the wet printer according to a preferred embodiment of the present invention.

3 is a schematic cross-sectional view showing a part of a wet printer to which the condenser for carrier recovery of the wet printer according to the embodiment of the present invention is applied.

Referring to the drawings, the condenser for carrier recovery of the wet press according to the present invention is installed in the housing 50, the condensation tank 51 for storing the condensate (W), and the condensation for cooling the condensate (W) And a heat dissipation means for dissipating heat from the thermoelectric element 55 to the outside.

The condensate (W) is a cooling liquid for cooling the carrier vapor evaporated by the drying unit 20 and is filled to a predetermined height in the condensation tank 51.

The upper portion of the condensation tank 51 is provided with an air discharge pipe 53 for discharging the air introduced into the carrier steam from the drying unit 20. And, one side of the condensation tank 51 is provided with a carrier discharge pipe 54 for discharging the carrier of the liquid condensed therein. The condensation tank 51 is connected to the drying unit 20 by an inlet pipe 52 penetrated thereon. One end of the inlet pipe 52 is installed to be immersed in the bottom surface of the condensate (W). By the inlet pipe 52, the carrier vapor evaporated in the drying unit 20 can be supplied into the condensate W in the condensing tank 51 and condensed.

The thermoelectric element 55 is installed in the exposed part 51a exposed to the housing 50 of the condensation tank 51. The thermoelectric element 55 uses the Peltier effect. The thermoelectric element 55 has an absorption surface 55a that is kept cold when an electric current is applied and an emission surface 55b that is maintained at a high temperature. The absorbing surface 55a faces the exposed surface 51a to absorb the heat of the condensate W, and the absorbed heat is released to the outside through the discharge surface 55b, whereby the temperature of the condensate W is increased. Ascension is prevented.

Meanwhile, as illustrated in FIG. 4, the heat dissipation means includes a heat sink 62 that absorbs heat from the thermoelectric element 55 and releases it to the outside, and a fin 64 for forcibly cooling the heat sink 62. And a wind direction guide member 66 installed on the housing 50 to guide the direction of movement of the wind from the wind 64.

The heat sink 62 is provided such that an endothermic surface 62b for absorbing heat of the thermoelectric element 55 is in contact with the emission surface 55b of the thermoelectric element 55. Heat sink 62 has a plurality of heat sinks 62a for effective heat dissipation of absorbed heat. The heat sink 62a increases the surface area of the heat sink.

The fin 64 is installed close to the heat sink 62 to supply wind, thereby forcibly cooling the heat sink 62.

The wind direction guide member 66 is installed in the housing 50 to accommodate the heat sink 62. The wind direction guide member 66 is provided with a ventilation opening 66a through which the wind supplied from the wind 64 passes. The vent 66a is provided at the bottom of the wind direction guide member 66 in consideration of the flow direction of the air warmed by the heat discharged from the heat sink 62, and the fan 64 directly winds through the vent 66a. It is preferable that the inlet of the ventilation opening 66a, that is, the outer side of the bottom of the wind direction guide member 66 is provided to supply the air. As such, the wind supplied through the air vent 66a provided on the bottom surface of the wind direction guide member 66 passes through each heat sink 62a from the lower portion of the heat sink 62 as shown in FIG. 5. 62a) is cooled. In addition, the wind direction guide member 66 is provided with a wind direction plate 68 for distributing the direction of the wind supplied to the ventilation holes 66a so that the wind is uniformly supplied to each of the heat sinks 62a. The wind direction plate 68 is installed on the bottom of the wind direction guide member 66 facing the heat sink 62. It is preferable that a pair of these wind direction plates 68 is provided. The wind direction plate 68 is a plate structure whose part is refracted to change the direction of the wind supplied from the air vent 66a, and is installed to cross the air vent 66a. Here, the pair of wind direction plates 68 are installed such that their curved directions face the inner side surfaces 66b of the wind direction guide member 66, respectively. The wind supplied to the ventilation holes 66a by the blower plate 68 can be uniformly spread through the heat sinks 62a.

The operation of the condensation apparatus for carrier recovery of the wet printer according to the embodiment of the present invention having the configuration as described above will be described.

First, the liquid carrier removed from the photosensitive belt 10 by the drying roller 22 of the drying unit 20 is evaporated by the heating roller 24 to be carrier vapor. Some of the carrier vapor is liquefied in the drying unit 20 and flows into the recovery container 30, most of the remaining carrier vapor with the air by the pump 70 through the inlet pipe 52 through the condensation tank (51) Is moved into the condensate (W). Carrier vapor is condensed in the cold condensate (W) to be a liquid carrier, the air introduced together is discharged to the outside through the air discharge pipe (53). The liquid carrier rises to the liquid level of the condensate (W) in the condensation tank 51 and continues to accumulate on the liquid level. When the amount increases, the carrier overflows and recovers to the recovery container 30 through the carrier discharge pipe 54. do. The liquid carrier recovered by the recovery vessel 30 can be reused.

On the other hand, the temperature of the condensate (W) is increased by the heat generated while the carrier vapor is condensed, the condensate (W) by absorbing heat from the thermoelectric element 55 is suppressed the temperature rise, it is possible to be kept cold do. Then, the heat generated from the discharge surface 55b of the thermoelectric element 55 is absorbed by the heat sink 62 and discharged to the outside through each heat sink 62a. At this time, the wind of the fan 64 is supplied to the heat sink 62 through the vent opening 66a, the direction is dispersed by the wind direction plate 68, and evenly spread to each of the heat sinks 62a. Thus, the dispersed wind is forced between the heat sinks 62a while being forced to cool each heat sink 62a. As the wind supplied from the fins 64 is uniformly spread on each of the heat sinks 62a, the heat sinks 62a are uniformly cooled at the same time, and the heat sink 62 absorbs heat from the thermoelectric element 55. Effective heat dissipation can be achieved.

Although the present invention has been described with reference to the accompanying drawings only for a limited embodiment, those skilled in the art should be understood that there may be further modifications within the scope of the technical idea of the present invention. .

According to the carrier recovery condensing apparatus of the wet printer of the present invention as described above, by dispersing the wind of the wind uniformly to the heat sink by the wind direction guide member, the heat dissipation efficiency of the heat sink is increased.

Claims (2)

A condensation tank for storing a condensate for condensing the carrier vapor evaporated in the drying unit of the printing machine into a liquid carrier; A thermoelectric element installed on one side of the condensation tank to cool the condensate and absorbing heat; In the condenser for carrier recovery of a wet printing machine comprising a heat radiating means for radiating heat of the thermoelectric element to the outside, The heat dissipation means, A heat sink installed close to the thermoelectric element to absorb heat and release the heat to the outside; A fan for forcibly cooling the heat sink with wind; And a wind direction guide member installed to receive the heat sink in order to guide the direction of movement of the wind so that the wind from the wind is supplied to the heat sink as a whole. The method of claim 1, The wind direction guide member is formed with a vent for supplying the wind of the wind, By dispersing the direction of the wind supplied from the vents, the condensing device for the carrier of the wet printer, characterized in that it further comprises a wind direction plate installed in the vents to be uniformly ventilated throughout the outer surface of the heat sink. .