KR101108037B1 - Heater assembly for Clothes Drier - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heater assembly for a dryer, and in particular, a heater assembly which prevents a phenomenon in which a water film is generated on the surface of each coil support plate, thereby preventing the conduction between the heating coil and the heater case. It is about.

To this end, the present invention provides a heater case forming an appearance; A plurality of coil support plates fixedly spaced apart from each other along the transverse direction in the heater case; A heating coil which is supported by the coil support plates and generates hot heat due to its heat generation; And, a heater assembly for a dryer is formed, which is formed on the surface of each of the coil support plate, the water film prevention unit for preventing the occurrence of water film due to condensate on the surface of each coil support plate is provided. .

Dryer, heater assembly, heater support plate, water film prevention part, hydrophobic coating

Description

Heater assembly for clothes Drier}

1 is a perspective view schematically showing a structure of a heater assembly for a conventional dryer

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

3 is a cross-sectional view showing a state in which an insulation plate is further provided in a conventional heater assembly for a dryer.

Figure 4 is a longitudinal sectional view of the structure of the heater assembly for a dryer according to the first embodiment of the present invention from a front view;

Figure 5 is a longitudinal sectional view of the structure of the heater assembly for a dryer according to a second embodiment of the present invention from a front view;

Figure 6 is an exploded perspective view of the main portion for explaining the relationship between the heater support plate and the water film prevention portion of the heater assembly for a dryer according to a third embodiment of the present invention

Explanation of Signs of Major Parts of Drawings

110. Heater case 120. Coil support plate

130. Heating coil 150. Water film prevention

251. Hydrophobic Coating 250. Coating Sheet

The present invention relates to a dryer for drying clothes, and more particularly, to a structure of a heater assembly for generating hot air.

In general, a dryer is a device that blows hot air generated by a heater into a drum to absorb moisture of a drying object, thereby drying the drying object.

Such a dryer is classified into an exhaust type clothes dryer and a condensation type clothes dryer according to the treatment method of the wet air generated by drying the object by absorbing moisture.

Here, the exhaust type clothes dryer uses a method of discharging the humid air discharged from the drum to the outside of the dryer, the condensation type clothes dryer to condense the wet air discharged from the drum by the heat exchange action in the condenser to remove moisture and moisture A recycle method is used in which the removed dry air is heated in the heater assembly and then fed back to the drum to dry the laundry.

1 and 2 are shown a heater assembly applied to the condensation type clothes dryer of the above-mentioned conventional clothes dryer.

That is, as shown in the drawing, the heater assembly according to the related art has a heater case 11 having a large appearance and a plurality of coil support plates 12 fixed to be spaced apart at regular intervals along the transverse direction in the heater case 11. And a heating coil 13 continuously installed through the coil support plates 12.                         

At this time, the heater case 11 is mainly formed of a steel plate material due to its convenience in processing, and has an air inlet (11a) that is opened to allow the inflow of air to the front of the heater case (11) and the rear of the air It has an air outlet 11b which is opened so that an outflow may take place.

In addition, each of the coil support plates 12 is formed so that the heating coil 13 is not in contact with the heater case 11 and is formed of a ceramic which is usually an insulating material.

The action of the heater assembly according to the prior art configured as described above is as follows.

First, air is introduced into the heater case 11 through the air inlet 11a of the heater case 11 and then flows inside the heater case 11.

At this time, the heating coil 13 installed inside the heater case 11 generates heat as power is supplied, and the air passing through the heater case 11 generates heat of the heating coil 13. Heated by

In addition, the air heated to a high temperature while passing through the heating coil 13 is discharged to the outside of the heater case 11 through the air outlet 11b of the heater case 11, and continues the drying duct (not shown). It is supplied to the inside of a drum such as a clothes dryer or a drum washing machine under the guidance of.

Thus, the laundry inside the drum is dried by hot air supplied into the drum.

However, the heater assembly according to the related art as described above has a problem in that a short occurs due to breakdown of the insulation between the metal heater case 11 and the heating coil 13.

This is because the heating coil 13 and the heater case while the predetermined condensate flowing into the heater case 11 flows down the surface of each coil support plate 12 to the bottom surface of the heater case 11 during the drying process. 11) because it served as a conductor of the liver.

That is, since the condensed water does not flow smoothly on the surface of the coil support plate 12, and a thin water film a is formed on the surface of the coil support plate 12, the heating coil 13 And insulation between the heater case 11 is broken.

In the related art, as shown in FIG. 3, a separate insulating plate 14 made of mica is further mounted on the inner bottom surface of the heater case 11 to condense water flowing down the surface of each coil support plate 12 to the coil support plate. Insulation between the heating coil 13 and the heater case 11 can be maintained even if the water film a is formed on the surface of (12).

However, the above-described structure also has to increase the overall manufacturing cost for manufacturing the heater assembly in consideration of the high cost of the insulating plate (14).

The present invention has been made to solve the conventional problems as described above, the object of the present invention is to prevent the occurrence of water film on the surface of each coil support plate (condensation) between the heating coil and the heater case It is to provide a heater assembly that can be prevented in advance.

According to an aspect of the present invention for achieving the above object, a heater case for forming an appearance; A plurality of coil support plates fixedly spaced apart from each other along the transverse direction in the heater case; A heating coil which is supported by the coil support plates and generates hot heat due to its heat generation; And, it is formed on the surface of each coil support plate, on the surface of each coil support plate to provide a heater assembly for a dryer comprising: a water film prevention unit for preventing the occurrence of water film due to condensed water. .

