KR100836852B1 - Heater using positive thermister element - Google Patents

Abstract

According to the present invention, there is no damage defect of the PTC device, there is no fear of damage and destruction of the insulating layer, and the insulation safety is high, and there is no assembly gap, so that the heat transfer efficiency is improved, and the assembly is easy, the production process is simple and the production cost is reduced. In order to provide a heater using a static thermistor element which can be used, a specific means of the present invention includes a PTC element guide in which the PTC element is assembled; Upper and lower electrode plates respectively positioned on upper and lower surfaces of the PTC element guide and in contact with the PTC element; Upper and lower heat dissipation cases in close contact with upper and lower surfaces of the upper and lower electrode plates to provide a heat transfer area; Fixing clips for fixing both ends of the longitudinal side of the upper and lower heat dissipation case; Each of the upper and lower heat dissipation cases is fixed to the upper and lower surfaces, characterized in that the upper and lower heat dissipation fins for dissipating heat generated by the PTC element.

Heater, Thermistor, PTC, Heat Dissipation Case, Heat Dissipation Fin, Heat Dissipation Grease

Description

Heater using positive thermister element

The following drawings, which are attached in this specification, illustrate preferred embodiments of the present invention, and together with the detailed description of the present invention, serve to further understand the technical spirit of the present invention. It should not be construed as limited to.

1 is an exploded perspective view of a heater using a static thermistor element according to the present invention.

2 is a state diagram of assembly of the PTC element in the heater using the static thermistor element according to the present invention.

3 is an assembled cross-sectional view of a heater using a static thermistor element according to the present invention.

4 is an enlarged view of a portion 'A' of FIG. 3.

Figure 5a and Figure 5b is an exploded perspective view and assembled state of the heater using a conventional static thermistor element.

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

1: fixed clip

2: upper heat sink fin

2-1: Lower Heat Sink Fin

3: upper heat dissipation case

3a, 3a-1: binding groove

3b, 3b-1: hanging jaw

3c, 9c: outer caulking portion

3-1: insulation

5,6: electrode plate

7: PTC device

8: PTC Device Guide

9: bottom heat dissipation case

9-1: Insulation

11: sealing agent

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heater using a static thermistor element, and more particularly, to a heater using a static thermistor element, which maximizes heat dissipation effect, improves insulation safety, and has excellent assembly properties.

A configuration of a heater using a conventional static thermistor element (PTC element) is illustrated in FIGS. 5A and 5B. 5A is an exploded perspective view of a heater using a conventional PTC element, and 5B is an overall perspective view of a heater using a conventional PTC element.

The heater 100 using the conventional PTC device is provided with a body 102 manufactured by extrusion processing as shown in Figures 5a and 5b, the insulating paper for the insulation of the PTC device 104 inside the body 102 ( 106 is assembled, the heat dissipation fin 108 is assembled on the outside of the body 102 for heat dissipation. In addition, electric current is supplied to the PTC element 104 by the electrode plate terminal 109 and the body terminal 102a of the electrode plate 109 assembled to the body 102.

In addition, in order to eliminate the flow of the PTC element 104, the PTC element 104 is inserted into the guide 110, and the electrode plate 109 and the insulating paper 106 are assembled to the lower end thereof.

Therefore, when electricity is applied to the electrode plate terminal 109a and the body terminal 102a at both ends, electricity is supplied to the PTC element 104 through the electrode plate 109 and the body 102, and the electricity is transferred from the PTC element 104. The energy is converted into heat and transferred to the heat dissipation fins 108, and the air is blown to a place where heat is required by the operation of a blower (not shown) to be heated.

The heater 100 using the conventional PTC device configured and operated as described above has the following problems.

First, since the process of inserting the PTC element 104 into the body 102 is very difficult, a large number of damage defects of the PTC element 104 occur.

Second, since electrical insulation is used as the insulating paper 106, when the insulating paper is torn or destroyed by foreign matters, the effect of the insulation is lost.

Third, since the heat dissipation fin 108 is inserted into the body 102, the heat generated from the PTC element 104 is not transferred to the heat dissipation fin 108 due to the assembly gap between the heat dissipation fin 108 and the body 102. Unsuccessful losses result in lower heating efficiency.

Fourth, because the production process is very difficult to assemble the guide, electrode plate, insulating paper, etc. in the body, the overall product defect rate is high, thereby increasing the production cost.

Therefore, the present invention was created in view of the above-mentioned circumstances, and there is no damage of the PTC element, there is no fear of damage and destruction of the insulation layer, and the insulation safety is high, and there is no assembly gap, thereby improving the heat transfer efficiency and assembling. It is an object of the present invention to provide a heater using a static thermistor element that can be easily manufactured, and thus the production process is simple and the production cost can be reduced.

