KR20130128317A - A heater for vehicles - Google Patents

Abstract

The present invention relates to a heater for a vehicle. The heater for the vehicle reduces the thickness and facilitates manufacture by forming a heating unit with plate-shaped first and second support units which are vertically located to an air flow direction so that the heater can be miniaturized. The heater for the vehicle can improve manufacture properties by fixing the support unit and the heating unit with a simple method. [Reference numerals] (AA) Height;(BB) Width;(CC) Thickness

Description

{HEATER FOR VEHICLES}

The present invention relates to a heater for a vehicle, and more particularly, the present invention is easy to manufacture by reducing the thickness by forming a heat generating portion using the first support (and the second support) in the form of a plate located perpendicular to the air flow direction. The present invention relates to a vehicle heater that can be miniaturized, and that the support part and the heat generating part can be fixed by a simple method, thereby increasing the manufacturability.

The heating means is used for raising the temperature of the outside, and means using various methods have been proposed and are also used for various purposes.

Particularly, among the heating means provided in the vehicle engine room, the heating means for heating the room is configured to heat the outside of the vehicle by heating the outside air while circulating the heater core through the heat exchange medium for lowering the temperature of the engine.

However, since the diesel engine has a high heat exchange rate, it takes a long time to heat the heat exchanging medium for cooling the engine at the initial start of the automobile, compared to the gasoline engine.

Therefore, in a vehicle equipped with a diesel engine in the winter, the heating of the heat exchange medium is delayed after the initial startup and the initial indoor heating performance is deteriorated.

In order to solve the above-mentioned problems, there has been proposed a vehicular air heater which directly heats air blown to a room side by various means.

Such an air heating type heater is advantageous in that the heating performance can be further improved by directly heating the air. However, due to the trend of miniaturization and high efficiency, it takes a space equal to the size of the heater in a situation where it is difficult to secure sufficient space in the engine room Which may cause the miniaturization to be hindered.

Particularly, in the case of a cartridge heater using a nichrome wire, it is difficult to control the temperature, and when air is not blown to the heater side, there is a fear of overheat, insulation problem due to high voltage may occur, There is a problem.

A vehicle air conditioner using a PTC (Positive Temperature Coefficient) heater has been proposed in Japanese Patent Application Laid-Open No. 2009-255739, and a conventional PTC heater is shown in Fig.

1, the PTC heater shown in FIG. 1 includes a heat source unit 11 formed of a PTC device, a heat radiation unit 11 for effectively releasing heat while being in contact with the heat source unit 11, And a housing 20 that covers and protects the terminal unit, the heat source unit 11, and the heat radiation unit 12.

The conventional PTC heater may have some differences in detail, but since the heat source portion is formed in parallel with the air flow direction, the formation area of the heat source portion directly affects the heat generating performance and accordingly, the thickness of the PTC heater There is a limit to reducing the number

In particular, in the case of a PTC heater, an electrical problem may occur when the heat dissipation condition is not good, and thus a heat dissipation part (generally, a heat dissipation fin) must be formed. In this case, there is a problem that the durability of the entire PTC heater can be lowered.

Accordingly, it is possible to improve the heat exchange efficiency by improving the heat exchange efficiency by heating the air directly while smoothly flowing the air, miniaturization is possible, easy to control, and prevents problems due to overheating, thereby improving safety. Development of a heater is required.

Patent 1) Japanese Laid-Open Patent Application No. 2009-255739 (Title of Invention: Air Conditioning Apparatus for Vehicle, Release Date: 2009.11.05)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to manufacture a heat generating portion using a first support portion (and a second support portion) in the form of a plate positioned perpendicular to the air flow direction. It is possible to reduce the thickness while being easy and can be miniaturized, and to provide a vehicle heater that can improve the manufacturability by fixing the support and the heating portion by a simple method.

The vehicle heater 1000 of the present invention has a plate shape positioned perpendicular to the air flow direction, and includes a first heat flow area A110 and a first air flow having a plurality of first hollow portions 101 in which a predetermined area is hollow. A first support part 100 including an area A 120; A heating part 200 formed in the first heating area A110 of the first supporting part 100 and generating heat; And a housing (400) for supporting and fixing one end of the first support part (100) and the heat generating part (200); Including, but characterized in that the first fixing portion 501 for fixing one side of the heat generating portion 200 to the first support portion 100 is further formed.

In addition, the heat generating unit 200 is characterized in that it comprises a heat generating tube 221 including a PTC (Positive Temperature Coefficient) element.

