KR101947576B1 - PTC heater for vehicle - Google Patents

Abstract

[0001] The present invention relates to a heat sink for a vehicle, and more particularly, to a heat sink for a vehicle, which is integrally formed with a heat exchanger through which refrigerant or cooling water flows and is heat-exchanged, and is interposed in the space between both ends in the longitudinal direction of the first and second heat sinks And the elastic fixing portion formed to extend to the heat exchanger side is inserted between the fin gaps of the heat exchanger and fixed to the header portion of the heat exchanger to improve the space efficiency and the heat exchange performance, The present invention relates to a vehicular heat dissipator.

Description

[0001] PTC HEATER FOR VEHICLE [0002]

[0001] The present invention relates to a heat sink for a vehicle, and more particularly, to a heat sink for a vehicle, which is integrally formed with a heat exchanger through which refrigerant or cooling water flows and is heat-exchanged, and is interposed in the space between both ends in the longitudinal direction of the first and second heat sinks And the elastic fixing portion formed to extend to the heat exchanger side is inserted between the fin gaps of the heat exchanger and fixed to the header portion of the heat exchanger to improve the space efficiency and the heat exchange performance, The present invention relates to a vehicular heat dissipator.

Various vehicles are provided with an air conditioning system for selectively supplying cold air and warm air to various parts of the room. In winter, air conditioners are operated to supply cold air, and during the winter season, heaters are operated to supply warm air.

Generally, the operation method of the heater circulates inside the engine, and the heated cooling water and the air introduced by the blower exchange heat with each other to supply warm air to the inside of the vehicle and use the heat generated by the engine It is an energy-efficient heating system.

In the winter, however, it takes a certain period of time for the engine to heat up after starting. Accordingly, the engine is heated for heating, and the engine is idled for a predetermined period of time before the temperature of the cooling water becomes high, resulting in energy waste and environmental pollution.

In order to prevent such a problem, a method of heating a vehicle interior using a separate preheating heater for a predetermined period of time during which the engine is heated is used. In a conventional heater using a hot-wire coil, heating is high, And the service life of the heating wire is short, so that repair and replacement of parts frequently occur.

Accordingly, a heater using a PTC (Positive Temperature Coefficient) element for heating the battery using the electric energy of the battery is used as an auxiliary heating device for heating in the early stage of startup, and the PTC heater has a long life span Can be used as an advantage.

A vehicle air conditioning system using a PTC (Positive Temperature Coefficient) heater has been proposed in Japanese Laid-Open Patent Application No. 2009-255739 (entitled "Vehicle Air-conditioning System", published on November 5, 2009).

Fig. 1 shows an example of a vehicle air conditioner using a PTC heater.

The vehicle air conditioner 60 shown in the figure has a floor vent 31, a defrost vent 32 and a face vent 33, which are opened by respective doors 31d, 32d, and 33d, (30); An evaporator 41 provided in the air conditioning case 30 to cool air; A heater core (42) for heating high temperature cooling water to flow air, a PTC heater (43) provided at the rear side of the heater core (42) in the air flow direction; And a tempo door 50 for regulating the opening of the cold air passage and the warm passage.

At this time, the PTC heater is provided to maintain a certain distance from the heater core, which occupies a space inside the air conditioner case, thereby hindering the space efficiency.

In addition, in many cases, the PTC heater is located in the central region of the heater core in the height direction in order to prevent the pressure drop of the air and to reduce the cost, and the air having passed through the upper and lower regions, So that the heating performance is inevitably lowered.

Accordingly, there is a demand for development of a heater that can heat-exchange directly with air, improve the heat exchange performance to further improve the heating performance, enable miniaturization, and improve structural stability.

Japanese Patent Application Laid-Open No. 2009-255739 (title of the invention: air conditioner for vehicles, published on November 5, 2009)

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above problems, and it is an object of the present invention to provide a heat exchanger which is integrally formed with a heat exchanger through which refrigerant or cooling water flows, And the elastic fixing portion formed to extend to the heat exchanger side is interposed between the fin gaps of the heat exchanger and then fixed to the header portion of the heat exchanger to improve space efficiency and heat exchange performance Of course, it is an object of the present invention to provide a vehicular heat sink heater capable of improving the bonding stability.

