DE102007032896A1 - Positive temperature coefficient rod arrangement for use in pre-heater for vehicle, has insulation foil applied at surface of electrode connector, where connector, support unit and insulation foil are provided in internal space of rod - Google Patents

Abstract

The arrangement has a support unit (130) provided with arrangement holes (132), where positive temperature coefficient devices (120) are inserted in the arrangement holes. Multiple through holes are inserted in support projections such that the projections stay in close contact with a surface of an electrode connector (140). An insulation foil (150) is applied at a remaining surface of the connector for contacting the connector. The connector, the support unit and the insulation foil are provided in an internal space of a positive temperature coefficient rod (110). An independent claim is also included for a pre-heater for a vehicle, comprising a pair of frames.

Description

Description of the relevant State of the art

Hereinafter, a conventional PTC rod assembly (PTC - Positive Temperature Coefficient) will be described with reference to the accompanying drawings. Show it:
1a a perspective view of a conventional PTC rod assembly and 1b an exploded perspective view of the in 1a shown PTC rod assembly.

As in 1a and 1b shown has a PTC rod assembly 1 a first PTC rod 10 , a second PTC rod 20 , an anode connection 40 , PTC devices 50 and electric heating blocks 60 on. The first PTC rod 10 is canal-shaped and long. The second PTC rod 20 is at the first PTC staff 10 coupled to the opening of the first PTC rod 10 cover. The anode connection 40 is like that with an insulator 30 surrounded that the anode connection 40 the first PTC rod 10 not contacted and in the first PTC rod 10 is positioned. The PTC devices 50 are between the anode connection 40 and the second PTC rod 20 intended. The electric heating blocks 60 are made of a material with high thermal conductivity and contact the surface of the anode terminal 40 ,

An area of each PTC device 50 contacts the anode terminal 40 while the other face of each PTC device 50 the second PTC rod 20 contacted, which serves as a cathode connection. If every PTC device 50 is electrically applied, gives the PTC device 50 therefore heat off. Since the first and the second PTC rod 10 and 20 contact each other, serve the first PTC rod 10 and the second PTC rod 20 together as cathode connection. Furthermore, widened parts 32 and 34 at opposite ends of the insulator 30 and are in close contact with the inner surfaces of the first and second PTC rods 10 and 20 when the first and the second PTC rod 10 and 20 coupled to each other. One through the first and second PTC rods 10 and 20 defined interior is thus due to the widened parts 32 and 34 sealed.

Such a conventional insulator 30 is made by injection molding by placing an insulating material around an insert (anode terminal 40 ) is injection-molded around, that the coupling force and the strength of the insulator 30 increase. That is, the injection molding for the insulator 30 is performed as follows. A mold is prepared, and the anode connector 40 is arranged in the mold. After that, the insulator 30 around the anode connection 40 injection molded around. The conventional insulator 30 thus has the disadvantage that its production takes place in several steps, so that the process for the preparation of the insulator 30 complicated and the workability is poor. Thus, since the manufacturing method and the construction are complicated, the productivity is low, so that the mass production is difficult.

BRIEF SUMMARY OF THE INVENTION

Accordingly The present invention has been made in consideration of the above problems in Developed prior art, and an object of the present Invention is to provide a rod arrangement with PTC devices and a preheater for vehicles with the PTC rod assembly, the manufacture and assembly of the PTC rod assembly facilitate and have a simple design.

to fulfillment In the above object, the present invention provides: a PTC rod assembly with PTC devices, an electrode terminal, which is configured to have multiple through holes in its longitudinal direction from each other and that it is for contacting the PTC devices is configured, with arrangement holes in which the respective PTC devices added be, and support tabs, the in the through holes introduced and be installed so that they are in close contact with an area of the Electrode connection stand, provided support element and an insulating film, the on the remaining area of the electrode terminal is attached to the electrode terminal to contact, wherein the electrode terminal, the support element and the insulating film are provided in the interior of a PTC rod.

The Insulating film may be formed of insulating tape and may be on a area be adhered to the electrode terminal.

Further can the support element several support elements each having a single locating hole, wherein the support elements in the longitudinal direction the electrode terminal arranged and adhering to predetermined Distances from each other are spaced.

Further can the support element be formed so that locating holes in its longitudinal direction spaced apart in accordance with predetermined distances are.

Further can the support element be formed so that it is wider than the electrode terminal, and the support element may have bent parts surrounding both sides of the electrode terminal.

Further For example, the PTC rod may be formed in the form of an integrated tube in which the electrode terminal, the PTC devices, the support element and the insulating film are provided and then compressed and be formed.

Further For example, the PTC rod may comprise a second PTC rod which is connected to the PTC rod Electrode connector, the PTC devices, the support element and provided with the insulating film and adapted to surround it, and a first PTC rod coupled to the second PTC rod, wherein the PTC rod is formed by compression.

Further can widened parts may be coupled at both ends of the PTC rod, so that they are in close contact with both ends, each one the widened parts have a larger cross-section than the PTC staff has.