In addition, as long as the vehicle heater 1000 supports both ends of the heating tube 221 on one side of the first fixing part 501 while the first fixing part 501 protrudes to have a narrower distance therefrom. A pair of protrusion guides 510, the predetermined region of the heating tube 221 is characterized in that the shape corresponding to the area between the protrusion guide 510.

In addition, the vehicle heater 1000 is provided with a protrusion 212 protruding in an outward direction such that a predetermined area of the heating tube 221 protrudes through the first support part 100. The government 501 is characterized in that the fixing groove 520 is inserted into the projection 212 of the heating tube 221 is fixed.

At this time, the heating tube 221 is caulking or folded area protruding through the first support portion 100 through the fixing groove 520 of the protrusion 212 the first support portion 100 It is characterized in that fixed to).

In addition, the vehicle heater 1000 is provided with a protrusion 212 protruding in an outward direction such that a predetermined region of the heating tube 221 protrudes through the first support part 100. The government 501 is the first hollow portion 101 of the first support portion 100, the heating tube 221 is the first support portion 100 through the first hollow portion 101 of the protrusion 212 The protruding region penetrates through the caulking or is folded to be fixed to the first support part 100.

At this time, the heating tube 221 is formed with an extension portion 211 extending in both sides in the height direction of one side in contact with the first heat generating region (A110), the protruding portion 212 to the extension portion 211. ) Is formed.

In addition, the heat generating unit 200 is provided in the heating tube 221, the heating tube 221, a guide plate 222, a plurality of through holes are formed in the width direction, and the guide plate 222 It includes a PTC element 223 provided in the through hole of the positive electrode plate 224 and the negative electrode plate 225 which are respectively disposed on both sides of the guide plate 222 in the heating tube 221.

In addition, the vehicle heater 1000 has the first support part in a state in which the heat conductive layer 600 is applied to one side or both sides of the first heat generating region A110 and the heating tube 221 of the first support part 100. It characterized in that the 100 and the heating tube 221 is fixed.

In addition, the vehicle heater 1000 has a second region A310 corresponding to the first heating region A110 of the first support part 100 and a predetermined region adjacent to the second heating region A310. A plurality of hollow second hollow parts 301 are formed and the second support part 300 includes a second air flow area S320 corresponding to the first air flow area A120 of the first support part 100. Is further provided, the second support 300 is a second height for fixing the other side of the heating tube 221 to support and fix both sides of the heat generating portion 200 together with the first support 100. The government 520 is characterized in that it is formed.

In addition, the vehicle heater 1000 is characterized in that it comprises a first louver fin 102 extending to the edge of the first hollow portion 101.

The vehicle heater according to another embodiment of the present invention has a plate shape positioned perpendicular to the air flow direction, and includes a first heat generating region A110 and a plurality of first hollow portions 101 in which a predetermined region is hollow. A first support part 100 including an air flow area A120; A heating part 200 formed in the first heating area A110 of the first supporting part 100 and generating heat; A second heat generating region A310 corresponding to the first heat generating region A110 of the first support part 100, and a plurality of second hollow portions having a predetermined area hollowed adjacent to the second heat generating region A310 ( A second support part 300 having a 301 formed therein and including a second air flow area S320 corresponding to the first air flow area A120 of the first support part 100; A first fixing part 501 formed on the first support part 100 to fix one side of the heat generating part 200; A second fixing part 502 formed on the second support part 300 to support and fix both sides of the heat generating part 200 together with the first support part 100 to fix the other side of the heating tube 221; A housing 400 supporting and fixing one end of the first support part 100, the second support part 300, and the heat generating part 200; And the second electrode is formed.

In addition, the heat generating unit 200 is characterized in that it comprises a heat generating tube 221 including a PTC (Positive Temperature Coefficient) element.

In addition, the vehicle heater 1000 has the first fixing part 501 and the second fixing part 502 to support both ends of the heating tube 221 on both sides of the first support part 100 but spaced outwardly. A pair of protruding guides 510 protruding in a narrower distance may be characterized in that a predetermined region of the heating tube 221 corresponds to a region between the protruding guides 510.

In addition, the first fixing part 501 and the second fixing part 502 are characterized in that a plurality of spaced apart a predetermined interval in the width direction.

