KR19980015382U - Air Heater for Drying Equipment - Google Patents

Abstract

An air heater that can be used to dry the cleaned shadow mask for color cathode ray tube, and in order to prevent the problem of blocking the electron beam through hole of the shadow mask due to the high content of fine foreign matter in the air sprayed at a high temperature during the drying operation. With a body; First and second air passages formed inside the body to reciprocate the air supplied from the outside of the body to flow out of the body; It is installed in the body so as to be disposed separately between the primary and secondary air passages when the air passes through the primary and secondary air passages, and provides a drying apparatus including a primary and secondary heater unit for heating it. .

Description

Air Heater for Drying Equipment

The present invention relates to an air heater for a drying apparatus, and more particularly to an air heater used for drying after washing the shadow mask for color cathode ray tube.

In general, a color cathode ray tube is an electronic device in which an electron beam emitted from an electron gun is landed on a corresponding phosphor of a fluorescent surface to realize a predetermined image, and a shadow mask is formed inside the panel in which numerous electron beam passing holes are formed.

The shadow mask is a component having a color screening function that allows the R, G, and B electron beams emitted from the electron gun to converge in one electron beam passing hole to be properly landed on the phosphor when the color cathode ray tube is operated. At the same time, it is cleaned for the purpose of removing foreign matter.

In addition, after the shadow mask is cleaned, it is dried by a predetermined drying apparatus, in which drying is usually performed through hot air.

That is, the conventional drying apparatus for the shadow mask is provided with the air heater 1 as shown in Figure 5, the shadow mask is to be dried by the hot air from the air heater (1).

FIG. 6 is a cross-sectional view taken along line AA of FIG. 3, in which a structure of the air heater 1 is conventionally provided includes a pipe 12 in which a plurality of air passages 10 are formed in a circumferential direction, and a plurality of holes. Insulating insulator 16 is included to hold 14 and to be inserted into the pipe 12.

The inside of each hole 14, along with the heating coil 18 is inserted into the cross, the magnesia (magnesia) filling (20) provided for improving the thermal conductivity is embedded.

Therefore, when air is supplied to the air passage 10 from the rear thereof, the air heater 1 configured as described above is heated by the heating coil 18 while the air flows through the air passage 10. It is possible to dry the shadow mask in the cleaned state by being injected to the shadow mask side through the air passage (10).

By the way, when the drying of the shadow mask with the air heater as described above, unlike the original drying purpose, a problem that may cause foreign matter to be caught in the electron beam through hole of the shadow mask.

This is because when the air heated through the air passage is injected, not only the magnesia filling in powder state but also the broken powder of the insulation insulator are injected together with the heating air because the distance between the air passage and the insulator is close. This is because the electron beam through hole of the shadow mask is blocked.

In addition, in the structure of the air heater, there is a problem in that the foreign material is generated by contacting the magnesia filling material in the process of heating the supplied air to cause a defect of the product.

Therefore, the present invention has been devised to solve the above problems, the purpose of which is to dry the operation, without clogging the electron beam through hole of the shadow mask, and also to prevent overheating to improve the product quality It is to provide an air heater for the drying apparatus to improve.

Accordingly, the present invention, in order to realize the above object, and the body; First and second air passages formed inside the body to reciprocate the air supplied from the outside of the body to flow out of the body; It is installed in the body so as to be disposed separately between the primary and secondary air passages when the air passes through the primary and secondary air passages, and provides a drying apparatus including a primary and secondary heater unit for heating it. .

In the above, the primary heater unit, a plurality of insulation insulators are arranged in a plurality of the center to match the hole formed in the plurality; A heating coil mounted by cross inserting the holes; The heat conduction improvement material filled in each said hole part is comprised.

In addition, the secondary heater is provided with a heat conduction enhancement that is sintered and wound around the heating coil to the outer circumferential surface, and the heat conduction enhancement is preferably provided with aluminum oxide.

1 is a partial perspective view showing an air heater according to the present invention,

2 is a cross-sectional view taken along line BB of FIG. 1,

3 is a view illustrating a primary heater unit according to the present invention,

4 is a perspective view showing a secondary heater unit according to the present invention,

5 is a perspective view schematically showing an air heater according to the prior art,

FIG. 6 is a cross-sectional view taken along the line A-A of FIG. 5.

Hereinafter, preferred embodiments will be described with reference to the accompanying drawings in order to help understanding of the present invention.

1 is a partial perspective view showing the appearance of an air heater for a drying apparatus according to the present invention, wherein the air heater 30 includes a cylindrical body 30a in its components.

As shown in FIG. 2, the first and second air passage portions 30b and 30c are formed in the body 30a along the circumferential direction of the body 30a. The primary air passage portion 30b is located at the center of the body 30a and the secondary air passage portion 30c is located at the circumference of the body 30a and are interconnected to lead to one passage.