Furthermore the invention provides a PTC rod assembly comprising: PTC devices, an electrode connector that configures so is that the coupling recesses in its longitudinal direction spaced from each other and configured to contact the PTC devices, a support member with arrangement holes, in introducing the respective PTC devices, and bent parts, surrounding both sides of the electrode terminal, and coupling projections, the on the inner surfaces the bent parts are formed and inserted into the coupling recesses and be installed so that they are in close contact with the electrode connector stand, and an insulating film attached to the remaining surface of the electrode terminal is attached to contact the electrode terminal, wherein the Elektrodenan connection, the support element and the insulating film are provided in the interior of a PTC rod.

The Insulating film can be shaped and can be applied to one surface of the Attached electrode terminal.

Further can the support element several support elements each having a single locating hole, wherein the support elements in the longitudinal direction the electrode terminal arranged and adhering to predetermined Distances from each other are spaced.

Further can the support element be formed so that locating holes in its longitudinal direction spaced apart in accordance with predetermined distances are.

Further can the coupling recesses be formed so that respective coupling recesses in Both sides of the electrode terminal are formed and in the longitudinal direction of the electrode terminal, based on a single Arrangement hole, and the arrangement holes are in respective Regions between the coupling recesses in the longitudinal direction of the electrode connection.

Further For example, the PTC rod may be formed in the form of an integrated tube in which the electrode terminal, the PTC devices, the support element and the insulating film are provided and then compressed and be formed.

Further For example, the PTC rod may comprise a second PTC rod which is connected to the PTC rod Electrode connector, the PTC devices, the support element and provided with the insulating film and adapted to surround it, and a first PTC rod coupled to the second PTC rod, wherein the PTC rod is formed by compression.

Further Widened parts are coupled at both ends of the PTC rod so that they are in tight Contact with both ends, each of the widened parts a larger cross section than the PTC staff has.

Furthermore For example, the present invention provides a vehicle preheater with a PTC rod assembly having the above-described structure, one or more radiating fin arrangements, the to both surfaces the PTC rod assembly are coupled, a pair of frames, to the Outer surfaces of the outermost Radiating fin arrangements is coupled and a first and a second housing, at the respective ends of a structure with the PTC rod assembly, the radiating fin assemblies and the frame are coupled.

BRIEF DESCRIPTION OF THE DRAWINGS

The Above and other objects, features and advantages of the present invention The invention will be apparent from the following detailed description better understood with the accompanying drawings. Show it:

1a a perspective view of a conventional PTC rod assembly,

1b an exploded perspective view of the conventional PTC rod assembly,

2 an exploded perspective view of a PTC rod assembly according to the first embodiment of the present invention,

3 11 is a view of the process of mounting the PTC rod assembly according to the first embodiment of the present invention;

4a and 4b exploded perspective views of the PTC rod assemblies according to modifications of the first embodiment of the present invention,

5a and 5b an exploded perspective view and a sectional view of a PTC rod assembly according to another modification of the first embodiment of the present invention,

6 an exploded perspective view of a PTC rod assembly according to another modification of the first embodiment of the present invention,

7 a sectional view of the assembled state of the PTC rod assembly 6 .

8th an exploded perspective view of a PTC rod assembly according to another modification of the first embodiment of the present invention,

9 an exploded perspective view of a PTC rod assembly according to the second embodiment of the present invention,

10a and 10b View of the process of mounting the PTC rod assembly according to the second embodiment of the present invention.

11a and 11b exploded perspective views of the PTC rod assemblies according to modifications of the second embodiment of the present invention,

12a and 12b an exploded perspective view and a sectional view of a PTC rod assembly according to another modification of the second embodiment of the present invention,

13 an exploded perspective view of a PTC rod assembly according to a further modification tion of the second embodiment of the present invention,

14a and 14b Views of the process of mounting the PTC rod assembly 13 .

15 an exploded perspective view of a PTC rod assembly according to another modification of the second embodiment of the present invention and

16 an exploded perspective view of a preheater for vehicles according to the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

in the Further, the preferred embodiments of the present Invention in detail with reference to the accompanying drawings.

2 is an exploded perspective view of a PTC rod assembly according to the first embodiment of the present invention and 3 a view of the process of mounting the PTC rod assembly according to the first embodiment of the present invention.

As in 2 shown has a PTC rod assembly 100 according to the first embodiment of the present invention, a PTC rod 110 with a predetermined space in it. In the room of the PTC staff 110 is an electrode connection 140 provided and contacted PTC devices 120 , support elements 130 each with a placement hole 132 are in close contact with a surface of the electrode terminal 140 , For contacting the electrode connection 140 is an insulating film 150 on the other surface of the electrode terminal 140 appropriate.

More precisely, the PTC staff has 110 the shape of a tube having a predetermined space therein, wherein the electrode terminal 140 , the PTC devices 120 , the support elements 130 and the insulating film 150 in the PTC rod 110 are housed. For fixing these inner parts to the PTC rod 110 becomes the PTC staff 110 compressed while the inner parts are housed therein. A pair of widened parts 160 whose cross-sectional area each greater than that of the PTC rod 110 is at opposite ends of the PTC rod 110 coupled to the end of the PTC rod 110 to be in close contact. Preferably, the interior of the PTC rod 110 designed so that it is wider than the electrode connection 140 is, and each support element 130 is designed to be wider than the electrode connector 140 is to make electrical contact of the inner surface of the PTC rod 110 with the electrode connection 140 to avoid.

