KR20110046715A - Drying heater of paint using carbon lamp - Google Patents

Abstract

PURPOSE: A heater for drying paint is provided to reduce drying time due to short initial heating time and to improve durability of a carbon lamp by discharging the heat of a carbon heater to the outside. CONSTITUTION: A heater(1) for drying paint using a middle-infrared carbon lamp includes a carbon lamp(4). The carbon lamp includes: a vacuum glass tube in which both ends are sealed while a carbon heater is built in; and a heat wire emission tube in which the vacuum glass tube is inserted thereinside while both ends are opened. The carbon lamp fixes both-side insulating connectors to both ends of the heat wire emission tube. An insulating cap with a plurality of hot air vent passages is assembled.

Description

Drying heater of paint using carbon lamp

The present invention relates to a heater for drying paint using a mid-infrared carbon lamp used to dry paint coated on a metal object such as an automobile body.

In general, the surface of the metal object is coated with paint to keep the surface smooth while preventing rust.

For example, in the case of automobiles, paints of various colors are coated on the entire body. When a new paint is to be applied to the body of a vehicle, a car is put in a painting booth and the painting work in the above painting booth. The paint booth is equipped with a drying device in order to quickly dry the paint on the car body.

As described above, the drying apparatus for drying the paint applied to the car body after the painting work in the painting booth is a hot air drying method using a hot air boiler to supply hot air using oil as a fuel. It is a heat-drying method in which hot air heated hot from the outside of the painting booth is supplied to the interior of the painting booth, and the hot air is dried in direct contact with the paint painted on the car by the convection of the hot air. Such hot air drying is supplied from a hot air boiler. In the process of supplying the hot air into the paint booth, not only heat loss is generated but also a lot of heat loss occurs inside the paint booth, so the thermal efficiency is very low and the temperature distribution due to convection is not constant. The painted material is not evenly dried, and the drying time is long and the coating layer It has been pointed out that there is a problem such as a pinhole phenomenon, and the longer the drying time, the longer the operation time of the hot air boiler is, the longer the fuel consumption is, so the operating cost of the drying device of the coating booth is high. .

In order to solve the problems in the hot air drying method as described above, the inventor of the present invention has proposed a coating drying apparatus using a far-infrared heater of Utility Model Registration No. 386028, which is superior in heat efficiency to the hot air drying method using a hot air boiler. On the other hand, the paint layer of the oil paint on the surface layer of the paint layer penetrates when the heating layer emitted from the far infrared heater dries the coating layer applied to the vehicle body, while the operating cost is reduced. It has been pointed out that the primer layer applied to the inside of the paint layer, that is, the surface of the automobile body, does not penetrate and reflects, resulting in a long drying time of the paint layer painted on the metal object.

Therefore, the inventor of the present invention has developed a near-infrared heater consisting of a ruby heat radiation lamp that emits near-infrared heat rays penetrating both the primer layer and the oil paint layer sequentially painted on the surface of the car body and registered as a patent No. 10-686975.

However, although the above-mentioned patent (10-686975) has an advantage of penetrating and drying the primer layer and the oil paint layer coated on the car body, the near infrared ray emitted from the near infrared heater is a short wavelength hot wire in the region of 0.75 to 2.5㎛. It was disadvantageous that the drying of the water-soluble paint paint layer and the primer paint layer was not efficient. In the future, automotive paints are being replaced with environmentally friendly water-soluble paints, so the ruby heat radiating lamp of near-infrared heaters has been pointed out as a long time for water-soluble absorption heating.

On the other hand, since the coating solvent, pigment, and the like are easily absorbed at a wavelength of 4 µm, a radiator emitting mid-infrared rays is useful. The stretching vibration of the water molecule is in the 2.7 ㎛ wavelength region. If a 3 μm wavelength of infrared light is applied to a water molecule, it is absorbed by 100% infrared rays, and the temperature rises and turns into steam. In water-soluble paint drying, the 3 탆 wavelength is the most suitable wavelength.

The present invention has been proposed in view of the above-mentioned general matters, and has a wavelength of 2.5 to 4.0 µm which is an intermediate region between the long wavelength region (4.1 to 1000 µm) of far infrared rays and the short wavelength region (0.75 to 2.5 µm) of near infrared rays. By using carbon lamp that emits mid-infrared heat ray, water-soluble paint applied to metal object can be dried in a shorter time. Also, the initial heating time can be shortened to less than 10 seconds. In addition, it is an object of the present invention to provide a paint drying heater with improved durability of the carbon lamp by allowing the heat of the carbon heater, which generates heat in the vacuum glass tube, to be discharged to the outside without being stagnant in the heat radiation tube.

The present invention, as a means for realizing the above object,

It has a carbon lamp composed of a vacuum glass tube sealed at both ends so that the inside is in a vacuum state with a carbon heater formed of carbon fiber yarn, and a heat radiation tube formed at both ends with the vacuum glass tube inserted therein. In the heater for paint drying,

The carbon lamp,

Both ends of the heat radiation tube secure the both ends of the insulating connector formed to seal both ends of the vacuum glass tube while connecting the wires drawn from the outside to the carbon heater, and at the same time a plurality of for discharging the heat radiated from the carbon heater to the outside It characterized in that the insulating cap formed of the heat discharge passage is assembled.

In addition, the heat radiation tube of the carbon lamp is characterized in that the glass tube containing 50% or more of quartz (石英).

