KR100537528B1 - Heater that use positive temperature coefficient thermistor - Google Patents

Abstract

The present invention is to provide a heater using a constant temperature heating element to protect the constant temperature heating element from the outside by an aluminum tube, simplifying the fabrication and assembly process by simplifying the combination of the aluminum tube and the radiating fins.

In addition, the present invention provides a heater using a constant temperature heating element to stably fix the position of the constant temperature heating element by the projection formed on the terminal plate, the terminal plate is inserted into the aluminum tube to prevent leakage of external foreign matter and moisture in advance. It is.

In addition, the present invention is to provide a heater using a constant temperature heating element to achieve excellent overall assembly and productivity, to improve the reliability and efficiency of the product to maximize the use satisfaction by using it.

To this end, the present invention forms a terminal plate for fixing the constant temperature heating element in a certain position, the terminal plate is provided with a terminal for applying power to combine with an aluminum tube, to form a heat radiation fin to increase the thermal conductivity, the heat radiation fin And the aluminum tube is mechanically coupled to the heater to be configured to increase the conductivity and thermal conductivity of electricity when applying power to the constant temperature heating element.

Description

Heater using constant temperature heating element {HEATER THAT USE POSITIVE TEMPERATURE COEFFICIENT THERMISTOR}

The present invention relates to a heater for increasing the conductivity and thermal conductivity of electricity using a constant temperature heating element,

More specifically, to form a terminal plate for fixing the constant temperature heating element in a certain position, the terminal plate is provided with a terminal for applying power to combine with the aluminum tube, to form a heat radiation fin to increase the thermal conductivity, and The aluminum tube is mechanically coupled to configure the heater to increase the electrical conductivity and thermal conductivity when applying power to the constant temperature heating element, thereby protecting the constant temperature heating element from the outside by the aluminum tube and at the same time By simplifying the coupling of the heat radiation fins to simplify the manufacturing and assembly process, and by fixing the position of the constant temperature heating element by the projections formed on the terminal plate to ensure that the terminal plate is inserted into the aluminum tube by the foreign matter and moisture To prevent a short circuit in advance Therefore, the present invention relates to a heater using a constant temperature heating element to maximize overall assembly performance and productivity while improving reliability and efficiency of a product and maximizing satisfaction in using the same.

As is generally known, a positive temperature heating element (Positive Temperature Coefficient Thermistor) has a characteristic that the electrical resistance rapidly rises above a certain temperature. Therefore, when a voltage is applied, a magnet that becomes a constant temperature regardless of the ambient temperature It has a temperature control function.

In recent years, the field of application as a heating element using the above functions has been widened, and it is possible to use it as a heating heater by joining it with a heat radiating fin having excellent thermal conductivity so as to dissipate the heat generated after aggregating an appropriate number of such constant temperature heating elements. .

In this way, the heater using the constant temperature heating element is bonded to the constant temperature heating element and the radiating fin using an adhesive, which is a problem that the short circuit occurs because the constant temperature heating element is exposed to the outside, the temperature that the adhesive can withstand There is a problem that can only be used below.

In addition, in the heater that does not use the adhesive, there is a heater using a heat sink that can be radiated in multiple layers and a heater using a single heat sink, but in the case of combining multiple heat sinks, a process of manufacturing and producing This becomes complicated, and there is a problem in that the process of mechanically coupling in the case of using a single heat radiation fin.

Therefore, the conventional heater using a constant temperature heating element has a limit to the efficiency to some extent, the overall economical efficiency in the production and manufacture of this, and even if applied to the product used when the problem of minimizing the reliability of use It is always implied.

The present invention has been made to solve the problems of the prior art as described above has the following object.

An object of the present invention is to provide a heater using a constant temperature heating element to protect the constant temperature heating element from the outside by an aluminum tube, simplifying the fabrication and assembly process by simplifying the combination of the aluminum tube and the radiating fins.