In addition, the vehicle heater 1000 has protrusions 212 protruding in both directions such that a predetermined region of the heating tube 221 protrudes through the first support part 100 and the second support part 300. Is formed, the first fixing part 501 and the second fixing part 502 is characterized in that the fixing groove 520 is inserted into the projection 212 of the heating tube 221 is fixed.

In addition, the heating tube 221 is caulking or folded area protruding through the first support portion 100 and the second support portion 300 through the fixing groove 520 of the protrusion 212 is It is characterized in that fixed to the first support portion 100 and the second support portion 300.

In addition, the vehicle heater 1000 has protrusions 212 protruding in both directions such that a predetermined region of the heating tube 221 protrudes through the first support part 100 and the second support part 300. The first fixing part 501 is formed as a first hollow part 101 of the first support part 100, and the second fixing part 502 is a second hollow part of the second support part 300. At 301, the heating tube 221 penetrates through the first support part 100 and the second support part 300 through the first hollow part 101 and the second hollow part 301 of the protrusion 212. The protruding region is caulked or folded to be fixed to the first support part 100 and the second support part 300.

In addition, the heating tube 221 has an extension portion 211 extending from both sides in the height direction of both sides in contact with the first heat generating region (A110) and the second heat generating region (A310) in the height direction is formed, the extension The protrusion 212 is formed on the portion 211.

In addition, the heating unit 200 is provided with a heating tube 221, the heating tube 221, the guide plate 222 is formed with a plurality of through holes in the width direction, and the guide plate 222 It includes a PTC element 223 provided in the through hole of the positive electrode plate 224 and the negative electrode plate 225 which are respectively disposed on both sides of the guide plate 222 in the heating tube 221.

In addition, the vehicle heater 1000 has one side or both sides of the first heat generating region A110 of the first support unit 100, the second heat generating region A310 of the second support unit 300, and the heating tube 221. The first support part 100 and the second support part 300 and the heating tube 221 is fixed in a state in which the thermal conductive layer 600 is coated.

In addition, the vehicle heater 1000 may include a first louver fin 102 extending at an edge of the first hollow portion 101 and a second louver fin extending at an edge of the second hollow portion 301. It is characterized by including the (302).

In addition, the vehicle heater 1000 is characterized in that the first hollow portion 101 and the second hollow portion 301 are formed to overlap each other in a predetermined area in the air flow direction.

Accordingly, the vehicle heater of the present invention is easy to manufacture by reducing the thickness by forming a heat generating portion using the first support (and the second support) in the form of a plate positioned perpendicular to the air flow direction, it is possible to miniaturize, By a simple method can be fixed to the support portion and the heating portion there is an advantage to increase the manufacturability.

In particular, the vehicle heater of the present invention is formed of a pair of protruding guides in which the first fixing portion (and the second fixing portion) protrudes narrowly in the outward direction, or the first fixing portion (and the second fixing portion) The fixing groove in, but the protrusion is formed in the heating tube has the advantage of fastening and fixing the support and the heating portion by a simple fastening process.

In addition, the vehicle heater of the present invention may be heat transfer in the side region of the heat generating portion through the first fixing portion (and the second fixing portion), the first heat generating region of the first support (second heat generating region of the second support) The heat conduction layer may be formed on one side or both sides of the overheating tube, thereby increasing the air heating efficiency.

In addition, the vehicle heater of the present invention simplifies the configuration, the first support portion (and the second support portion) can be formed integrally in the height direction while increasing the manufacturability to ensure more manufacturability, or the first support portion and the heat generating portion (and the first) 2) the support portion is formed in the form of a module has the advantage of easy design change by adjusting the number of modules in accordance with the change in the height direction.

In the vehicle heater of the present invention, when a heat generating tube including a Pittsy element is used as a heat generating portion, a heat generating tube including a guide plate, a Pittsy element, a cathode plate and a cathode plate is bonded to the first heat generating region of the first supporting portion And it is advantageous in that a problem caused by overheating can be prevented in advance by sufficiently generating heat through the first support portion.

In addition, the vehicle heater of the present invention is further provided with a second support portion can further secure the heat generating region, there is an advantage that can increase the structural stability by supporting both sides of the heat generating portion together with the first support portion.

At this time, the heater for a vehicle according to the present invention is configured such that the first hollow portion formed in the first support portion and the second hollow portion formed in the second support portion are overlapped with each other in a certain region in the air flow direction to make the air flow turbulent, Can be improved.

In addition, the vehicle heater of the present invention has an advantage that the heat exchanging area can be further increased, and the first louver fin and the second louver fin can be further formed to guide the air, thereby maximizing heat exchange performance.