The widened parts 160 have the same cross-sectional shape as the PTC rod 110 , If the widened parts 160 to the PTC staff 110 are coupled, the respective inner surface of the widened parts 160 in close contact with the outer surfaces of both ends of the PTC rod 110 , The pair of widened parts 160 has a front widened part 160a and a rear widened part 160b on each of the front and rear ends of the PTC rod 110 close. In the middle Section of the front widened part 160a there is an outdoor hole 161 so that one end of the electrode connection 140 through the open-air hole 161 exposed. The rear widened part 160b seals the rear end of the PTC rod 110 , thereby preventing contact by dust or contaminants with the PTC devices 120 a fire is created.

The electrode connection 140 is so in the PTC staff 110 that he installed the PTC devices 120 Kontak animal, and serves as the anode terminal, through which the PTC devices 120 be electrically applied. Such an electrode connection 140 extends a long distance in the same direction as the longitudinal direction of the PTC rod 110 , Along the electrode connection 140 are through holes 141 formed, which are spaced apart. If the support elements 130 to the electrode connection 140 are coupled, are supporting projections 131 the support elements 130 in the through holes 141 introduced, thereby preventing the support elements 130 undesirable on the electrode connection 140 move.

At one end of the electrode connection 140 may be provided a connecting part which is folded at a predetermined angle. The end of the electrode connection 140 with the connecting part is wider than the middle section of the electrode terminal 140 educated. Both ends of the connector may be folded so that they overlap. This type of connection part increases the strength and allows the stable power transmission between the connection part and a connector coupled to the connection part.

Furthermore, the support elements 130 on a surface of the electrode terminal 140 mounted to the PTC devices 120 hold. The support elements 130 prevent the electrode connection 140 the PTC rod 110 contacted, and help ensure that the PTC devices 120 the electrode connection 140 to contact. The support elements 130 have a plurality of support elements in the longitudinal direction of the electrode terminal 140 are arranged and spaced from each other at predetermined intervals. In every support element 130 is a placement hole 132 formed, whose shape of each PTC device 120 corresponds, causing the PTC device 120 is held. The supporting projections 131 are at opposite ends of each support element 130 intended. The supporting projections 131 stand from the surface of each electrode connection 140 contacting support element 130 before and into the appropriate through holes 141 of the electrode connection 140 introduced, creating an undesirable lateral movement of the support element 130 is prevented. Each support element 130 with the support tabs 131 can be separated from the electrode connection 140 and then with the electrode connection 140 to be assembled. As an alternative, the support elements 130 together with the electrode connection 140 be injection molded.

Furthermore, the insulating film 150 so on the other surface of the electrode connection 140 attached that an electrical contact of the electrode terminal 140 with the PTC rod 110 is prevented. This type of insulating film 150 prevents a short circuit that occurs when the electrode terminal serving as the anode terminal 140 the PTC rod serving as the cathode terminal 110 electrically contacted.

When the electrode connection 140 , the PTC devices 120 , the support elements 130 and the insulating film 150 as described above in the PTC rod 110 are housed, the outer surface of the PTC rod 110 compressed so that the parts are in close contact with each other. In this way, the PTC rod assembly according to the invention 100 produced.

If the parts like in 3 shown in the PTC rod 110 are arranged, the upper and the lower surface of the PTC rod 110 For example, so compressed that the parts, ie the electrode connection 140 , the PTC devices 120 , the support elements 130 and the insulating film 150 , at the PTC staff 110 while being in close contact with the PTC rod 110 stand. This can cause unwanted movement of the parts in the PTC rod 110 be prevented. Further, the interior of the PTC rod 110 wider than the electrode connection 140 , and each support element 130 is wider than the electrode connection 140 , thereby preventing the inner surface of the PTC rod 110 with the electrode connection 140 comes in electrical contact.

As such, the PTC rod assembly of the present invention is manufactured by a simple assembly process in which the parts in the tubular PTC rod 110 be arranged and the PTC rod 110 is then compressed, thereby increasing productivity and facilitating mass production.

In the thus mounted PTC rod assembly 100 is a surface of the electrode terminal 140 through the PTC devices 120 with the PTC rod 110 connected while the other surface of the electrode terminal 140 through the insulating film 150 from the PTC rod 110 is isolated. When the electrode terminal serving as the anode terminal 140 and the PTC rod serving as the cathode terminal 110 electrically beauf The PTC devices give 120 Heat off and transfer the heat to the outside.

A conventional PTC rod assembly is manufactured by insert molding. That is, after preparing a mold and placing an anode terminal in the mold, insulation is injection molded around the anode terminal. Thus, the conventional PTC rod assembly is manufactured by a complex method. In the case of PTC rod assembly according to the invention 100 become the PTC devices 120 in contrast, with the support elements 130 at the electrode connection 140 attached so that the PTC devices 120 easy to mount. Furthermore, the thin insulating film 150 at the electrode connection 140 provided so that the construction of the PTC rod assembly 100 easy.

4a and 4b FIG. 13 are exploded perspective views of PTC bar assemblies according to modifications of the first embodiment of the present invention.

As in 4a shown has a PTC rod assembly 100 according to a modification of the first embodiment of the present invention, a tubular PTC rod 110 , an electrode connection 140 containing multiple PTC devices 120 contacted, a support element 130 with several arrangement holes 132 for holding the PTC devices 120 connected to a surface of the electrode terminal 140 in contact, and an insulating film 150 on that on the other face of the electrode terminal 140 attached to the electrode connector 140 to contact. As the general construction of the modification, except the supporting element 130 is the same as in the first embodiment, a detailed description of the general construction will be omitted.

