KR100720129B1 - Ptc heater - Google Patents

Abstract

The present invention relates to a PTC heater, comprising a PTC rod made of an extruded tube, wherein the radiator fin and the pin guide protrusions are formed at both ends of the upper and lower coupling surfaces formed with a flat portion to be in close contact with the lower end of the radiating fin. A PTI rod integrally provided with the PTI rod and the heat dissipation fin, and a frame having a first curved portion having a middle portion in the longitudinal direction convexly curved in the direction of the heat dissipation fin, and provided at both ends of the frame in the longitudinal direction. It is configured to include a housing, the heat dissipation fin is directly inserted into the pin guide protrusion, the frame is in contact with the heat dissipation fin to the PTC rod while the first curved portion is extended, characterized in that the housing is fixed to the frame Provide a PTC heater.

PTC, heater, PTC rod, extrusion tube, pin guide protrusion

Description

PT Heater

1 is an exploded perspective view of a conventional PTC heater.

2 is a cross-sectional view of the heat dissipation fin and the PTC rod of FIG.

3 is another cross-sectional view of the heat dissipation fin and the PTC rod of FIG.

4 is a front view of the present invention PTC heater.

5 is an exploded perspective view of the PTC rod internal component of FIG. 4;

6 is a cross-sectional view of the heat dissipation fin and the PTC rod of FIG.

FIG. 7 is a cross-sectional view illustrating the pin guide protrusion of FIG. 6. FIG.

8 is another cross-sectional view of the heat dissipation fin and the PTC rod of FIG.

FIG. 9 is a cross-sectional view illustrating the inlet protrusion of FIG. 8. FIG.

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

100: PTC rod 110: pin guide protrusion

300: heat radiation fin 1000: PTC heater

The present invention relates to a PTC heater. More specifically, when the PTC rod is made of an extruded tube, the pin guide protrusion is integrally formed so that the heat radiating fin can be directly coupled to the PTC rod without the need for a separate pin guide, It relates to a PTC heater provided with a curved frame in order to increase the bonding force of the PTC rod.

FIG. 1 is an exploded perspective view of a conventional PTC heater, FIG. 2 is a cross-sectional view of the heat dissipation fin and the PTC rod of FIG. 1, and FIG. 3 is another cross-sectional view of the heat dissipation fin and the PTC rod of FIG.

As shown in FIG. 1, the PTC heater 1 includes two or more PTC rods 30, a heat dissipation fin assembly 10 positioned side by side with the PTC rod 30, and longitudinally opposite sides of the heat dissipation fin assembly 10. It is configured to include a housing 70 provided.

In addition, the inside of the PTC rod 30 includes a PTC device 60 having a PTC terminal 61 spaced at a predetermined interval, and a terminal plate on which the PTC device 60 is seated and the connection part 51 is provided. 50 and an insulating member 40 positioned below the terminal plate 50 are inserted therein.

The PTC heater 1 is manufactured by bonding the housing 70 after closely contacting the PTC rod 30 and the heat dissipation fin assembly 10 positioned adjacent to each other.

Meanwhile, a coupling structure of the PTC rod 30 and the heat dissipation fin assembly 10 as shown in FIG. 2 will be described below.

The PTC rod 30 is manufactured by extruding an aluminum material into a tube shape, and a hollow inner space 32 and a protrusion 31 are provided.

And the heat dissipation fin assembly 10 is provided with a pin guide 12 up and down, the pin guide 12 is a sliding method to the protrusion 31 when the heat dissipation fin assembly 10 is connected to the PTC rod (30) It is pulled in.

In addition, in the case of FIG. 3, the PTC terminal 65 is directly inserted into the hole provided at the PTC rod 35 at a predetermined interval without the internal space 32 as shown in FIG. 2. Attaching the pin guide 22 of the heat dissipation fin assembly 15 into the space between the protrusions 37 provided on the PTC rod 35.

However, the coupling method of the PTC rod and the heat dissipation fin assembly as described above has the following problems.

The method of FIG. 2 increases the cost because the heat dissipation fin assembly 10 must be separately provided with a pin guide 12, and the pin guide 12 must be inserted between the protrusions 31 in a sliding manner to vertically couple. The process is slower than the method.

And the method of Figure 3 there is a problem that the additional attachment process is added when the PTC terminal 65 directly attached to the PTC rod 35 is not easy than the extrusion tube method, as shown in FIG. There is a problem that the guide 22 is used.

In addition, the PTI heater 1 of FIG. 1 made of the method of FIG. 2 and FIG. 3 does not require a separate means for increasing adhesion when the PTI rod 30 and the heat dissipation fin assembly 10 are combined, so that the PTI heater After (1) is manufactured, there is a problem that the PTC rod 30 and the heat dissipation fin assembly 10 are easily separated.