1 is a view showing a conventional PTC heater.
2 to 5 is a perspective view, exploded perspective view, cross-sectional view and exploded cross-sectional view of a heater for a vehicle according to the present invention.
Figure 6 is an exploded perspective view showing an example of a heat generating unit of a vehicle heater according to the present invention.
7 and 8 are another exploded perspective view and cross-sectional view of a heater for a vehicle according to the present invention.
9 and 10 are each another cross-sectional view of a heater for a vehicle according to the present invention.
11 and 12 are another exploded perspective view and cross-sectional view of a heater for a vehicle according to the present invention.
13 to 14 is another perspective view, an exploded perspective view, and a cross-sectional view of a heater for a vehicle according to the present invention.
16 is another perspective view of a heater for a vehicle according to the present invention;

Hereinafter, a vehicle heater 1000 of the present invention having the above-described features will be described in detail with reference to the accompanying drawings.

The vehicle heater 1000 of the present invention is formed by including a first support portion 100, a heat generating portion 200, and a housing 400 as means for heat-exchanging and heating with fluid (air) to be flowed.

The first support part 100 is formed in a plate shape perpendicular to the air flow direction, and includes a first heat generating region A110 and a first air flow region A120.

The air flow direction in the present invention is shown in Fig. 2, which is defined to have the same meaning as the thickness direction.

That is, the first support portion 100 forms a first heat generating region A110 where a heat generating portion 200 is formed, and the remaining region forms a first air flowing region A120 through which air flows .

The first air flow region A120 is a region in which a plurality of first hollow portions 101 are formed in the remaining region of the first heat generating region A110 and hollow in a certain region, The shape of the first support part 100 including the shape, number, and number may be variously formed and will be described below again.

The heating unit 200 is configured to generate heat and is formed in the first heating area A110 of the first supporting unit 100 to perform heating of the automotive heater 1000 according to the present invention.

The heater 1000 for a vehicle according to the present invention can simplify the configuration compared with the conventional pin type using the first support portion 100 in the form of a plate having a simple shape, Since the heat generating portion 200 is formed in the region A110, it is possible to reduce the total thickness and to reduce the size.

The heat generating unit 200 may be formed in various ways. In particular, a heat generating tube 221 including a positive temperature coefficient (PTC) element having a high heat generating performance and easy to manufacture may be used.

Referring to FIG. 6, a case in which the heat generating unit 200 is a heat generating tube 221 using the PTC element 223 will be described. In this case, the heat generating unit 200 may include a heat generating tube 221 and the heat generating unit. A guide plate 222 provided inside the tube 221 and having a plurality of through holes formed in a width direction, a PTC element 223 provided in the through hole of the guide plate 222, and the heating tube 221. The positive electrode plate 224 and the negative electrode plate 225 disposed on both sides of the guide plate 222 therein are formed.

At this time, the fixing of the first support part 100 and the heat generating part 200 is further formed with a first fixing part 501 for fixing one side of the heat generating part 200 to the first support part 100 Can be performed.

The shape of the first fixing part 501 may be various, and a method of easily fixing the heat generating part 200 by a simple insertion and fastening without using a separate adhesive will be described below.

2 to 5 have the first fixing part 501 to support both ends of the heating tube 221 on one side of the first support part 100, but protrude so that the separation distance is narrow in the outward direction. A pair of protrusion guides 510, and a predetermined region of the heating tube 221 may correspond to a region between the protrusion guides 510.

That is, the first fixing part 501 is a protrusion guide 510 protruding to support both ends of the heating tube 221 in the height direction shown in the drawing, and the separation distance between the protrusion guides 510 is outside. It is a hook type that becomes narrower with. (D1 <D2)

At this time, both ends of the heating tube 221 is also inserted into the region between the protruding guide 510, and should be formed so as not to be separated after insertion, the height of the heating tube 221 in the drawing height direction The region supported by the first fixing portion 501 of the both end regions is preferably formed to have a width widening toward the side in contact with the protruding guide 510. (See Figs. 4 and 5)

In this case, a plurality of first fixing parts 501 in the form of the protruding guide 510 may be formed in the direction indicated in the width direction in the drawing.

In FIG. 2, the protrusion guide 510 is formed to support both sides of the heating tube 221 at three places in the width direction, but the present invention is not limited thereto, and the heating unit 200 may be fixed. Forming length and the number of the protrusion guide 510 can be adjusted within the range capable of performing.