Another object of the present invention is to use a constant temperature heating element to stably fix the position of the constant temperature heating element by the projection formed on the terminal plate, and to prevent the leakage of the external foreign matter and moisture by allowing the terminal plate to be inserted into the aluminum tube. To provide a heater.

Still another object of the present invention is to provide a heater using a constant temperature heating element that achieves excellent overall assembly performance and productivity, and improves reliability and efficiency of a product, thereby maximizing satisfaction in using the same.

In order to achieve the above object of the present invention, to form a terminal plate for fixing the constant temperature heating element in a certain position, the terminal plate is provided with a terminal for applying power to the heat dissipation fin to combine with the aluminum tube, increasing the thermal conductivity The heater and the heat dissipation fin and the aluminum tube are mechanically coupled to each other to form a heater to increase electrical conductivity and thermal conductivity when power is applied to the constant temperature heating element.

Hereinafter, with reference to the embodiment for achieving the above-described present invention will be described in detail.

First, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The following terms are terms set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer, and the definitions should be made based on the contents throughout the present specification.

First, as shown in the accompanying drawings, Figures 1 to 5, Figure 1 is a perspective configuration for showing the appearance of the heater carried out by the present invention, Figure 2 is an exploded configuration for explaining the heater according to the present invention 3 is a partially enlarged configuration diagram showing a terminal plate according to the present invention, Figures 4a and 4b is an exemplary view showing a combined state of the aluminum tube and the heat radiation fins implemented by the present invention, Figure 5 Shows an exemplary configuration showing a terminal holder according to the present invention.

That is, in the heater including the constant temperature heating element 60 formed by integrating a plurality of constant temperature heating elements 61, the present invention is to fix the position of each of the constant temperature heating elements 60 with respect to the constant temperature heating element 61. The terminal plate 50 having a plurality of positioning protrusions 52 and 53 is formed, and an insulating material 40 is formed at the lower end of the terminal plate 50 on which the constant temperature heating element 60 is fixed. The formed constant temperature heating element 60, the terminal plate 50, and the insulating material 40 are inserted into the inner guide hole 32 of the aluminum tube 30 for easily coupling the heat dissipation fin 10 and the two-stage heat dissipation fin 20, respectively. Mounted stably, the heat sink 12 is slid and fastened to the guide 31 provided on the upper portion of the aluminum tube 30 so as to reliably couple the heat radiating fins 10, and is provided below the aluminum tube 30. Guide (33) to stably couple the two-stage heat sink fin (20) The heat dissipation plate 21 is slid and fastened, and the lower end of the two-stage heat dissipation fin 20 is provided with an aluminum tube 30a and a heat dissipation fin 10a, respectively, and the constant temperature is set in the inner guide hole 32a of the aluminum tube 30a. The heating element 60a, the terminal plate 50a, and the insulating material 40a are inserted and stably mounted, and the terminal holders 70 and 80 are formed at both ends thereof to integrate the components.

Burring terminal 13 for easily supplying power to one end of the heat dissipation plate 11 formed on the top of the heat dissipation fin 10 and one end of the heat dissipation plate 11a formed on the bottom of the heat dissipation fin 10a. 13a) is made of a combination of rivets.

The guide of the aluminum tube 30, 30a is made of '' 'on both sides in order to easily couple the heat radiation fins 10, 10a, 20.

In addition, the heat dissipation fins 10, 10a and 20 are formed to have a smaller width than the aluminum tubes 30 and 30a so as to be stably coupled and integrated.

At one end of the terminal plates 50 and 50a, terminals 51 and 51a for easily supplying power are formed, respectively.

A fastening hole is formed in the aluminum tubes 30 and 30a to be fastened to each of the hook portion 71 formed on the inner side of the terminal holder 70 and the hook portion (not shown) formed on the inner side of the terminal holder 80. 34 and 34a are formed respectively.

The heater 1 having the above configuration basically consists of two heat radiation fins, an aluminum tube, a constant temperature heating element, a terminal plate, and an insulating material in one two-stage heat dissipation fin 20, but according to the use to which the producer and the manufacturer are applied It can be achieved by selectively increasing the above components in order to achieve a large performance of the bar, which is a technology without departing from the scope of the present invention.