Therefore, the present invention has been invented to solve such a problem, and an object of the present invention is to provide a PTC heater and a PTC rod which is used to apply a frame having a structure in which a pin guide increases the bonding force and unnecessary PTC rod.

In order to achieve the above object, the present invention, in the PTC heater comprising a PTC rod made of an extruded tube, the heat dissipation fins, pin guides on both ends of the upper and lower coupling surfaces formed with a flat portion to be in close contact with the lower end of the radiating fins A frame having a protrusion formed integrally with the PTC rod, a frame having a first curved portion formed therein in which a middle portion of the longitudinal direction is convexly curved in the direction of the heat dissipation fin, and a longitudinal end portion of the frame The heat dissipation fins are directly inserted into the pin guide protrusions, and the frame is in close contact with the heat dissipation fins on the PTC rod while the first curved portion is extended, and the housing fixes the frame. It provides a PTC heater.

In addition, a heat dissipation plate may be provided between the frame and the heat dissipation fin in surface contact with the frame, and an insulation plate, an electrode terminal, a PTC unit, and a PTC element are sequentially provided from the bottom to the top of the PTC rod. The insulating plate, the electrode terminal, the PTC unit and the PTC element may be tightly coupled at the inner hole of the PTC rod by applying pressure to the upper and lower coupling surfaces.

In addition, the pin guide protrusion may have a convexly curved end portion, and the pin guide protrusion may have a shape inclined to the upper end point or a second curved portion shape in which at least a predetermined portion is curved inwardly.

The pin guide protrusion may be less than or equal to the thickness c of the heat dissipation fin whose height a is tightly coupled to the upper and lower coupling surfaces, and may be 0.5 mm or less.

On the other hand, the present invention is a PitiC heater comprising a PitiC rod made of an extruded tube, the heat radiation fin provided integrally with the PitiC rod, the inlet protrusions into which the PTC rod is introduced, the PTC rod and the heat radiating fin And a housing having a first curved portion formed in a convexly curved shape in the direction of the heat dissipation fin, and a housing provided at both ends in the longitudinal direction of the frame, wherein the PTC rod directly It is introduced into the inlet projection, the frame is the first bent portion is extended while the heat dissipation fins in close contact with the PTC rod, and the housing provides a PTC heater characterized in that the frame is fixed.

An insulating plate, an electrode terminal, a PTC unit, and a PTC element are sequentially provided from the lower part to the upper part in the inner hole of the PTC rod, and the pressure is applied to the upper and lower coupling surfaces to insulate the insulating plate, electrode terminal, PTC unit, and PTC. The device can be tightly coupled in the PTC rod inner hole.

In addition, the inlet protrusion may have a convexly curved end portion, and the inlet protrusion may have a shape inclined from the upper end point or a third curved portion in which a predetermined portion or more is curved inwardly.

The present invention consists of an extruded tube in which an insulating plate, an electrode terminal, a PTC unit and a PTC element are sequentially provided from the bottom to the top of the inner hole, and the heat dissipation fins are coupled to each other. It includes a pin guide protrusion provided integrally at the end, and the heat dissipation fin also provides a PTC rod, characterized in that directly coupled to the coupling surface between the pin guide protrusion.

The pin guide protrusion may have a convexly curved end portion, and may have a shape inclined to the upper end point or a predetermined portion or more curved inward.

In addition, the pin guide protrusion may be less than or equal to the thickness c of the heat dissipation fin whose height a is tightly coupled to the upper and lower coupling surfaces, and may be less than or equal to 0.5 mm.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

Figure 4 is a front view of the present invention the PTC heater, Figure 5 is an exploded perspective view of the internal components of the PTC rod of Figure 4, Figure 6 is a cross-sectional view of the coupling of the heat radiation fin and the PTC rod of Figure 4, Figure 7 It is various sectional drawing which shows the pin guide protrusion part of 6.

In the present invention, the PTC heater 1000 includes a heat dissipation fin 300 and a top and bottom coupling surface having a flat portion formed to be in close contact with a lower end of the heat dissipation fin 300 in a PTC heater including a PTC rod formed of an extruded tube. A pin guide protrusion 110 is integrally provided at both ends of the 122 and the PTC rod 100 and the heat dissipation fin 300 are coupled to each other. It includes a frame 500, the first curved portion 525 is formed convexly curved in the () direction, and the housings 600, 700 provided at both ends in the longitudinal direction of the frame (500).

In addition, a heat dissipation plate 325 is provided between the frame 500 and the heat dissipation fin 300, and the insulating hole 150, the electrode terminal 120, and the inner hole 101 of the PTC rod 100 are shown in FIG. 5. The PTC unit 142 and the PTC element 140 are sequentially provided from the bottom to the top, and apply pressure to the upper and lower coupling surfaces 122 of FIG. 6 to form the insulating plate 150, the electrode terminal 120, and the PTC. The unit 142 and the PTC element 140 are tightly coupled at the inner hole 101 of the PTC rod 100.