In the vehicle heater 1000 of the present invention illustrated in FIGS. 2 and 3, one first support part 100 includes a plurality of first heating regions A110 and a plurality of first heating regions A110 on both sides of the first heating region A110. The first air flow region A120 in which the first hollow portion 101 is formed is formed, and in the height direction, four first support portions 100 in which such heat generating portions 200 are formed are formed in the height direction. It was.

One or more first heating regions A110 may be formed in the first support portion 100 and a portion of the first air flow region A120, And the like.

In addition, in the vehicle heater 1000 of the present invention, the first support part 100 may be a single unit, and a plurality of the first heat generating region A110 and the first air flow region A120 may be formed.

In addition, in the vehicle heater 1000 of the present invention, the first fixing part 501 may be formed in the shape shown in FIGS. 7 to 9.

In the vehicle heater 1000 of the present invention shown in Figures 7 to 10 is formed a protrusion 212 protruding a predetermined region of the heating tube 221, the heating tube 221 by using the An example of fixing to the first support part 100 is shown.

7 to 9 illustrate an example in which the first fixing part 501 is a fixing groove 520 into which the protrusion 212 of the heating tube 221 is inserted and fixed.

That is, the protrusion 212 is formed in the heating tube 221, the first fixing portion 501 is a fixing groove 520 into which the protrusion 212 is inserted, the fixing groove 520 is the The protrusion 212 is inserted into the hollow so that a predetermined end portion protrudes in the other side direction in which the heating tube 221 of the first support part 100 is not provided.

In this case, the region in which the protrusion 212 is formed in the heating tube 221 is the first heating region A110 so that the heating tube 221 can sufficiently secure the surface in contact with the first heating region A110. The extension part 211 which extends in both directions in the height direction of the one side which contact | connects) is formed, and it is preferable that the protrusion part 212 is formed in the extension part 211.

More specifically, FIG. 7 is an exploded perspective view showing a state in which the heating tube 221 having the protrusion 212 and the first support part 100 spaced apart, and the vehicle heater 100 of the present invention shown in FIG. A plurality of protrusions 212 are formed, and after the heating tube 221 is inserted into the fixing groove 520 of the first support part 100, the protrusion 212 penetrates the fixing groove 520. An example of fixing by caulking is shown.

In the present invention, caulking means fixing by tapping and pressing the protruding region of the protrusion 212.

In addition, in the vehicle heater 100 of the present invention shown in FIG. 9, the protrusion 212 penetrates through the first support part 100 through the fixing groove 520, and an end of the protrusion 212 is folded. An example in which the heating tube 221 is fixed to the first support part 100 is shown.

8 and 9, the protrusion 212 is inserted into the fixing groove 520 in a dotted line, and the protrusion 212 is inserted into the fixing groove 520. A state after the caulking operation or the folding operation of the projected area of 212 is shown by a solid line.)

The number of the protrusions 212 may be formed in various ways, the vehicle heater 1000 of the present invention has a firm coupling force of the heating tube 221 through the operation of the end of the protrusions 212 is cocked or folded. In this case, the first support part 100 may be fixed to be in close contact with the first heat generating region A110.

In addition, Figure 10 is another cross-sectional view showing a vehicle heater 100 of the present invention, the first fixing portion is the first hollow portion 101 of the first support portion 100, the heating tube 221 is the protrusion The region protruding through the first support part 100 through the first hollow part 101 of 212 is folded and fixed to the first support part 100.

Of course, although not shown in the drawings, the vehicle heater 100 of the present invention, the heating tube 221 protrudes through the first support portion 100 through the first hollow portion 101 of the protrusion 212 The area may be fixed by caulking.

In the form shown in Figure 10, the heating tube 221 is formed with an extension portion 211 extending from both sides of one side in contact with the first heat generating region (A110), the protruding portion in the extension portion 211 An example 212 is formed to fix the protrusion 212 through the first hollow portion 101.

In addition, the vehicle heater 1000 of the present invention is the first heat-generating region (A110) of the first support portion 100 and the heat generating tube 221 of the heat conductive layer 600 is applied to one side or both sides of the first state The first support part 100 and the heating tube 221 may be fixed to abut.

This is to prevent voids from being formed on the contact surface of the first support part 100 and the heat generating part 200 by a mechanical fastening method, so that heat transfer may be lowered. The heat conductive layer 600 having high thermal conductivity may be described above. After the heat generating tube 221 is formed on one side or both sides of the first heat generating region A110 and the heating tube 221 of the first support unit 100, the heating tube 221 is formed on the first heat generating region A110 of the first support unit 100. Can be fixed.