The support element 130 extends over a large distance in the same direction as the longitudinal direction of the PTC rod 110 , The respective PTC devices 120 corresponding arrangement holes 132 are in the support element 130 formed in the longitudinal direction and spaced from each other. For consistency with the four PTC devices shown in the drawing 120 For example, according to the modification of the first embodiment, a first arrangement hole 132a , a second arrangement hole 132b , a third arrangement hole 132c and a fourth arrangement hole 132d in the support element 130 educated. Every arrangement hole 132 is formed with a shape similar to that of each PTC device 120 corresponds, and prevents the lateral movement of the in the corresponding arrangement hole 132 seated PTC device 120 ,

After this modification, four were in the longitudinal direction of the support element 130 arranged PTC Vorrich lines 120 and the support element 130 with four arrangement holes 132 that the PTC devices 120 correspond described. The number of arrangement holes 132 in the support element 130 however, is not limited to four and may vary depending on the number of PTC staff 110 provided PTC devices 120 to change.

In the longitudinal direction of the support element 130 can have several supporting projections 131 be formed so that they are spaced from each other. That is, two support projections 131 are on opposite sides of a placement hole 132 intended. In the electrode connection 140 can through holes 141 be formed so that they on the support element 130 trained support tabs 131 correspond.

After this modification are two support projections 131 on opposite sides of a locating hole 132 intended. A pair of supporting projections 131 but can only at opposite ends of the support element 130 be provided or only at the central portion of the support element 130 , As such, the support projections 131 in various ways on the support element 130 be provided.

As in 4b shown, has a support element 130 several arrangement holes 132 for holding multiple PTC devices 120 and may have an area similar to that of the electrode terminal 140 corresponds to the electrode connection 140 to overlap. In contrast to the support element in 4a has the support element 4b no support projections 131 , If a PTC rod 110 for holding an electrode terminal 140 , PTC devices 120 , the support element 130 and an insulating film 150 in the PTC rod 110 is compressed, acts a compression force between the parts. Additional support projections 131 for fastening the support element 130 at the electrode connection 140 are therefore not required.

5a and 5b FIG. 10 is an exploded perspective view and a sectional view of a PTC rod assembly according to another modification of the first embodiment of the present invention. FIG.

As in 5a and 5b shown has the PTC rod assembly 100 according to the modification of the first embodiment of this invention, a tubular PTC rod 110 with a predetermined space, an electrode terminal 140 containing multiple PTC devices 120 contacted, several support elements 130 , which are in close contact with a surface of the electrode terminal 140 stand, and an insulating film 150 on the other surface of the electrode terminal 140 attached to the electrode connector 140 to contact. Each support element 130 has a placement hole 132 to the corresponding PTC device 120 and is bent at both ends.

That is, the support elements 130 are in the same direction as the longitudinal direction of the PTC rod 110 arranged. On both side ends of each support element 130 are curved parts 133 provided to both sides of the electrode terminal 140 to surround. The bent parts 133 each support element 130 prevent the lateral movement of the support element 130 when the support element 130 to the electrode connection 140 is coupled. Each support element 130 is in the PTC staff 110 accommodated, whereby the electrical contact of the inner surface of the PTC rod 110 with the electrode connection 140 is prevented.

After this modification are both sides of the electrode terminal 140 from the bent parts 133 surrounded on both sides of each support element 130 are provided and extend in the longitudinal direction. The shape of both sides of the electrode terminal 140 surrounding bent parts 133 but can be different and is not limited to the above form. For example, one or more bent parts may be provided on each side of each support member in its longitudinal direction so as to be spaced from each other while maintaining predetermined distances.

After the modification are the bent parts 133 further on both sides of each support element 130 with a placement hole 132 intended. However, bent parts may be provided on a support member having a plurality of arrangement holes.

6 FIG. 13 is an exploded perspective view of a PTC rod assembly according to another modification of the first embodiment of the present invention; and FIG 7 is a sectional view of the assembled state of the PTC rod assembly 6 ,

As in 6 and 7 shown has the PTC rod assembly 100 according to the modification of the first embodiment of this invention, a tubular PTC rod 110 with a predetermined space, an electrode terminal 140 containing multiple PTC devices 120 contacted and in his two sides coupling recesses 141 has, support elements 130 , the respective arrangement holes 132 for holding the PTC devices 120 and in close contact with a surface of the electrode terminal 140 stand, and an insulating film 150 on that on the other face of the electrode terminal 140 attached to the electrode connector 140 to contact. In this case, each of the support elements 130 curved parts 133 , both sides of the electrode connection 140 surround. At the respective inner surfaces of the bent parts 133 are coupling projections 134 formed in the coupling depressions 141 be introduced. As the general construction, apart from the coupling recesses 141 of the electrode connection 140 and the support elements 130 is the same as in the first Ausfüh tion form is dispensed with their detailed description.