A plurality of tubes (11) having both ends thereof fixed to the header tank (11) to form a flow path of the heat exchange medium; (1000) for a vehicle, which is disposed on one side in a width direction of a heat exchanger (10) including a heat exchanger (12) and a fin (13) interposed between the tubes The vehicular fuel heaters 1000 are plate-shaped and have a first heating region 110 and a first air region 120 formed adjacent to the first heating region 110 and having a plurality of first hollow portions 121, A first heat sink (100) comprising a flow region (120); A heating unit 200 having a built-in Pitti device and disposed in a first heating region 110 of the first heat sink 100; A second heat generating region 310 corresponding to the first heat generating region 110 and a second heat generating region 310 corresponding to the first heat generating region 200 so as to support both sides of the heat generating portion 200 together with the first heat sink 100, A second heat sink 300 including a second air flow region 320 including a second hollow portion 321 to correspond to the second air flow region 320; A housing 400 for supporting one end of the first heat sink 100, the second heat sink 300, and the heat generating unit 200 in the longitudinal direction; The first heat sink 100 and the second heat sink 300 are formed to extend in the longitudinal direction and are coupled to both side surfaces in the height direction of the first heat sink 100 and the second heat sink 300, And a hook-shaped elastic fixing part (520) extending toward the heat exchanger (10) and protruding toward the header tank (11) at an end thereof, wherein the fixing part ); And an elastic fixing part 520 of the heat sink supporter 500 is inserted into a fin gap 14 which is a space between the pin 13 and the header tank 11, And the elastic fixing part 520 is engaged and fixed to the opposite side of the elastic fixing part 520.

The first heat sink 100 and the second heat sink 300 may be disposed in a region corresponding to a region where the tubes 12 and the fins 13 of the heat exchanger 10 are formed As shown in FIG.

In addition, the heat sink supporter 500 is characterized in that a plurality of the elastic fixing parts 520 are formed with a certain distance in the longitudinal direction.

The heat sink supporter 500 includes insertion holes formed on both sides of the fitting portion 510 so that both ends of the first and second heat sinks 100 and 300 are fitted to each other in the height direction of the first heat sink 100 and the second heat sink 300, 530).

The heat sink supporter 500 is inclined outward in the height direction toward the heat exchanger 10.

The vehicle heat exchanger for a vehicle according to the present invention is integrally formed with a heat exchanger through which refrigerant or cooling water flows and is heat-exchanged. The heat exchanger is interposed in the space between both ends in the longitudinal direction of the first heat sink and the second heat sink, And an elastic fixing portion formed so as to extend toward the heat exchanger is interposed between the fin gaps of the heat exchanger and fixed to the header portion of the heat exchanger to improve space efficiency and heat exchange performance, Lt; / RTI > heater.

More specifically, the present invention is characterized in that the heat sink is integrally formed with a heat exchanger such as an evaporator or a heater core, and a heat sink support is coupled between the first heat sink and the second heat sink at both ends in the height direction, The first heat sink and the second heat sink can be stably engaged and fixed without the lower housing and the first heat sink and the second heat sink can be prevented from being deformed by the external impact.

That is, the heat sink support including the elastic fixing part can be coupled to the header of the heat exchanger and can be integrally coupled to the heat exchanger without being coupled to the support of the heat exchanger through the lower housing, And the second heat sink can be stably engaged and fixed with respect to each other, so that the assembling property and the durability can be improved.

Further, since the present invention is formed to correspond to the tube and the pin forming region of the heat exchanger, there is an advantage that the air passing through the heat exchanger can be heat-exchanged while passing through the heat exchanger, thereby improving the cooling and heating performance.

In addition, since the heat generating part is formed by using the plate-shaped first heat sink and the second heat sink which are positioned perpendicular to the air flow direction, the present invention can be easily manufactured and can be reduced in thickness, So that the heating performance can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
2 and 3 are a perspective view and an exploded perspective view showing a PTO heater for a vehicle according to the present invention.
4 and 5 are sectional views taken along the line aa 'of FIG. 2;
6 is a front view of a typical heat exchanger.
7 is a perspective view showing a state before the assembly of the heat exchanger and the heat exchanger for a vehicle according to the present invention.
8 is a perspective view showing a state in which a heat exchanger and a heat exchanger for a vehicle according to the present invention are assembled.

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

The first heat sink 100, the second heat sink 300, the heat generating unit 200, the housing 400, and the heat sink 200 are disposed at one side of the heat exchanger 10 in the width direction. And a sink support 500.

The heat exchanger 10 is a general heat exchanger 10 such as an evaporator or a heater core and includes a pair of header tanks 11, 13).

The header tank 11 may be formed by a combination of a header and a tank.

One of the pair of header tanks 11 is formed with an inlet pipe through which cooling water or refrigerant flows and an outlet pipe through which the cooling water or refrigerant is discharged.