The heat sink 325 is a partial deformation of the shape of the heat radiation fin 300 generated when the pushing force of the frame 500 is evenly transmitted to the heat radiation fin 300 so that the frame 500 is in direct contact with the heat radiation fin 300. prevent.

In addition, the pin guide protrusion 110 is formed to protrude on both sides of the PTC rod 100 as shown in Figure 6, the end of the pin guide protrusion 110 is convexly curved as shown in Figure 7 (A). As shown in FIG. 7B, a shape inclined to the upper end point 115 as a vertex or a predetermined portion or more as shown in FIG. 7C is provided in the shape of a second curved portion 116 curved inward.

By bending the end portion of the pin guide protrusion 110 or by providing an inclined shape, it facilitates the flow of air heat exchanged through the heat radiation fin 300, and the coupling surface 122 between the pin guide protrusion 110 In the heat dissipation fin 300 is easily assembled.

In FIGS. 6 and 7, the heat dissipation fin 300 applied to the present embodiment is zigzag in an aluminum plate having a width less than or equal to a width of 0.5 mm between the pin guide protrusions 110 of the PTC rod 100. Consists of heat sink fins folded into form.

In addition, the pin guide protrusion 110 has a height a or less than a thickness c of the heat dissipation fin 300 that is tightly coupled to the upper and lower coupling surfaces 122, preferably 0.5 mm or less.

This is because if the height (a) exceeds the thickness (c) of the heat radiation fin 300, or exceeds 0.5mm, it interferes with the wind passing through the heat radiation fin (300).

The radius R of the convexly curved shape of FIG. 7A is preferably provided to be at least 0.2 mm.

FIG. 8 is another cross-sectional view of the heat dissipation fin and the PTC rod of FIG. 4, and FIG.

Another embodiment of the present invention, the PTC heater, in the PTC heater comprising a PTC rod made of an extrusion tube as shown in Figs. 4 and 8, the PTC rod 100 of the substantially rectangular shape, and the PTI The heat dissipation fin 300 having the inlet protrusion 310 into which the seed rod 100 is introduced is integrally provided, and the PTC rod 100 and the heat dissipation fin 300 are coupled to each other, and the middle portion of the longitudinal direction is directed to the heat dissipation fin 300. It comprises a frame 500 is formed with a first curved portion 525 of the convexly curved shape, and housings 600, 700 provided at both ends of the longitudinal direction of the frame 500.

In addition, as shown in FIG. 5, the insulating plate 150, the electrode terminal 120, the PTC unit 142, and the PTC element 140 are sequentially provided in the inner hole 101 of the PTC rod 100. When the upper and lower coupling surfaces 122 are pressed, the insulating plate 150, the electrode terminal 120, the PTC unit 142, and the PTC element 140 are formed in the hole 101 of the PTC rod 100. In close contact.

In addition, as shown in FIG. 8, the inlet protrusion 310 is provided at both ends of the coupling surface 320 between the heat dissipation fin 300 and the PTC rod 100, and the inlet protrusion 310 is illustrated in FIG. 9A. The end portion of the third curved portion 317 is convexly curved or inclined to the upper end point 315 as shown in FIG. 9 (B) or a predetermined portion or more inwardly curved as shown in FIG. 9 (C). ) Is provided in a shape.

The inlet protrusion 310 has a height b of 0.5 mm or less, because when the height b exceeds 0.5 mm, unnecessary material consumption is caused.

Hereinafter, the operation of the PTC heater of the present invention will be described.

The heat dissipation fin 300 is formed between the frame 500 and the heat dissipation plate 325 by the pin guide protrusion 110 integrally provided on the PTC rod 100. It is connected to the left, and the PTC rod 100 is directly connected to the pin guide protrusion 110 as shown in FIG.

The frame 500 is in contact with the heat dissipation fins 300 to the PTC rod 100 while the first curved portion 525 is extended, and the housings 600 and 700 fix the frame 500.

Meanwhile, in another embodiment, the pull-out protrusion 310 is integrally provided on the heat dissipation fin 300, and the PTC rod 100 is directly inserted into the pull-out protrusion 310, and the frame 500 is formed of the first protrusion. 1 curved portion 525 is opened and the heat dissipation fin 300 is in close contact with the PTC rod 100, the housing 600, 700 is fixed to the frame 500.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

As described above, according to the present invention, the heat dissipation fin can be directly connected to the PTC rod provided with the pin guide protrusion, without the need for separately manufacturing the pin guide in the manufacturing process of the PTC heater. By increasing the adhesion of the rod has the effect of improving the durability of the PTC heater.