According to the present invention, the heat ray radiated from the carbon lamp is a medium-infrared ray having a wavelength range of 2.5 to 4.0 μm that can penetrate the coating layer and the primer layer coated on the metal object, such as near infrared rays, and heat the surface of the metal object. As the water-soluble paints coated on the film are directly heated and dried by the heat of the mid-infrared heat ray, and the paint layer is dried by the heating heater of the metal object itself, moisture escapes quickly, the coating layer becomes hard, and the gloss is formed smoothly. The effect of shortening the drying time can be expected.

Referring to the accompanying drawings, a specific embodiment of a heater for drying paint using a mid-infrared carbon lamp according to the present invention will be described in detail as follows.

1 is a cross-sectional view of a heater for drying paint for explaining the present invention, FIG. 2 is a cross-sectional view taken along line AA of FIG. 1, FIG. 3 is an exploded perspective view of a carbon lamp of the paint drying heater of the present invention, and FIG. 4 is an embodiment of the present invention. Is a cross-sectional view of the assembled carbon lamp, and FIG. 5 is a cross-sectional view taken along line BB of FIG.

Reference numeral 1 denotes a paint drying heater, wherein the paint drying heater 1 includes a heater body 2, a reflecting plate 3 fixedly attached to the inside of the heater body, and one or more inside of the reflecting plate. It is composed of a carbon lamp (4) to be installed above and the angle adjustment bracket (5) attached to both sides of the heater body (2) to adjust the radiation angle of the carbon lamp (4).

The heater body 2 has a case 21 formed in an open state only downward, a perforated plate 22 formed at an upper end of the case to release heat, and fixedly attached to a lower end of the case 21. 망 It is composed of a safety net 23, a plurality of hot air discharge holes 24 are formed in each of the left and right sides of the case 21.

The reflecting plate 3 is formed in a semi-circular cross section fixedly attached to the inside of the heater body 2 and opened toward the bottom to intensively reflect the mid-infrared heating wire radiated from the carbon lamp 4 toward the bottom of the case 2. have.

One or more carbon lamps 4 are provided inside the reflecting plate 3, and in the drawing (see FIG. 1), two carbon lamps 4 are provided inside the case 2.

The carbon lamp 4 is a carbon heater 41 formed of carbon fiber yarn in a spiral shape, and a vacuum glass tube whose both ends are sealed by an insulating connector 42 while the inside thereof is vacuumed while the carbon heater is inserted. (43), a heat radiation tube (44) which is open at both ends to allow the vacuum glass tube (43) to be inserted and installed, and is inserted into each of both ends of the heat radiation tube (42) so that both ends of the vacuum glass tube (43) The wire wiring hole 47 and the heat radiation tube 44 which fix each of the sealing both side insulating connectors 42 and guide the wires 45 and 46 drawn in or drawn out through each of the two insulating connectors 42. The insulating cap 49 constitutes a plurality of heat release passages 48 for releasing heat existing therein.

The angle adjusting bracket 5 is angled by the screw tightening and loosening operation of the wing nut 52 screwed to the threaded portion of the bolt 51 penetrating the left and right sides of the case 21, respectively. Is configured to be fixed, the angle adjustment bracket (5) is fixedly attached to the ceiling or wall surface with screws or the like.

The operation of the present invention configured as described above will be described.

The paint drying heater 1 heats the paint layer coated on the surface of the metal object while the mid-infrared heat ray generated when the carbon heater 41 of the carbon lamp 4 generates heat penetrates the paint layer and thereby the surface of the metal object. As a result, the metal object heated by the mid-infrared heat ray radiated from the carbon lamp 4 is in a state of heating and drying the paint layer coated on the surface thereof, so that the paint layer coated on the surface of the metal object Since it is heated and dried by the heat generated by the heat generated from the medium-infrared heat ray radiated to the carbon lamp 4 and the heated metal object, the paint film is hardened and the surface gloss is dried while the moisture is quickly released.

On the other hand, the heat that is present in the heat radiation tube 44 by the mid-infrared heat ray generated from the carbon heater 41 of the carbon lamp 4 is a plurality of heat discharge passage formed in each of the insulating caps 49 on both sides Since the heat radiation tube 44 is prevented from being overheated by being discharged to the outside through the 48, the durability of the heat radiation tube 44 is improved, and thus the service life of the carbon lamp 4 is long. You lose.

1 is a cross-sectional view of a heater for drying paint for explaining the present invention

2 is a cross-sectional view taken along the line A-A of FIG.

Figure 3 is an exploded perspective view of the carbon lamp of the paint drying heater of the present invention

Figure 4 is a cross-sectional view of the assembled carbon lamp of the present invention

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

[Description of Drawings]

1: paint drying heater 2: heater body

21 case 22: punched plate

23: stable network 3: reflector

4: carbon lamp 41: carbon heater

42: insulated connector 43: vacuum glass tube

44: heat radiation officer 45,46: electric wire

47: wire wiring 48: heat discharge passage

49: insulation cap 5: angle adjustment bracket

51: Bolt 52: Wing Nut

Claims (2)

It has a carbon lamp composed of a vacuum glass tube sealed at both ends so that the inside is in a vacuum state with a carbon heater formed of carbon fiber yarn, and a heat radiation tube formed at both ends with the vacuum glass tube inserted therein. In the heater for paint drying, The carbon lamp, At both ends of the heat radiation tube, a plurality of heats for fixing the both ends of the insulating connector formed to seal both ends of the vacuum glass tube while connecting the wires drawn from the outside to the carbon heater and at the same time to discharge the heat radiated from the carbon heater to the outside Paint drying heater using a mid-infrared carbon lamp, characterized in that the insulating cap formed with the discharge passage is assembled. The method of claim 1, Heat-radiating tube of the carbon lamp is a heater for drying paint using a mid-infrared carbon lamp, characterized in that the glass tube containing 50% or more quartz.

Images