The tube 12 is fixed at both ends thereof to the header tank 11 to form a channel for cooling water or a coolant, and a plurality of tubes are provided in the longitudinal direction shown in FIG.

The pin 13 is interposed between the tubes 12 to increase the contact area with the air. The pin 13 is disposed such that both ends thereof are spaced apart from the header tank 11 by a predetermined distance in the height direction, and a pin gap 14 (Fin Gap) is formed.

Since the header of the header tank 11 is made of steel and the fin 13 is made of aluminum, the distance between the header and the pin 13 is too large The shape of the pin 13 can be deformed due to the high heat of the steel.

Therefore, the heat exchanger 10 is formed with a pin gap 14 that is spaced apart from the header 13 of the header tank 11 by a predetermined distance.

Referring to Figs. 2 to 4, a description will be given of the vehicle seat heaters 1000 according to the present invention.

The first heat sink 100 is formed to include a first heat generating region 110 and a first air flowing region 120. The first heat generating region 110 is formed in a region where the heat generating portion 200 is formed And the remaining first air flow region 120 is a region where air flows.

The first air flow region 120 is a region in which a plurality of first hollow portions 121 hollow are formed, and the shape and the number of the first hollow portions 121 may be variously formed.

The heat generating unit 200 includes a heat dissipation unit and is disposed in the first heat generating region 110 of the first heat sink 100.

The second heat sink 300 is formed in the same plate shape as the first heat sink 100 so as to support both sides of the heat generating portion 200 together with the first heat sink 100, A second heat generating region 310 corresponding to the first heat generating region 110 and a second air flowing region 320 corresponding to the first air flowing region 120. [

The second air flow region 320 is formed to include a plurality of second hollow portions 321 adjacent to the second heat emission region 310 and having a predetermined area hollow.

As shown in FIG. 2, the first hollow portion 121 and the second hollow portion 321 are each formed to be inclined at a predetermined angle. The first hollow portion 121 and the second hollow portion 321 may be formed so as to have different inclination degrees, Various changes can be made considering the air flow.

The first heat sink 100 and the second heat sink 300 are arranged in a direction perpendicular to the air flow direction and form a basic body portion for forming the vehicular heat sink 1000 of the present invention. The air is uniformly heated through the entire region of the heat exchanger 10, the first heat sink 100, and the second heat sink 300 by being formed to have a size corresponding to the region where the tube 12 and the fins 13 are formed .

Accordingly, the vehicle seat heaters 1000 according to the present invention can be reduced in thickness by using the plate-shaped first heat sink 100 and the second heat sink 300 in a simple form, And it is possible not only to miniaturize but also to improve heat exchange performance.

The heat sink supporter 500 is configured to allow the heat dissipator 1000 of the present invention to be coupled to the heat exchanger 10 and includes a fitting portion 510 and an elastic fixing portion 520 .

The fitting portion 510 is a region extended in the width direction and coupled to both ends of the first heat sink 100 and the second heat sink 300 in the height direction, The first heat sink 100 and the second heat sink 300 are protruded inwardly to be fitted into a space formed between the first heat sink 100 and the second heat sink 300.

The elastic fixing part 520 is formed to extend perpendicularly to the fitting part 510 toward the heat exchanger 10 and has an end protruding in the form of a hook and is inserted between the pin 13 and the header tank 11 Is inserted into a fin gap (14) which is a space, and is engaged and fixed at the opposite side of the header tank (11).

7, the heat sink supporter 500 includes a fitting portion 510 which is elongated in the longitudinal direction and is fitted between the first heat sink 100 and the second heat sink 300, , And a hook-shaped elastic fixing part (520) protruding toward the heat exchanger (10) in a width direction in a certain region of the fitting part (510) and projecting toward the header tank (11) .

The elastic fixing part 520 may be formed in a plurality of spaces spaced apart in a width direction so as to be integrally coupled to a part or the whole of the pin gap 14 of the heat exchanger 10.

When the heat sink supporter 500 is coupled to the upper end portion of the first heat sink 100 and the second heat sink 300 in the height direction, the elastic fixing portion 520 has the end protruding upward The first and second heat sinks 100 and 300 are coupled to the lower ends of the first and second heat sinks 100 and 300, respectively.

The heat sink support 500 is made of a plastic insert having a certain degree of elasticity so that the fitting portion 510 can be securely coupled and fixed between the first heat sink 100 and the second heat sink 300 .