That is, in other words, if the air is introduced through the air inlet belonging to the primary air passage portion 30b from the outside of the body 30a during the action of the air heater 30, the air is the primary air passage Passing the portion 30b and the secondary air passage portion 30c reciprocally moves out of the body 30a through an air outlet 300c belonging to the secondary air passage portion 30c.

When the air flows in this way, the air is sequentially heated in the primary and secondary heater parts 30d and 30e installed in the body 30a to maintain a high temperature state. 30d and 30e are provided as follows in this embodiment.

First, referring to the primary heater unit 30d, the primary heater unit 30d is inserted into the primary air passage unit 30b and insulated insulator 300d installed in the body 30a. It is configured to include.

The insulator 300d has a size along the longitudinal direction of the body 30a. Unlike the conventional art, the insulator 300d is formed by being divided into a plurality of predetermined sizes as shown in FIG.

In the present embodiment, the insulating insulator 300d is divided into a plurality and mounted in the stacked structure in the body 30a, and a plurality of holes 302d are formed in the insulating insulator 300d to have a predetermined size. In order to solve the manufacturing workability that can occur when.

Accordingly, the insulator 300d is stacked and installed at the above position by centering the plurality of hole portions 302d formed therein, and the heating portion 304d intersects with the hole portion 302d. Is installed.

In addition, each of the holes 302d is filled with a heat conduction enhancement 306d made of magnesia to improve heat conduction.

In addition, in the present embodiment, a stainless sleeve 308d is inserted into the hole 302d, which compensates for the change in the cross-sectional area of the heating coil 304d when it is acted upon.

Together with the primary heater 30d, the secondary heater 30e is disposed between the primary and secondary air passage portions 30b and 30c to heat the heating coil 300e around the outer circumferential surface thereof. The heat conduction enhancement 302e is formed by sintering at a high temperature with aluminum oxide as a material. (See Figure 4)

When the heat conduction enhancement material 302e is formed by sintering treatment, it has excellent surface strength due to the characteristics of the sintering treatment and further has a property of generating no dust even when broken.

Thus, when the air heater 30 is configured as described above, when air is introduced through the air inlet, the air is circulated through the primary and secondary air passage portions 30b and 30c. This is heated by the primary and secondary heaters 30d and 30e to maintain the hot air in a high temperature state and outflows to the outlet 300c.

On the other hand, during the drying operation of the shadow mask through the above process, if air is injected from the air heater 30, the content of the fine foreign matter in the air is finally injected can be reduced than in the prior art.

That is, when air is injected through the discharge port (300c), the air is maintained at a certain distance apart from the primary heater (30d) and the primary air passage portion (30b), and the 2 This is because the thermal conductivity improving material 300e is sintered as described above even though the distance between the primary heater part 30e is close to the sintered state.

Therefore, the air heater 30 may dry the shadow mask without clogging of the electron beam through hole during the drying operation of the shadow mask by spraying high temperature air in the above state.

On the other hand, although not specifically shown in the drawings through this embodiment, when the action of the air heater 30, the sensor for preventing the air heater 30 is overheated unlike the prior art, the first and second heater unit When installed close to the heating coils 304d and 300e provided on the 30d and 30e sides, the sensor function is further improved to have an advantage of preventing the air heater 30 from overheating.

As described through the above embodiment, the air heater for the drying apparatus according to the present invention, when performing the drying operation with a high temperature air, to spray the air by reducing the content of fine foreign matter that can be included in the air, the drying operation state In addition to being able to achieve good, the state of the product also has the advantage that can be maintained well.

Claims (4)

A body 30a; First and second air passage portions 30b and 30c formed inside the body 30a to reciprocate the air supplied from the outside of the body to flow out of the body; 1 is installed in the body 30a so as to be separately disposed between the primary and secondary air passage portions 30b and 30c, thereby heating the air when the air passes through the primary and secondary air passage portions 30b and 30c. , Secondary heater unit (30d, 30e) is included, characterized in that made for the air heater for drying apparatus. 2. The heater (30d) according to claim 1, wherein the primary heater (30d) comprises: an insulator (300d) arranged in a plurality of stacks with a plurality of holes (302d) formed therein; A heating coil 304d mounted by cross-inserting the respective hole portions 302d; Drying device air heater characterized in that it comprises a heat conduction enhancement (306d) is filled in each of the holes (302d). The air heater according to claim 1, wherein the secondary heater (30e) is provided with a heat conduction enhancement (300e) which is sintered and wound the heating coil (300e) on its outer circumferential surface. 4. The air heater of claim 3, wherein the heat conduction enhancement material 300e is made of aluminum oxide.