Accordingly, the configuration of the heater 1 according to the present invention can be variously modified and can take various forms.

It is to be understood, however, that the present invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to do.

First, the heater 1 of the present invention is to increase the electrical conductivity and thermal conductivity of electricity when power is supplied using a plurality of constant temperature heating element (61).

To this end, the constant temperature heating element 61 is integrated into a plurality to form a constant temperature heating element 60, and each of the constant temperature heating element 61 of the constant temperature heating element 60 is provided with a plurality of terminal plates 50 The fixing protrusions 52 and 53 are stably fixed to the position, and an insulating material 40 is formed below the terminal plate 50.

At this time, the constant temperature heating element 60, the terminal plate 50 and the insulating material 40 formed in the above is inserted into the inner guide hole 32 of the aluminum tube 30 in a unified state to be stably mounted.

In addition, in the inner guide hole 32a of the aluminum tube 30a, the constant temperature heating element 60a, the terminal plate 50a, and the insulating material 40a formed of a plurality of constant temperature heating elements 61a are integrated with the aluminum tube 30 described above. In the same manner as the inner guide hole 32 is inserted into it is mounted stably.

The heat dissipation fins 10, 10a or the two-stage heat dissipation fins 20 are respectively coupled to the upper and lower portions of the aluminum tubes 30 and 30a, which are configured as described above. 10) (10a) 20 to make the guide provided on both sides of the 'c' shape to easily combine and stably integrate, the heat radiation fins (10) (10a) (20) is an aluminum tube (30) It is made to have a width smaller than (30a).

That is, the heat dissipation plate 12 provided on the lower portion of the heat dissipation fin 10 is slid into the 'c' shape and fastened to the guide 31 provided on the upper portion of the aluminum tube 30, and the aluminum tube 30 The heat sink 21 provided on the upper portion of the two-stage heat sink fin 20 is slid into the 'c' shape to the guide 33 provided at the bottom of the).

In addition, the heat dissipation plate 22 provided at the lower portion of the two-stage heat dissipation fin 20 is coupled to the guide 31 a provided on the upper portion of the aluminum tube 30 a by sliding into the 'c' shape, and the aluminum tube The heat dissipation plate 11a provided on the upper portion of the heat dissipation fin 10a is slid into the 'c' shape to the guide 33a provided at the lower portion of the 30a.

In order to supply power to the heater 1 made as described above, the one end of the heat sink 11 formed on the top of the heat dissipation fin 10, the burring terminal 13 is processed by rivets to be integrated, the heat dissipation fin ( At one end of the heat dissipation plate 12a formed at the bottom of 10a, the burring terminal 13a is processed by a rivet to be integrated, and '+' power is applied to each of the burring terminals 13 and 13a.

In addition, a terminal 51 is formed at one end of the terminal plate 50, and a terminal 51a is formed at one end of the terminal plate 50a, and each of the terminals 51 and 51a is formed. '-' Power will be applied.

In order to stably integrate the heater 1 composed of the above components, terminal holders 70 and 80 are formed on both sides of the heater 1, respectively, and the terminal holder 70 has a protruding burring terminal. (13) It is made to protrude to the outside to protect the 13a and the terminal (51) (51a).

In addition, fastening holes 34 and 34a are formed at both sides of the aluminum tubes 30 and 30a, respectively, which are hook portions 71 and terminal holders formed on the upper and lower portions of the terminal holder 70. 80 is formed so that the hook portion (not shown) formed in the upper and lower portions of the inner side can be fitted into each other.

When looking at the present invention based on this, the constant temperature heating element and the insulating material is inserted into the aluminum tube in a state coupled to and mounted on the terminal plate, the heat radiation fin and the two-stage heat radiation fin can be easily coupled and mounted to the aluminum tube mechanically The manufacturers and producers can clearly see that the assembly and productivity is excellent, the position of each of the constant temperature heating element of the constant temperature heating element is stably fixed by the position fixing projection formed on the terminal plate, the constant temperature heating element and the terminal plate Since it is mounted in an aluminum tube, it is possible to protect from foreign substances introduced from the outside, and at the same time, leakage of water can be prevented.