5, the heat sink supporter 500 may be formed so that both ends of the first heat sink 100 and the second heat sink 300 in the height direction are fitted to each other, And an insertion groove 530 formed on both sides of the portion 510.

In addition, the heat sink supporter 500 may be coupled to the first heat sink 100 and the second heat sink 300 through separate coupling means, and various modifications may be made.

The end of the heat sink support 500 may be inclined toward the header tank 11 toward the heat exchanger 10.

As described above, the heat sink support 500 may be an injection molded product having a certain elasticity. When the heat sink support 500 is inclined outwardly, the heat sink support 500 may be more firmly coupled to the header tank 11 by elasticity.

The process of fitting the vehicular heat sink 1000 of the present invention to the heat exchanger 10 will be described generally.

First, in the vehicular heat dissipator 1000 of the present invention, the fitting portion 510 is fitted to both ends of the first heat sink 100 and the second heat sink 300 in the height direction, Is arranged so as to correspond to the region where the tube (12) and the pin (13) are formed.

Next, the elastic fixing part 520 is inserted into the pin gap 14 of the heat exchanger 10 so that the end of the elastic fixing part 520 is engaged with the header of the heat exchanger 10.

Accordingly, the present invention is characterized in that the present invention is integrally formed with a heat exchanger 10 such as an evaporator or a heater core, and includes a heat sink support (not shown) disposed between the first heat sink 100 and the second heat sink 300 at both ends in the height direction The first heat sink 100 and the second heat sink 300 can be stably engaged and fixed even if a separate lower housing is not provided and the first heat sink 100 100 and the second heat sink 300 can be prevented from being deformed.

That is, even though the present invention is not coupled to the support of the heat exchanger 10 through the lower housing, the heat sink support 500 including the elastic fixing part 520 is coupled to the header of the heat exchanger 10, 10, as well as improves the assemblability and durability.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

10: Heat exchanger
11: header tank 12: tube
13: Fin 14: Fin gap
100: first heat sink
110: first heating region 120: first air flow region
121: first hollow portion
200:
300: second heat sink
310: second heating region 320: second air flow region
321: second hollow portion
400: housing
500: Heatsink support
510: fit portion 520: elastic fixing portion
530: insertion groove
1000: PITTY HEATER FOR VEHICLE

Claims (5)

A plurality of tubes 12 having both ends fixed to the header tank 11 to form a flow path of the heat exchange medium; (10) having a fin (13) interposed therebetween, the heat sink (10) being disposed on one side in a width direction of the heat exchanger (10)
The vehicular heat dissipator 1000 includes:
And a first air flow region (120) having a first heating region (110) and a plurality of first hollow portions (121) adjacent to the first heating region (110) A first heat sink (100); A heating unit 200 having a built-in Pitti device and disposed in a first heating region 110 of the first heat sink 100; A second heat generating region 310 corresponding to the first heat generating region 110 and a second heat generating region 310 corresponding to the first heat generating region 200 so as to support both sides of the heat generating portion 200 together with the first heat sink 100, A second heat sink 300 including a second air flow region 320 including a second hollow portion 321 to correspond to the second air flow region 320; A housing 400 for supporting one end of the first heat sink 100, the second heat sink 300, and the heat generating unit 200 in the longitudinal direction; The first heat sink 100 and the second heat sink 300 are elongated in the longitudinal direction and are coupled to both sides in the height direction of the first heat sink 100 and the second heat sink 300, And a hook-shaped elastic fixing part (520) extending toward the heat exchanger (10) and protruding toward the header tank (11) at an end thereof, wherein the fixing part ); And,
An elastic fixing part 520 of the heat sink supporter 500 is inserted into a fin gap 14 which is a space between the pin 13 and the header tank 11, And the elastic fixing part (520) is engaged and fixed.
The method according to claim 1,
The vehicular heat dissipator 1000 includes:
Wherein the first heat sink (100) and the second heat sink (300) are formed to have a size corresponding to an area where the tube (12) and the fin (13) of the heat exchanger (10) are formed. heater.
The method according to claim 1,
The heat sink support (500)
Wherein the plurality of elastic fixing parts (520) are spaced a predetermined distance in the longitudinal direction.
The method according to claim 1,
The heat sink support (500)
And an insertion groove 530 formed on both sides of the fitting portion 510 so that both side ends of the first heat sink 100 and the second heat sink 300 are fitted to each other in the height direction PITTY HEATER FOR CAR.
The method according to claim 1,
The heat sink support (500)
And is inclined outward in the height direction toward the heat exchanger (10) side.

Images