The electrode connection 140 extends inside in the same longitudinal direction as that of the PTC rod 110 , and the coupling depressions 141 are trained in both sides of it. In this case, several coupling recesses are preferred 141 in both sides of the electrode connection 140 in the longitudinal direction of the electrode terminal 140 formed and are spaced from each other. When the electrode connection 140 and the support elements 130 coupled to each other, are the coupling wells described above 141 on the coupling projections 134 the support elements 130 plugged and attached, allowing unwanted movement of the support elements 130 at the electrode connection 140 can be prevented. In this case, there are several support elements 130 , as in 6 shown in the longitudinal direction of the electrode terminal 140 provided and spaced apart in accordance with predetermined distances.

The bent parts 133 that are bent so that they are both sides of the electrode terminal 140 surrounded, are on both sides of each support element 130 educated. In this case, the coupling projections 134 that fit into both sides of the electrode terminal 140 trained coupling depressions 141 are introduced on the inner surfaces of the respective bent parts 133 educated. Due to the structure described above, the movement of the support elements 130 at the electrode connection 140 prevents when the support elements 130 and the electrode connection 140 coupled to each other. Electrical contact between the inner side surfaces of the PTC rod 110 and the electrode terminal 140 is prevented when the support elements 130 and the electrode connection 140 into the interior of the PTC rod 110 are introduced.

The structure described above between the support elements 130 and the coupling depressions 141 will be described in more detail below. The coupling projections 134 the support elements 130 and the coupling depressions 141 of the electrode connection 140 are formed at corresponding positions. The coupling depressions 141 are formed so that respective in both sides of the electrodes connection 140 formed coupling recesses in the longitudinal direction of the electrode terminal 140 alternating, based on a single locating hole 132 , and the arrangement holes 132 are formed so that they are in the respective areas L between the coupling recesses 141 are arranged, extending in the longitudinal direction of the electrode terminal 140 are located. Accordingly, the support elements 130 designed so that a single locating hole 132 is formed in the central portion of each support member and two coupling projections 134 at the respective inner surfaces of a pair of bent parts 133 are formed. The two coupling projections 134 are at the end sections of the two curved parts 133 formed, so that the single arrangement hole 132 in the region L between the coupling projections 134 located. That is, if one compares the areas in which the arrangement holes 132 be in the state in which the support elements 130 to the electrode connection 140 are coupled, then the coupling projections 134 and the coupling depressions 141 not formed in the same areas in the longitudinal direction, but the coupling projections 134 and the coupling depressions 141 are in diagonal directions with respect to the arrangement holes 132 coupled together. Noise caused by heat generation due to the electrical connection between the electrode connection 140 and the PTC devices 120 is due, as well as the release of the coupling when, for example, the support elements 130 from the electrode connection 140 can be prevented by the construction described above.

8th Fig. 10 is an exploded perspective view of a PTC rod assembly according to another modification of the first embodiment of the present invention.

As in 8th shown has the PTC rod assembly 100 according to the modification of the first embodiment of this invention, a tubular PTC rod 110 , an electrode connection 140 containing multiple PTC devices 120 contacted and in his two sides coupling recesses 141 has, a support element 130 that has several arrangement holes 132 for holding the PTC devices 120 has and in close contact with a surface of the electrode terminal 140 stands, and an insulating film 150 on that on the other face of the electrode terminal 140 attached to the electrode connector 140 to contact. As the general construction in the modification, apart from the supporting element 130 , the same as in the modification of the first embodiment, in connection with 6 is described, is omitted their detailed description.

In the support element 130 are the arrangement holes 132 extending in the longitudinal direction of the PTC rod 110 extend and the PTC devices 120 correspond, are formed so that they are spaced apart in the longitudinal direction. So that it is the four in 8th shown PTC devices 120 corresponds, has the support element 130 For example, according to the modification of the first embodiment, the arrangement holes 132 on, ie a first arrangement hole 132a , a second arrangement hole 132b , a third arrangement hole 132c and a fourth arrangement hole 132d , The arrangement holes 132 are designed so that their shape to the respective PTC devices 120 corresponds, and thus prevent the lateral movement of the introduced PTC devices 120 ,

In the modification of the present embodiment, although a support member 130 described in which the four PTC devices 120 and the four PTC devices 120 corresponding four arrangement holes 132 in the longitudinal direction of the support element 130 are formed, but the number of in the support element 130 trained arrangement holes 132 is not limited to this and may vary according to the number of PTC staff 110 provided PTC devices 120 to change.

Furthermore, the support element 130 with bent parts 133 provided on both sides of the electrode terminal 140 surrounded, and coupling projections 134 in the coupling wells 141 are introduced on the inner surfaces of the bent parts 133 educated. In this case, the coupling projections 134 designed so that two at respective bent parts 133 formed coupling projections in the longitudinal direction of the support element 130 alternating, based on a single locating hole 132 , and the arrangement holes 132 are located in areas L between coupling projections 134 in the longitudinal direction of the support element 130 , Accordingly, the coupling projections 134 corresponding coupling recesses 141 at the coupling projections 134 trained appropriate places. The coupling projections 134 may indeed be formed so that two coupling projections 134 based on a single locating hole 132 are formed, but the coupling projections 134 can be formed in various ways; For example, respective coupling projections only at both ends of the support element 130 be formed or in the central portion of the support element 130 ,

9 is an exploded perspective view of a PTC rod assembly according to the second embodiment of the present invention, and 10a and 10b FIG. 15 are views of the process of mounting the PTC rod assembly according to the second embodiment of the present invention Invention.