As described above, the present invention has the effect that the constant temperature heating element is protected from the outside by the aluminum tube and the effect of simplifying the combination of the aluminum tube and the heat dissipation fin to simplify the manufacturing and assembly process, the constant temperature by the projection formed on the terminal plate The overall assembly and productivity are excellent due to the effect that the position of the heating element is stably fixed and the terminal plate is inserted into the aluminum tube to prevent leakage of external foreign matter and moisture in advance. This improvement can be achieved simultaneously, such as maximizing the satisfaction of using the application.

1 is a perspective configuration diagram for showing the appearance of a heater implemented by the present invention,

2 is an exploded configuration diagram for explaining a heater according to the present invention;

3 is a partially enlarged configuration view showing a terminal plate according to the present invention;

4a and 4b is an exemplary view showing a combined state of the aluminum tube and the heat dissipation fins implemented by the present invention,

5 is an exemplary view showing a terminal holder according to the present invention.

<Description of the code | symbol about the principal part of drawing>

1: Heater 10,10a: Heat radiation fin

11,11a, 12,12a, 21,22: heat sink 13,13a: burring terminal

20: 2-stage heat sink fin 30,30a: Aluminum tube

31,31a, 33,33a: Guide 32,32a: Guide ball

34,34a: Fastening hole 40,40a: Insulation material

50,50a: Terminal board 51,51a: Terminal

52,53: position fixing projection 60,60a: constant temperature heating element

61, 61a: Constant temperature heating element 70, 80: Terminal holder

71: hook portion

Claims (5)

In the heater having a constant temperature heating element 60 formed by integrating a plurality of constant temperature heating elements 61, In order to fix the position of each of the constant temperature heating element 61 of the constant temperature heating element 60, a terminal plate 50 having a plurality of positioning protrusions 52, 53 is formed, and the constant temperature heating element 60 is An insulating material 40 is formed at the lower end of the fixed position terminal plate 50, The constant temperature heating element 60, the terminal plate 50, and the insulating material 40 formed in the above are provided in the inner guide hole 32 of the aluminum tube 30 for easily coupling the heat dissipation fin 10 and the two-stage heat dissipation fin 20, respectively. Inserted and reliably mounted, The heat sink 12 is slid and fastened to the guide 31 provided at the upper portion of the aluminum tube 30 so as to stably couple the heat dissipation fin 10, and the guide 33 provided at the lower portion of the aluminum tube 30. The heat sink 21 is slid and fastened so as to stably couple the two-stage heat sink fins 20, An aluminum tube 30a and a heat dissipation fin 10a are respectively provided at the lower end of the two-stage heat dissipation fin 20, and the inner guide hole 32a of the aluminum tube 30a has a constant temperature heating element 60a, a terminal plate 50a, and A heater using a constant temperature heating element, characterized in that the insulating material (40a) is inserted and stably mounted, and terminal holders (70) (80) are formed at both ends for integration with the components. The method of claim 1, The guide of the aluminum tube (30) (30a) is a heater using a constant temperature heating element, characterized in that the 'c' shape on both sides in order to easily combine the heat radiation fins (10) (10a, 20). The method according to claim 1 or 2, The heat dissipation fin (10) (10a, 20) is a heater using a constant temperature heating element, characterized in that the width is made smaller than the aluminum tube (30) (30a) to be coupled and integrated stably. The method of claim 1, Heater using a constant temperature heating element, characterized in that the terminal 51 (51a) for easy supply of power is formed at one end of the terminal plate (50) (50a), respectively. The method of claim 1, Fastening holes 34 and 34a in the aluminum tubes 30 and 30a so as to be fastened to the hook portions 71 formed inside the terminal holder 70 and the hook portions formed inside the terminal holder 80, respectively. Heaters using a constant temperature heating element, characterized in that each is formed.