Specific means of the present invention for achieving the above object,

In a heater using a PTC element,

A PTC element guide into which the PTC element is assembled;

Upper and lower electrode plates respectively positioned on upper and lower surfaces of the PTC element guide and in contact with the PTC element;

Upper and lower heat dissipation cases in close contact with upper and lower surfaces of the upper and lower electrode plates to provide a heat transfer area;

A fixing clip for fixing both ends of the upper and lower heat dissipation cases in the longitudinal direction to each other;

Each of the upper and lower heat dissipation cases is fixed to the upper and lower surfaces, characterized in that the upper and lower heat dissipation fins for dissipating heat generated by the PTC element.

In addition, according to the present invention,

On one side of each of the upper and lower heat dissipation case is characterized in that the insulation for electrical insulation with the electrode plate is further coated.

In addition, according to the present invention,

The other side of the upper and lower heat dissipation case is characterized in that the heat dissipation grease is further coated for heat dissipation promotion.

In addition, according to the present invention,

It is characterized in that the sealing agent is formed between the fixing clip and the PTC element guide to form an electrical insulation to eliminate the assembly gap.

In addition, according to the present invention,

Each of the upper and lower heat dissipation cases is provided with a locking groove for preventing the insertion and removal of the fixing groove and the fixing clip into which the fixing clip is inserted, respectively, and the upper and lower heat dissipation cases are respectively provided at both ends in the longitudinal direction. An outer caulking portion for fixing the upper and lower heat sink fins is characterized in that it is further included.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4, a heater 10 using a PTC element according to the present invention is shown.

1 and 2 are an exploded perspective view of the heater and the assembly state of the PTC element using the static thermistor element according to the present invention, Figure 3 is an assembly cross-sectional view of the heater using the static thermistor element according to the present invention, Figure 4 An enlarged view of the 'A' section of 3.

The heater 10 (hereinafter, abbreviated to heater 10) using the PTC element according to the present invention is provided with a PTC element guide 7 in which a plurality of PTC elements 7 are assembled.

On the upper and lower surfaces of the PTC element guide 7, upper and lower electrode plates 5 and 6, which are in electrical contact with the PTC element 7 and have electrode plate terminals 5a and 6a, respectively, are located. The lower electrode plates 5 and 6 are fixed to the PTC element guide 7 by fixing guides 4 and 4-1, respectively.

The upper and lower heat dissipation cases 3 and 9 providing the heat transfer area are in close contact with each of the upper and lower surfaces of the upper and lower electrode plates 5 and 6. Therefore, heat generated in the PTC element 7 is conducted to the upper and lower heat dissipation cases 3 and 9.

Preferably, insulating surfaces 3-1 and 9-1 for electrical insulation with the electrode plates 5 and 6 are coated on one side of each of the upper and lower heat dissipation cases 3 and 9.

The insulations 3-1, 9-1 may be, for example, special ceramics, polymers, fluorine and the like. At this time, the insulation (3-1, 9-1) is applied to the upper and lower heat dissipation cases (3, 9) to form an electrical insulation layer through a predetermined drying time at a constant drying temperature inside the drying furnace.

The upper and lower heat dissipation cases 3 and 9 are latched to prevent insertion and removal of the binding grooves 3a and 3a-1 and the fixing clip 1 into which the fixing clips 1 to be described later are inserted at ends of the longitudinal direction, respectively. The jaw 3b, 3b-1 is provided (refer FIG. 4).

The upper and lower heat dissipation cases 3 and 9 are interconnected and fixed by fixing clips 1 and 1-1. Fixing clip (1,1-1) in the present embodiment substantially 'c' shape of the upper and lower heat dissipation case (3,9) both ends in the longitudinal direction of the elastic end (1a) mutually.

Upper and lower heat dissipation fins 2, 2-1 for dissipating heat generated by the PTC element 7 are provided on the upper and lower surfaces of the upper and lower heat dissipation cases 3 and 9, respectively.

The upper and lower heat dissipation fins 2 and 2-1 are formed by upper and lower heat dissipation cases 3 and 9 by caulking outer ends 3c and 9c formed at both ends in the longitudinal direction of the upper and lower heat dissipation cases 3 and 9. It is fixed to 9). In addition, the upper and lower heat dissipation fins 2 and 2-1 secure the PTC element guide 8 through the inner caulking portions 3d and 3d.

Preferably, the heat dissipation grease 3-2 is provided on the other side of the upper and lower heat dissipation cases 3 and 9 so as to facilitate heat dissipation from the upper and lower heat dissipation cases 3 and 9 to adjacent heat dissipation fins 2 and 2-1. 9-2) is preferably applied.

In addition, a sealing agent 11 is filled between the fixing clip 2 and the PTC element guide 8 to insulate electricity from moisture or water.

The heater 10 configured as described above is assembled with components up and down symmetrically based on the PTC element 7 assembled to the PTC element guide 8 as shown in FIGS. 3 and 4.