As in 9 shown has the PTC rod assembly 100 according to the second embodiment of this invention, an electrode terminal 140 , a PTC rod 110 , Support elements 130 and an insulating film 150 on. The electrode connection 140 has several through holes 141 , The PTC rod 110 has a first PTC rod 110a , which is a surface of the electrode terminal 140 surrounds, and a second PTC rod 110b on top of the first PTC staff 110a is coupled and the other surface of the electrode terminal 140 surrounds. Each support element 130 has a placement hole 132 and supporting projections 131 , The insulating film 150 is on the other surface of the electrode terminal 140 attached to the electrode connector 140 to contact. As the general construction of the second embodiment except for the PTC rod 110 is the same as in the first embodiment, a detailed description of its general construction will be omitted.

As in 10a and 10b shown is the first PTC rod 110a designed to be the same length as the second PTC rod 110b Has. At both ends of the first PTC rod 110a are locking steps 112 intended. When the first PTC rod 110a to the second PTC rod 110b Thus, the first PTC rod closes 110a the open top of the second PTC rod 110b ,

The second PTC rod 110b has the shape of an open-topped channel, and its length corresponds to that of the first PTC rod 110a , At the upper portions of both sides of the second PTC rod 110b are locking seats 111 provided, which the Arretierungsstufen 112 of the first PTC rod 110a match, so the first PTC rod 110a on the second PTC rod 110b sitting.

If the first and the second PTC rod 110a and 110b are coupled together in the coupled first and second PTC rods 110a and 110b defines a predetermined space. In the room are the electrode connection 140 , the support elements 130 , the PTC devices 120 and the insulating film 150 intended.

At opposite ends of the PTC rod 110 are widened parts 160 intended. The pair of widened parts 160 has a front widened part 160a and a second widened part 160b in close contact with the outer portions of opposite ends of the first and second PTC rods 110a and 110b standing, whereby the opposite ends of the first and the second PTC rod 110a and 110b getting closed.

When the electrode connection 140 , the PTC devices 120 , the support elements 130 and the insulating film 150 in the PTC rod 110 , the first and the second PTC staff 110a and 110b As described above, the outer surface of the PTC rod is installed 110 compressed so that the parts are in close contact with each other. In this way, the preparation of the PTC rod assembly according to the invention 100 completely.

When the in 10a For example, shown parts on the second PTC rod 110b becomes the first PTC staff 110a against the upper surface of the second PTC rod 110b pressed to the second PTC rod 110b cover. This will be the electrode connection 140 , the PTC devices 120 , the support elements 130 and the insulating film 150 on the interior of the PTC rod 110 attached. After the at both ends of the first PTC rod 110a provided Arretierungsstufen 112 on the two ends of the second PTC rod 110b provided locking seats 111 become the first and the second PTC staff 110a and 110b zusammenge suppressed and the ends of the locking seats 111 bent. This will become the first and second PTC rods 110a and 110b coupled together like in 10b shown.

If the first and the second PTC rod 110a and 110b are compressed in the PTC rod 110 installed parts in close contact with each other, which reduces the unwanted movement of the parts in the PTC rod 110 is prevented.

11a and 11b FIG. 13 are exploded perspective views of the PTC bar assemblies according to modifications of the second embodiment of the present invention.

As in 11a shown has the PTC rod assembly 100 according to a modification of the second embodiment of this invention, an electrode terminal 140 , a PTC rod 110 , a support element 130 and an insulating film 150 on. The electrode connection 140 has through holes 141 and contacts multiple PTC devices 120 , The PTC rod 110 has a first PTC rod 110a , which is a surface of the electrode terminal 140 surrounds, and a second PTC rod ll0b on top of the first PTC staff 110a is coupled and the other surface of the electrode terminal 140 surrounds. The support element 130 has arrangement holes 132 and supporting projections 131 , The insulating film 150 is on the other surface of the electrode terminal 140 attached to the electrode connector 140 to contact. As the general construction of this modification, apart from the support element 130 is the same as in the second embodiment, a detailed description of its general construction will be omitted.

The support element 130 extends over a large distance in the same direction as the longitudinal direction of the PTC rod 110 , and the multiple arrangement holes 132 belonging to the several PTC devices 120 are in the support element 130 formed in its longitudinal direction. That is, to correspond to the four PTC devices shown in the drawing 120 are in the support element 130 a first arrangement hole 132a , a second arrangement hole 132b , a third arrangement hole 132c and a fourth arrangement hole 132 educated. Every arrangement hole 132 may be in any of the form of any PTC device 120 be formed corresponding shape. Furthermore, a plurality of support projections 131 so along the support element 130 be formed so that they are spaced apart.

Furthermore, the support element 130 as in 11b shown several arrangement holes 132 for holding multiple PTC devices 120 and may possibly have the supporting projections 131 out 8a do not have. In addition, the support element 130 be formed so that its area that of the electrode terminal 140 equivalent.

12a and 12b FIG. 10 is an exploded perspective view and a sectional view of a PTC rod assembly according to another modification of the second embodiment of the present invention. FIG.