The thermal grease may be used as the thermal conductive layer 600. In addition, a gap is formed on the contact surface between the first support part 100 and the heat generating part 200, and heat is generated from the heat generating part 200. Various materials having high thermal conductivity that can be easily transferred to the (100) side may be used.

In the vehicle heater 1000 of the present invention, the vehicle heater 1000 may include a second heat generation area A310 corresponding to the first heat generation area A110 of the first support part 100, and the second heat generation area. A plurality of second hollow portions 301 are formed adjacent to the A310 and have a predetermined hollow area, and the second air flow regions S320 corresponding to the first air flow regions A120 of the first support part 100 are formed. A second support portion 300 including a may be further provided.

The second support part 300 is configured to support both side surfaces of the heat generating part 200 together with the first support part 100, and one side of the heat generating part 200 is formed of the first support part 100. The first heating area A110 is positioned to be in contact with the other side of the heat generating unit 200 is positioned in contact with the second heating area (A310) of the second support 300.

At this time, the fixing of the second support part 300 and the heat generating part 200 is similar to the method of fixing the first support part 100 and the heat generating part 200 from above, and the second fixing part 300 is fixed to the second support part 300 ( 502 may be formed.

The second fixing part 502 may be formed in the same manner as the fixed shape of the first fixing part 501, and more specifically, the second fixing part 502 may be a protrusion guide 510 form. Can be.

In addition, the second fixing part 502, in the form of a fixing groove 520, a protrusion 212 may also be formed in the heating tube 221 contacting the second support part 300.

13 to 15 illustrate an example in which both the first fixing part 501 of the first supporting part 100 and the second fixing part 502 of the second supporting part 300 are formed in the form of a protruding guide 510. The protrusion guide 510 in consideration of the shape of the first hollow portion 101 formed in the first support portion 100, the second hollow portion 301 formed in the second support portion 300, the heat generating portion 200, and the like. The number and location of the formation may be more variously formed.

In this case, the first fixing part 501 and the second fixing part 502 may be formed in plural numbers spaced apart at regular intervals in the width direction, thereby improving the bearing capacity with a small number.

Meanwhile, as shown in FIGS. 13 and 14, the second support part 300 may be formed in the same form as the first support part 100, and as shown in FIG. A second hollow portion 301 different from the shape of the first hollow portion 101 of the first support portion 100 may be formed to be adjustable.

15, the first hollow portion 101 of the first support portion 100 and the second hollow portion 301 of the second support portion 300 are formed to be inclined at an angle in a width direction, and are inclined. As an example in which the degree is different from each other, only a predetermined region of the regions of the first hollow portion 101 and the second hollow portion 301 is formed to correspond to each other (overlap) in the air flow direction.

That is, in the form shown in FIG. 15, part of the air passing through the first hollow portion 101 of the first support portion 100 is directly discharged through the second hollow portion 301 of the second support portion 300. The rest hits the plate region of the second support part 300 and is then turbulized and discharged.

The vehicle heater 1000 of the present invention illustrated in FIG. 15 may further increase the heat exchange time between the air and the heat generating unit 200 by turbulizing the air flow, thereby increasing the heat exchange performance.

The second support part 300 may be formed integrally with the first support part 100 when the first support part 100 is integrally formed with the second support part 300.

Also, when the first support part 100 is formed in a module shape, it is preferable that the second support part 300 is also formed to have a size corresponding to the first support part 100 to form a module together.

In addition, in the vehicle heater 1000 of the present invention, in order to further improve heat exchange performance, the first louver pin 102 is disposed at the first hollow part 101, and the second hollow part 301 is disposed at the second hollow part 301 of the second support part 300. Louver pin 302 may be further formed, as shown in FIG.

The first louver pin 102 and the second louver pin 302 have a predetermined area corresponding to the first hollow part 101 and the second hollow part 301, respectively, and are cut out to form a protrusion. do.

That is, the first louver fin 102 and the second louver fin 302 are integrally formed with the first support portion 100 and the second support portion 300, And has a shape extending from the second hollow portion 301.

The first louver fin 102 and the second louver fin 302 are formed by cutting only the remaining portion except for the specific portion in the process for forming the first hollow portion 101 and the second hollow portion 301 The first supporting part 100, and the second supporting part 300. In this case, as shown in FIG.

