KR20110048713A - Heat rod assembly - Google Patents

Abstract

The present invention relates to a heat rod assembly.

The present invention provides an PTC device, an insulator that forms an arrangement groove so that the PTC device is disposed, and an coupling groove formed on upper and lower surfaces of both ends, respectively, and a support part and the support part disposed on the upper and lower surfaces of the insulator to support the PTC device. And a pair of terminals formed at both ends and forming a coupling part coupled to the coupling groove, and a heat dissipation fin fixed to the outer surface of the pair of terminals.

In the heat rod assembly of the present invention as described above by inserting the terminal on both ends of the insulator can increase the bondability and assemblability, and also has the effect of reducing the cost.

Description

Heat Rod Assembly

The present invention relates to a heat rod assembly, and more particularly, to a heat rod assembly capable of improving assembly performance, productivity, and cost by improving a heat rod assembly that preheats a vehicle interior using heat generated by a PTC element. .

In general, a heating device for preheating the vehicle's interior air is installed inside the vehicle, and a heating device using a PTC (Positive Temperature Coefficient) element is typical of such a heating device. Heat is generated through the heat rod assembly installed in the.

1 is a perspective view showing a conventional heat rod assembly.

As shown in FIG. 1, the conventional heat rod assembly includes a PTC element 10 that generates heat as power is supplied, a conductive plate 20 installed to contact both surfaces of the PTC element 10, and the conductive portion. It includes a heat dissipation fin 30 is installed on the outside of the plate 20.

In addition, the outer surface of the conductive plate 20 is provided with a case 40 having a heat dissipation fin 30 therein so as to allow the outside air to flow, and the case of both sides with the PTC element 10 and the conductive plate 20 provided therein. Fixing bar 50 for fixing the (40) is provided.

However, the conventional heat rod assembly requires a separate case 40 to fix the heat dissipation fin 30 to the conductive plate 20, and furthermore, a fixing bar 50 is required to couple the case 40 on both sides. Because of this, there was a problem that the production cost increases, there was a problem in that productivity and assembly properties are poor.

The present invention has been made to solve the above problems, an object of the present invention to simplify the structure of the heat rod assembly to provide a heat rod assembly that can reduce productivity, assembly and cost.

Heat rod assembly of the present invention for achieving the above object is a PTC element; An insulator forming an arrangement groove so that the PTC element is disposed, and coupling grooves formed on upper and lower surfaces of both ends; A pair of terminals disposed on the top and bottom surfaces of the insulator, respectively, for supporting a PTC device, and a pair of terminals formed at both ends of the support and coupled to the coupling grooves; And a heat dissipation fin fixed to the outer surface of the pair of terminals.

Ribs for pressing and fixing both sides of the heat radiation fins are formed in the longitudinal direction on the outer edge of the support.

The rib is characterized in that formed inclined in the direction of the heat radiation fin.

The insulator is characterized in that the insert is produced by insert injection in a state in which a pre-fabricated PTC element is placed in the mold.

In the heat rod assembly of the present invention as described above, by coupling the terminal to both ends of the insulator can increase the bondability and assemblability, there is an effect that can reduce the cost.

Hereinafter, the heat rod assembly of the present invention will be described in detail with reference to FIGS. 2 to 4.

The heat rod assembly of the present invention can increase the coupling and assembly of the insulator and the terminal and the terminal and the heat dissipation fin, and can also increase the ease of manufacturing by inserting and inserting the PTC terminal and the insulator integrally.

As described above, the heat rod assembly 100 of the present invention includes a plurality of PTC elements 110, an insulator 120 on which the PTC elements 110 are disposed, and the insulator 120. A pair of terminals 130 are respectively supported on the top and bottom of the) and the heat dissipation fin 140 is fixed to the outer surface of the pair of terminals (130).

Hereinafter, the heat rod assembly 100 of the present invention will be described in more detail.

The PTC (Positive Temperature Coefficient) device 110 is a barium titanate-based ceramic, which is a semiconductor device whose electrical resistance increases rapidly when the temperature rises. Since the PTC device, which is a known technology, is used, a detailed description thereof will be omitted.

The insulator 120 forms an insertion hole 121 for inserting the plurality of PTC elements 110 on an upper surface thereof, and arranges and positions the PTC element 110 on an inner circumferential surface of the insertion hole 121. The groove 122 is formed, and the coupling groove 123 for coupling the terminal to be described later is formed to penetrate in the longitudinal direction on the upper and lower surfaces of both ends.

Here, the insulator 120 is preferably manufactured using insert injection, and more preferably, after placing the PTC element 110 in a position for placing the PTC element 110 in the mold, The synthetic resin is injected through the nozzle to manufacture the insulator 120 in which the PTC element 110 is integrally formed.