As in 12a and 12b shown has the PTC rod assembly 100 according to another modification of the second embodiment of this invention, a PTC rod 110 , an electrode connection 140 , several support elements 130 and an insulating film 150 on. The PTC rod 110 has a first PTC rod 110a and a second PTC rod 110b on. There are several PTC devices 120 installed to the electrode connector 140 to contact. Each support element 130 has a placement hole 132 for holding the corresponding PTC device 120 as well as curved parts 133 on its two sides, leaving the support element 130 in close contact with a surface of the electrode terminal 140 stands. The insulating film 150 is on the other surface of the electrode connection 140 attached to the electrode connector 140 to contact. As the general construction of this modification, apart from the PTC rod 110 , the same as in the 5a and 5b shown modification of the first embodiment, a detailed description of the general construction is omitted. Because the coupling of the first PTC rod 110a and the second PTC rod 110b of the PTC rod 110 Further, description of the coupling is omitted.

After this modification are both sides of the electrode terminal 140 from the bent parts 133 surrounded on both sides of each support element 130 are provided and extend in the longitudinal direction. The shape of both sides of the electrode terminal 140 surrounding bent parts 133 may be different and is not limited to the above form. For example, on each side of each support member in the longitudinal direction of one or more curved parts may be provided so that they are spaced apart from each other while maintaining predetermined distances.

After the modification are the bent parts 133 further on both sides of each support element 130 with a placement hole 132 intended. However, bent parts may be provided on both sides of a support member having a plurality of arrangement holes.

As described above, these are the PTC devices 120 supporting support elements 130 and the insulating film 150 on respective surfaces of the electrode terminal 140 provided, whereby the PTC rod assembly according to the invention 100 will be produced. As such, the PTC rod assembly according to the invention has 100 a simple construction, which allows it to flexibly accommodate the differences in length of each part and the differences in performance.

13 FIG. 13 is an exploded perspective view of a PTC rod assembly according to another modification of the second embodiment of the present invention and FIG 14a and 14b FIG. 12 are views of the process of mounting the PTC rod assembly. FIG 13 ,

As in 13 shown has the bar assembly 100 according to the modification of the second embodiment of this invention, an electrode terminal 140 with several coupling recesses 141 , a PTC rod 110 with a first PTC rod 110a , which is a surface of the electrode terminal 140 surrounds, and a second PTC rod 110b who joined the first PTC staff 110a coupled and designed so that it covers the other surface of the electrode terminal 140 surrounds, supporting elements 130 , each one arrangement hole 132 have a pair of bent parts 133 and a pair of coupling projections 134 and an insulating film 150 on that on the other face of the electrode terminal 140 attached to the electrode connector 140 to contact. As the general construction of this modification, apart from the PTC rod 110 , same as in connection with 6 shown modification of the first embodiment, a detailed description thereof will be omitted. Since the first PTC rod 110a and the second PTC rod 110b existing PTC rod 110 is described above, is further omitted from the description.

15 FIG. 10 is an exploded perspective view of a PTC rod assembly according to another modification of the second embodiment of the present invention. FIG.

As in 15 shown has the PTC rod assembly 100 according to the modification of the second embodiment of this invention, a PTC rod 110 By coupling a first PTC rod 110a and a second PTC rod 110b is configured, an electrode connection 140 containing multiple PTC devices 120 contacted and on both sides coupling recesses 141 are formed, a support element 130 with several arrangement holes 132 for holding the PTC devices 120 , curved parts 133 and coupling projections 134 , which is in close contact with a surface of the electrode terminal 140 stands, and an insulating film 150 on that on the other face of the electrode terminal 140 attached to the electrode connector 140 to contact. As the general construction of this modification, apart from the PTC rod 110 , same as in connection with 8th shown modification of the first embodiment, a detailed description thereof will be omitted. Since the first PTC rod 110a and the second PTC rod 110b existing PTC rod 110 is described above, is further omitted from the description.

As As described above, the PTC rod assembly according to the invention can be implemented in various ways be implemented.

16 is an exploded perspective view of a preheater for vehicles according to the invention.

As in 16 shown, the inventive preheater for vehicles PTC rod arrangements 100 (please refer 2 ), one or more radiating fin assemblies 200 , a pair of frames 300 , a first housing 400 and a second housing 500 on. Each PTC bar arrangement 100 has a PTC rod 110 , one the PTC devices 120 contacting electrode connection 140 , Support elements 130 , the arrangement holes 132 and in close contact with a surface of the electrode terminal 140 stand, and an insulating film 150 on that on the other face of the electrode terminal 140 attached to the electrode connector 140 to contact. The radiating fin arrangements 200 are on both sides of the PTC rod assembly 100 coupled. The frames 300 are on the outer surfaces of the outermost radiating fin assemblies 200 assembled. The first and second housings 400 and 500 are at ends of a structure with the PTC bar arrangements 100 , the radiating fin assemblies 200 and the frame 300 coupled.

In this case, between the radiating fin arrangements 200 Furthermore, an additional cathode connection 600 be provided. Because the PTC rod assembly 100 same construction and the same coupling method as the above-mentioned PTC rod assembly 100 is omitted, a detailed description of the construction and the coupling method is dispensed with.

Further, the radiating fin assemblies are 200 on both faces of the PTC rod assembly 100 coupled. Preferably, there are a plurality of radiating fin arrangements 200 at the side of the PTC rod assembly 100 mounted on which the PTC devices are mounted so that the radiating fin assemblies 200 are stacked in a lateral direction. Further, on the side where no PTC devices are mounted, there are fewer radiation fin arrays 200 mounted as on the side with the PTC devices.