In other words, in the vehicle heater 1000 of the present invention, the first louver fin 102 and the second louver fin 302 were removed to form the first hollow part 101 and the second hollow part 301. By forming using the region, it can be manufactured by a simple method, and the contact area with air can be further increased, and thus the overall heat exchange performance can be improved.

Accordingly, the vehicle heater 1000 of the present invention uses the first support portion 100 (and the second support portion 300) in the form of a plate positioned perpendicular to the air flow direction, and the first fixing portion 501 ( And by easily fixing the heat generating portion using the second fixing part 502, it is easy to manufacture while reducing the thickness can be miniaturized, there is an advantage to improve the heating performance by increasing the heat exchange performance.

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.

1000: Car heater
100: first support portion 101: first hollow portion
102: first louver pin
A110: first heat generating region A120: first air flow region
200: heating unit
211 extension 212 protrusion
221: exothermic tube 222: guide plate
223: Pitti element 224: positive electrode plate
225: cathode plate
300: second support portion 301: second hollow portion
302: second louver pin
A310: second heat generating zone A320: second air flow zone
400: housing
501: First Government 502: Second Government
510: protrusion guide
D1, D2: Distance between protrusion guide
520: fixing groove
600: thermal conductive layer

Claims (22)

A first plate comprising a first heat generating region (A110) and a first air flow region (A120) formed with a plurality of first hollow portion 101 is hollow in a predetermined area in the form of a plate perpendicular to the air flow direction Support part 100;
A heating part 200 formed in the first heating area A110 of the first supporting part 100 and generating heat; And
A housing 400 supporting and fixing one end of the first support part 100 and the heat generating part 200; Including,
Vehicle heater, characterized in that the first fixing portion (501) for fixing one side of the heat generating portion 200 is further formed on the first support portion (100).
The method of claim 1,
The heating unit 200 is a vehicle heater, characterized in that it comprises a heating tube (221) including a PTC (Positive Temperature Coefficient) element.
3. The method of claim 2,
The vehicle heater 1000 has a pair of protrusions in which the first fixing part 501 supports both ends of the heating tube 221 on one side of the first support part 100, but the separation distance is narrowed outward. Protruding guide 510,
Vehicle heater, characterized in that the predetermined region of the heating tube 221 corresponds to the region between the protrusion guide (510).
3. The method of claim 2,
The vehicle heater 1000 has a protrusion 212 protruding in an outward direction such that a predetermined region of the heating tube 221 protrudes through the first support part 100.
The first fixing part (501) is a heater for a vehicle, characterized in that the fixing groove 520 is inserted into and fixed to the projecting portion (212) of the heating tube (221).
5. The method of claim 4,
The heating tube 221 is
Vehicle heater, characterized in that the area protruding through the first support portion 100 through the fixing groove 520 of the protrusion 212 is caulking or folded to be fixed to the first support portion 100 .
3. The method of claim 2,
The vehicle heater 1000 has a protrusion 212 protruding in an outward direction such that a predetermined region of the heating tube 221 protrudes through the first support part 100.
The first fixing part 501 to the first hollow portion 101 of the first support portion 100,
An area protruding from the heating tube 221 through the first hollow portion 101 of the protrusion 212 through the first support portion 100 is caulked or folded to be fixed to the first support portion 100. Vehicle heater, characterized in that.
The method according to claim 6,
The heating tube 221 is formed with an extension portion 211 extending from both sides in the height direction of one side in contact with the first heat generating region (A110), the protruding portion 212 is formed on the extension portion 211. Vehicle heater, characterized in that.
3. The method of claim 2,
The heating unit 200
A heat generating tube 221,
A guide plate 222 provided in the heating tube 221 and having a plurality of through holes in the width direction,
A physiside element 223 provided in a through hole of the guide plate 222,
Vehicle heater, characterized in that it comprises a positive electrode plate 224 and a negative electrode plate 225 respectively disposed on both sides of the guide plate 222 in the heating tube (221).
3. The method of claim 2,
The vehicle heater 1000 has the first support part 100 in a state in which the heat conductive layer 600 is applied to one side or both sides of the first heat generating region A110 and the heating tube 221 of the first support part 100. And a heating tube 221 is fixed to the vehicle heater.
3. The method of claim 2,
The vehicle heater 1000 is a vehicle heater, characterized in that it comprises a first louver fin (102) extending to the edge of the first hollow portion (101).