At this time, the upper and lower heat dissipation cases 3 and 9 are fixed to the PTC element guide 8 through the inner caulking portions 3d and 9d as shown in FIG. 4, and the upper and lower heat dissipation fins 2 and 2-1 are upper and lower portions. The outer caulking portions 3c and 9c of the heat dissipation cases 3 and 9 are fixedly assembled to the upper and lower heat dissipation cases 3 and 9.

The operation of this embodiment constructed and assembled in this way will be described.

First, when electricity is applied to the electrode plate terminals 5a and 6a, electricity is supplied to the PTC element 7 through the electrode plates 5 and 6, and the PTC element 7 is about 240 deg. The temperature is raised to ˜250 ° C.

The elevated temperature heated by the PTC element 7 is transferred to the upper and lower heat dissipation cases 3 and 9, and heat is released to the outside through the heat dissipation fins 2 and 2-1 to enable heating.

At this time, between the upper and lower heat dissipation cases (3,9) and the heat dissipation fins (2,2-1), the coated heat dissipation spools (3-2, 9-2) eliminate the assembly gap to maximize the effect of heat transfer. . In order to increase the heat dissipation efficiency of the heat dissipation fins (2, 2-1) to be blown by a blowing fan (not shown) to obtain more heat dissipation effect.

On the other hand, the insulation (3-1, 9-1) is applied to one side of the upper and lower heat dissipation cases (3, 9) to perform electrical insulation to ensure safety. At this time, the insulation (3-1, 9-1) is applied and dried to have a semi-permanent life.

In addition, the heater 10 of the present invention is filled with the sealing agent 60 in the gaps around the upper and lower heat dissipation cases (3, 9) to exhibit an insulating effect such as water or moisture generated during use.

In addition, the fixing clip (1,1-1) is inserted into the engaging groove (3a, 3a-1) of the upper and lower heat dissipation case (3,9) of the elastic bent portion (1a, 1a) at both ends of the locking jaw (3b) -3b-1) is elastically locked so that the upper and lower heat dissipation cases (3,9) are completely in close contact with the neighboring electrode plates (5,6), thereby maximizing the thermal efficiency of electrical energy.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

As described above, according to the heater using the positive characteristic thermistor element of the present invention, since the upper and lower heat dissipation cases are stacked on the PTC element, there is no damage failure of the PTC element. In addition, since the insulation is laminated in a state in which the insulation is applied to the upper and lower heat dissipation cases, there is no fear of damage or destruction of the insulation layer, and thus insulation safety is high. In addition, the heat dissipation grease eliminates the assembly gap with the heat dissipation fins, and thus has high heat transfer efficiency. The heat dissipation grease has an effect of reducing the production cost due to the easy assembly and the simple production process.

Claims (5)

delete In a heater using a PTC element, A PTC element guide 8 into which the PTC element 7 is assembled; Upper and lower electrode plates 5 and 6 positioned on the upper and lower surfaces of the PTC element guide 8 and in contact with the PTC element 7; Upper and lower heat dissipation cases 3 and 9 in close contact with upper and lower surfaces of the upper and lower electrode plates 5 and 6 to provide a heat transfer area; Fixing clips (1,1-1) for fixing both ends of the longitudinal side of the upper and lower heat dissipation cases (3,9), The upper and lower heat dissipation case (3,9) is fixed to the upper and lower surfaces of each of the upper and lower heat dissipation fins (2,2-1) for dissipating the heat generated by the PTC element (7), One side of each of the upper and lower heat dissipation cases (3, 9) is characterized in that the insulating material (3-1, 9-1) for electrical insulation with the electrode plates (5, 6) is applied Heater using thermistor element. delete delete In a heater using a PTC element, A PTC element guide 8 into which the PTC element 7 is assembled; Upper and lower electrode plates 5 and 6 positioned on the upper and lower surfaces of the PTC element guide 8 and in contact with the PTC element 7; Upper and lower heat dissipation cases 3 and 9 in close contact with upper and lower surfaces of the upper and lower electrode plates 5 and 6 to provide a heat transfer area; A fixing clip (1,1-1) for fixing both ends of the upper and lower heat dissipation cases (3,9) in the longitudinal direction to each other; The upper and lower heat dissipation case (3,9) is fixed to the upper and lower surfaces of each of the upper and lower heat dissipation fins (2,2-1) for dissipating the heat generated by the PTC element (7), Locking preventing the insertion and removal of the binding grooves (3a, 3a-1) and the fixing clip (1) into which the fixing clip (1) is inserted into the end portions of the upper and lower heat dissipation cases (3, 9) in the longitudinal direction, respectively. The jaw (3b, 3b-1) is provided, the upper and lower heat dissipation case (3, 9) is composed of the outer caulking portion (3c, 9c) for fixing the upper and lower heat dissipation fins at both ends in the longitudinal direction, respectively A heater using a static thermistor element characterized by the above-mentioned.

Images