Therefore, by insert-injecting the insulator 120 in which the PTC element 110 is integrally formed, it is possible to secure electric heat resistance, and prevent shorting by preventing the inflow of foreign substances.

As shown in FIG. 4, the terminal 130 is formed in a pair and disposed on the top and bottom surfaces of the insulator 120 to support the PTC device 110 inserted into the insulator 120. The plate-shaped support portion 131 having the same shape as the upper and lower surfaces of the insulator 120 and extending to both ends of the support portion 131, the coupling portion 132 is fitted into the coupling groove 123 to be coupled Include.

That is, the terminal 130 is fitted to the bottom and bottom surfaces of the terminal 130 by fitting the coupling part 132 into the coupling groove 123 in a state where the support part 131 is disposed on the top and bottom surfaces of the insulator 120. The terminal 130 may be fixed, and in addition, the terminal 130 takes over the heat source emitted from the PTC device 110 to effectively discharge the terminal 130.

Here, ribs 133 for press-fitting the heat radiation fins 140 to be described later are formed on both side edges of the outer surface of the support part 131 to protrude in the longitudinal direction, and the ribs 133 correspond to the enlarged view of FIG. 4. It is formed to tilt in the direction.

Therefore, by pressing the heat radiation fins 140 through the ribs 133, the fixing force of the heat radiation fins 140 may be increased, and the thermal conductivity may be improved by increasing the adhesion surface of the terminal 130 and the heat radiation fins 140.

The heat dissipation fin 140 is for discharging the heat source to the outside, the metal plate is bent in a zigzag shape, and the heat dissipation fin 140 uses a heat dissipation fin known in the prior art, detailed description thereof will be omitted.

Therefore, the heat dissipation fin 140 as described above is inserted between the ribs 133 formed at both edges of the support 131, and both sides of the heat dissipation fin 140 are press-fitted and fixed by the ribs 133.

Referring to the manufacturing and assembly method of the present invention heat rod assembly having such a configuration as follows.

First, a plurality of PTC elements 110 are disposed in a mold for molding an insulator, and then synthetic resin is injected into the mold to insert and inject the insulator 120.

Then, the PTC device 110 is disposed in the placement groove 122, and the insulator 120 having the coupling groove 123 formed on the upper and lower surfaces of both ends can be manufactured.

Thereafter, the support parts 131 of the terminal 130 are disposed on the upper and lower surfaces of the insulator 120 having the PTC element 110 integrally formed therein, and then the coupling part 132 of the terminal 130 is disposed in the coupling groove. Fitting to each of the (123) to couple the terminal 130 to the top and bottom of the insulator 120.

Here, the coupling and assembly can be increased by coupling the insulator 120 and the terminal 130 through the coupling groove 123 and the coupling unit 132.

In such a state, when the heat radiation fin 140 is inserted and pressed between the ribs 133 formed on the terminal 130, the manufacture and assembly of the heat rod assembly 100 according to the present invention is completed.

Thereafter, when the plurality of heat rod assemblies 100 are connected and (+) and (-) are respectively connected to the pair of terminals 130, the power is applied to the pair of terminals 130. The PTC element 110 radiates heat, and the heat source radiated by the PTC element 110 diffuses to the outside through the terminal 130 and the heat radiating fin 140 to heat the room.

1 is an exploded perspective view showing a prior art heat rod assembly.

Figure 2 is an exploded perspective view showing the inventor of the heat rod assembly.

Figure 3 is an assembled perspective view of the heat rod assembly of the present invention.

4 is a cross-sectional view of the heat rod assembly of the present invention.

Explanation of symbols on the main parts of the drawings

100: heat rod assembly 110: PTC element

120: insulator 121: insertion hole

122: placement groove 123: coupling groove

130: terminal 131: support

132: coupling portion 133: rib

140: heat radiation fins

Claims (4)

PTC device; An insulator forming an arrangement groove so that the PTC element is disposed, and coupling grooves formed on upper and lower surfaces of both ends; A pair of terminals disposed on the top and bottom surfaces of the insulator, respectively, for supporting a PTC device, and a pair of terminals formed at both ends of the support and coupled to the coupling grooves; And And a heat dissipation fin fixed to the outer surface of the pair of terminals. The method according to claim 1, The outer edge of the support portion is a heat rod assembly, characterized in that ribs for pressing and fixing the both sides of the heat radiation fin is formed in the longitudinal direction. The method according to claim 2, The rib is a heat rod assembly, characterized in that formed inclined in the direction of the heat radiation fin. The method according to claim 1, The insulator is a heat rod assembly, characterized in that the insert is produced by inserting the prefabricated PTC element in the mold.

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