Hereinafter, exemplary embodiments of the heater assembly for a dryer according to the present invention will be described in detail with reference to FIGS. 4 to 6 as follows.

First, Figure 4 attached is shown a heater assembly for a dryer according to a first embodiment of the present invention.

That is, the heater heater assembly according to the first embodiment of the present invention includes a heater case 110, a plurality of coil support plates 120, and a heater coil assembly including a heating coil 130 to prevent water film ( 150) is further included and characterized in that the configuration.

Here, the heater case 110 forms the exterior of the heater assembly, and has an air inlet 111 that is opened to allow the inflow of air to the front thereof and is opened to allow the air to flow out to the rear thereof. Has an air outlet 112.

In addition, the coil support plates 120 are fixedly spaced apart from each other along the lateral direction in the heater case 110, and the heating coil 130 is formed so as not to contact the heater case 110. The coil support plate 120 is preferably formed of an insulating material ceramic.                     

In addition, the heating coil 130 penetrates the coil support plates 120 to form at least one row and column, and generates heat to generate high temperature heat.

The heating coil 130 serves to heat the air passing through the heater case 110 to increase the temperature.

In addition, the water film preventing unit 150 is formed on the surface of each coil support plate 120.

The water film preventing unit 150 serves to prevent the water film (水膜) generated by the condensed water on the surface of each of the coil support plate (120).

In this case, the water film preventing unit 150 is preferably made of a hydrophobic coating agent, it may be formed by coating along the entire surface of each coil support plate (120).

The hydrophobic coating agent is a coating agent made of a material having a chemical property that does not have affinity with water.

That is, by coating the hydrophobic coating agent on the entire surface of each coil support plate 120, the water film may be prevented from being formed in the contact area with the heating coil 130 to the contact area with the heater case 110.

Therefore, even when condensate or various moisture penetrates into the heater assembly and splashes on the surface of each coil support plate 120 as the heater assembly is operated, the condensate is coated on the entire surface of each coil support plate 120. That is, the hydrophobic coating agent, that is, the water film preventing unit 150 does not form a water film, but forms a drop (C) state as directly attached to the flow in the direction of gravity immediately after being discharged to the outside through the bottom surface of the heater case (110).

For this reason, the occurrence of a conductive between the heating coil 130 and the heater case 110 can be prevented.

On the other hand, the water film preventing unit 150 does not have to be coated on the entire surface of each coil support plate 120 as in the first embodiment described above.

That is, as shown in the accompanying FIG. 5 shown in the second embodiment of the present invention, the water film preventing unit 150 may be formed only around a part of the surface of each coil support plate 120.

In particular, the water film preventing unit 150 is formed by coating along a part of the circumference between the portion where the heating coil 130 is connected and the portion where the heater case 110 is connected among the surfaces of the coil support plates 120. This is preferred.

Therefore, since the water film (water) is prevented from being coated on the water film preventing unit 150, the conductivity between the heating coil 130 and the heater case 110 is blocked at the source, thereby preventing short. Can be.

On the other hand, the water film preventing unit 150 according to the first and second embodiments of the present invention described above is not limited to being formed by directly coating the hydrophobic coating agent on each of the coil support plate (120).

That is, as shown in Figure 6 attached to the third embodiment of the present invention, the water film preventing part is made of a separate coating sheet 250 coated with a hydrophobic coating agent 251 and then attached to the surface of each coil support plate 120 By doing so, it may be possible to prevent the conductive coil between the heating coil 130 and the heater case 110 due to water film generation.                     

On the other hand, the structure of the heater assembly according to each embodiment of the present invention can be applied not only to the clothes dryer, but also to a combined drum washing machine, it can be applied to various devices for other drying.

As described above, a phenomenon in which a thin film of water due to condensation is generated on the surface of each coil support plate is prevented by the structure according to the film preventing portion of each embodiment of the heater assembly for a dryer of the present invention.

This prevents the electrical conduction between the heating coil and the heater case in advance, and has an effect of improving stability in use.

Claims (6)

A heater case forming an appearance; A plurality of coil support plates fixedly spaced apart from each other along the transverse direction in the heater case; A heating coil which is supported by the coil support plates and generates hot heat due to its heat generation; And, And a water film preventing unit formed on a surface of each coil support plate to prevent water film generation due to condensation on the surface of each coil support plate. The method of claim 1, The water film prevention unit Dryer heater assembly, characterized in that formed on the circumference between the portion of the surface of each coil support plate is connected to the heating coil and the portion where the heater case is connected. The method of claim 2, The water film prevention unit And a hydrophobic coating agent is formed by coating a portion along a circumference between a portion of the surface of each coil support plate to which a heating coil is connected and a portion to which a heater case is connected. The method of claim 1, The water film prevention unit Dryer heater assembly, characterized in that formed along the entire surface of each coil support plate. The method of claim 4, wherein The water film prevention unit Dryer heater assembly, characterized in that formed by coating a hydrophobic coating on the entire surface of each coil support plate. The method of claim 1, The water film prevention unit Dryer heater assembly characterized in that the hydrophobic coating is made of a separate coating sheet coated with and then attached to the surface of each coil support plate.

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