A first plate comprising a first heat generating region (A110) and a first air flow region (A120) formed with a plurality of first hollow portion 101 is hollow in a predetermined area in the form of a plate perpendicular to the air flow direction Support part 100;
A heating part 200 formed in the first heating area A110 of the first supporting part 100 and generating heat;
A second heat generating region A310 corresponding to the first heat generating region A110 of the first support part 100, and a plurality of second hollow portions having a predetermined area hollowed adjacent to the second heat generating region A310 ( A second support part 300 having a 301 formed therein and including a second air flow area S320 corresponding to the first air flow area A120 of the first support part 100;
A first fixing part 501 formed on the first support part 100 to fix one side of the heat generating part 200;
A second fixing part 502 formed on the second support part 300 to support and fix both sides of the heat generating part 200 together with the first support part 100 to fix the other side of the heating tube 221;
A housing 400 supporting and fixing one end of the first support part 100, the second support part 300, and the heat generating part 200; Vehicle heater, characterized in that it is formed to include.
12. The method of claim 11,
The heating unit 200 is a vehicle heater, characterized in that it comprises a heating tube (221) including a PTC (Positive Temperature Coefficient) element.
The method of claim 12,
The vehicle heater 1000 has the first fixing part 501 and the second fixing part 502 to support both ends of the heating tube 221 on both sides of the first support part 100, but the separation distance in the outward direction A pair of protrusion guides 510 to protrude narrowly,
Vehicle heater, characterized in that the predetermined region of the heating tube 221 corresponds to the region between the protrusion guide (510).
The method of claim 13,
The first fixing part 501 and the second fixing part 502 are
Vehicle heaters, characterized in that formed in plurality in the width direction spaced apart.
The method of claim 12,
The vehicle heater 1000 has protrusions 212 protruding in both directions such that a predetermined region of the heating tube 221 protrudes through the first support part 100 and the second support part 300. ,
The first fixing part (501) and the second fixing part (502) is a heater for a vehicle, characterized in that the fixing groove 520 is inserted into and fixed to the projection 212 of the heating tube (221).
16. The method of claim 15,
The heating tube 221 is
An area protruding through the first support part 100 and the second support part 300 through the fixing groove 520 of the protrusion 212 is caulked or folded, so that the first support part 100 and the first Vehicle heater, characterized in that fixed to the two support (300).
The method of claim 12,
The vehicle heater 1000 has protrusions 212 protruding in both directions such that a predetermined region of the heating tube 221 protrudes through the first support part 100 and the second support part 300. ,
The first fixing part 501 to the first hollow portion 101 of the first support portion 100,
The second fixing part 502 is the second hollow portion 301 of the second support portion 300,
An area where the heating tube 221 protrudes through the first support part 100 and the second support part 300 through the first hollow part 101 and the second hollow part 301 of the protrusion part 212 is formed. Caulking (caulking) or folded vehicle heater, characterized in that fixed to the first support portion 100 and the second support portion (300).
18. The method of claim 17,
The heating tube 221 has an extension portion 211 extending from both sides in the height direction of both sides in contact with the first heat generating region A110 and the second heat generating region A310 in the height direction, and the extension portion ( 211) The vehicle heater, characterized in that the protrusion (212) is formed.
The method of claim 12,
The heating unit 200
A heat generating tube 221,
A guide plate 222 provided in the heating tube 221 and having a plurality of through holes in the width direction,
A physiside element 223 provided in a through hole of the guide plate 222,
Vehicle heater, characterized in that it comprises a positive electrode plate 224 and a negative electrode plate 225 respectively disposed on both sides of the guide plate 222 in the heating tube (221).
The method of claim 12,
The vehicle heater 1000 has heat conduction on one side or both sides of the first heat generating region A110 of the first support unit 100, the second heat generating region A310 of the second support unit 300, and the heating tube 221. Vehicle heater, characterized in that the first support portion 100 and the second support portion 300 and the heating tube 221 is fixed in the state that the layer 600 is applied.
The method of claim 12,
The vehicle heater 1000 may include a first louver fin 102 extending at an edge of the first hollow portion 101 and a second louver fin 302 extending at an edge of the second hollow portion 301. Vehicle heater, characterized in that it is formed, including.
The method of claim 12,
The automotive heater (1000)
The heater of claim 1, wherein the first hollow part 101 and the second hollow part 301 are formed to overlap each other in a predetermined direction in an air flow direction.

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