In addition, the height of the pin guide protrusion is less than the thickness of the heat radiation fin, and the tip of the pin guide protrusion is bent or inclined to smooth the flow of air through the heat radiation fin, and facilitate assembly of the PTC rod and the heat radiation fin. It is effective.

Claims (16)

In the PTC heater comprising a PTC rod made of an extruded tube, A heat dissipation fin 300; A PTC rod 100 having integrally provided pin guide protrusions 110 at both ends of the upper and lower coupling surfaces 122 having a flat portion formed to be in close contact with the lower end of the heat dissipation fin 300; A frame 500 that couples the PTC rod 100 and the heat dissipation fins 300 to each other, and a first curved portion 525 having a middle portion in a longitudinal direction convexly curved in the direction of the heat dissipation fins 300; Housings 600 and 700 provided at both ends of the frame 500 in the longitudinal direction; Consists of including The heat dissipation fin 300 directly enters into the pin guide protrusion 110, and the frame 500 closely contacts the heat dissipation fin 300 to the PTC rod 100 while the first curved portion 525 is extended. PICC heater, characterized in that the housing (600, 700) is fixed to the frame (500). The method according to claim 1, A heat sink 325 is provided between the frame 500 and the heat dissipation fin 300 in surface contact with the frame 500. The method according to claim 2, The inner hole 101 of the PTC rod 100 is provided with an insulating plate 150, an electrode terminal 120, a PTC unit 142 and a PTC element 140 in order from the bottom to the top, and the top and bottom couplings. By applying pressure to the surface 122, the insulating plate 150, the electrode terminal 120, the PTC unit 142, and the PTC element 140 are tightly coupled at the inner hole 101 of the PTC rod 100. PitiC heater characterized by the above. The method according to claim 2, The pin guide protrusion 110 is a PTC heater, characterized in that the end is convexly curved. The method according to claim 2, The pin guide protrusion 110 is a PTI heater, characterized in that the inclined shape to the upper end point 115 or more than a predetermined portion of the second curved portion 116 inwardly curved. The method according to claim 1 to 5, The pin guide protrusion 110 has a height (a) is less than the thickness (c) of the heat dissipation fin 300 is tightly coupled to the upper and lower coupling surface 122, PTC heater. The method according to claim 6, The pin guide protrusion 110 has a height (a) is 0.5mm or less, PTC heater. In the PTC heater comprising a PTC rod made of an extruded tube, A PTC rod; A heat dissipation fin 300 in which the inlet protrusion part 310 into which the PTC rod 100 is introduced is integrally provided; A frame 500 that couples the PTC rod 100 and the heat dissipation fins 300 to each other, and a first curved portion 525 having a middle portion in a longitudinal direction convexly curved in the direction of the heat dissipation fins 300; Housings 600 and 700 provided at both ends of the frame 500 in the longitudinal direction; Consists of including The PTC rod 100 directly enters the inlet protrusion 310, and the frame 500 closely contacts the heat dissipation fin 300 to the PTC rod 100 while the first curved portion 525 is extended. The housing (600, 700) PTC heater, characterized in that for fixing the frame (500). The method according to claim 8, The inner hole 101 of the PTC rod 100 is provided with an insulating plate 150, an electrode terminal 120, a PTC unit 142 and a PTC element 140 in order from the bottom to the top, and the top and bottom couplings. By applying pressure to the surface 122, the insulating plate 150, the electrode terminal 120, the PTC unit 142, and the PTC element 140 are tightly coupled at the inner hole 101 of the PTC rod 100. PitiC heater characterized by the above. The method according to claim 9, The inlet projection 310 is a PTC heater, characterized in that the end is convexly curved. The method according to claim 10, The incoming projection 310 is a PTI heater, characterized in that the inclined shape to the upper end point 315 or a third curved portion 317 in the predetermined portion or more curved inward. The inner plate 101, the insulation plate 150, the electrode terminal 120, the PTC unit 142 and the PTC element 140 is formed of an extruded tube is provided in turn from the bottom to the top of the PTC rod To A pin guide protrusion 110 integrally provided at both ends of the upper and lower coupling surfaces 122 of the PTC rod 100; It is configured to include, The heat dissipation fins 300 are directly coupled to the coupling surface 122 between the pin guide protrusions 110. The method according to claim 12, The pin guide protrusion 110 is a PTC rod, characterized in that the end of the convex curved shape. The method according to claim 12, The pin guide protrusion 110 is a PTC rod, characterized in that the inclined shape to the upper end point 115 or more than a predetermined portion in the shape of the second curved portion 116 curved inward. The method according to claim 12, The pin guide protrusion 110 has a height (a) is less than the thickness (c) of the heat dissipation fin 300 is tightly coupled to the upper and lower coupling surface 122, PTC rod. The method according to claim 15, The pin guide protrusion 110 is a PTC rod, characterized in that the height (a) is 0.5mm or less.

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