The preferred embodiments For the purposes of the present invention, for purposes of illustration presented, but for It is obvious to those skilled in the art that various modifications, additions and Substitutions possible are without departing from the scope and spirit of the invention, as disclosed in the accompanying claims.

As As described above, the present invention provides a PTC rod assembly and a preheater for vehicles provided with the PTC rod assembly, in the nen PTC devices by a simple construction attached to the electrode connection can, which makes the PTC rod assembly easy to manufacture, which Improves processability and increases production efficiency.

Further By the present invention, a PTC rod assembly and a preheater for vehicles provided with the PTC rod assembly in which the construction the PTC rod assembly slightly changed which makes it possible to produce a product efficiently, the consumer requirements, for example, in terms of power consumption or size met.

Claims (17)

Rod arrangement with PTC devices, an electrode connection ( 140 ) configured to have a plurality of through-holes spaced apart in its longitudinal direction and to be in contact with the PTC devices (US Pat. 120 ), one with arrangement holes ( 132 ) provided supporting element ( 130 ) into which the respective PTC devices ( 120 ) and support which are inserted into the through holes and installed so as to be in close contact with a surface of the electrode terminal (FIG. 140 ), and an insulating film ( 150 ), which on a remaining surface of the electrode terminal ( 140 ) is attached to the electrode terminal ( 140 ), wherein the electrode connection ( 140 ), the support element ( 130 ) and the insulating film ( 150 ) in the interior of a PTC rod ( 110 ) are provided. PTC rod assembly according to claim 1, wherein the insulating film ( 150 ) is formed from insulating tape and on a surface of the electrode terminal ( 140 ) is glued. PTC rod assembly according to claim 1, wherein the support element ( 130 ) several support elements ( 130 ) each having a single locating hole ( 132 ), wherein the support elements ( 130 ) in the longitudinal direction of the electrode terminal ( 140 ) are arranged and spaced apart in accordance with predetermined distances. PTC rod assembly according to claim 1, wherein the support element is formed so that locating holes in its longitudinal direction spaced apart in accordance with predetermined distances are. PTC rod assembly according to one of claims 1 to 4, wherein the support element ( 130 ) is formed so that it is wider than the electrode terminal ( 140 ), and wherein the support element ( 130 ) has curved parts that both sides of the electrode terminal ( 140 ) surround. PTC rod assembly according to claim 1, wherein the PTC rod is formed in the form of an integrated tube, in which the electrode terminal ( 140 ), the PTC devices ( 120 ), the support element ( 130 ) and the insulating film ( 150 ) are provided and then compressed and shaped. PTC rod assembly according to claim 1, wherein the PTC rod comprises: a second PTC rod ( 110b ) connected to the electrode terminal ( 140 ), the PTC devices ( 120 ), the support element ( 130 ) and the insulating film ( 150 ) and is designed to surround it, and one to the second PTC rod ( 110b ) coupled first PTC rod ( 110a ), the PTC rod ( 110 ) is formed by squeezing. PTC rod assembly according to claim 6 or 7, wherein widened parts at both ends of the PTC rod ( 110 ) so that they are in close contact with both ends, each of the widened parts having a larger cross section than the PTC rod ( 110 ) Has. PTC rod assembly with PTC devices, an electrode terminal ( 140 ) configured such that the coupling recesses are spaced apart in their longitudinal direction and configured to connect the PTC devices (FIGS. 120 ), a support element ( 130 ) with locating holes into which the respective PTC devices ( 120 ), and bent parts which are both sides of the electrode terminal ( 140 ), and coupling projections ( 134 ), which are formed on the inner surfaces of the bent parts and in the coupling recesses ( 141 ) and installed so that they are in close contact with the electrode terminal ( 140 ), and an insulating film ( 150 ) located on the remaining surface of the electrode terminal ( 140 ) is attached to the electrode terminal ( 140 ), wherein the electrode connection ( 140 ), the support element ( 130 ) and the insulating film ( 150 ) in the interior of a PTC rod ( 110 ) are provided. PTC rod assembly according to claim 9, wherein the insulating film ( 150 ) is formed and on a surface of the electrode terminal ( 140 ) is glued. PTC rod assembly according to claim 9, wherein the support element ( 130 ) a plurality of support elements each having a single arrangement hole ( 132 ), wherein the support elements in the longitudinal direction of the electrode terminal ( 140 ) are arranged and spaced apart in accordance with predetermined distances. PTC rod assembly according to claim 9, wherein the support element ( 130 ) is formed so that arrangement holes are spaced apart in its longitudinal direction while maintaining predetermined distances. PTC rod arrangement according to one of claims 9 to 12, wherein the coupling recesses ( 141 ) are formed so that respective coupling depressions ( 141 ) in both sides of the electrode terminal ( 140 ) are formed and in the longitudinal direction of the electrode terminal ( 140 ), on the basis of a single locating hole, and the locating holes are located in respective regions between the coupling depressions (FIG. 141 ) are in the longitudinal direction of the electrode terminal. PTC rod assembly according to claim 9, wherein the PTC rod in the form an integrated tube is formed, in which the electrode connection, the PTC devices, the support element and the insulating film are provided and then compressed and be formed. The PTC rod assembly of claim 9, wherein the PTC rod has a second PTC rod connected to the electrode terminal (10). 140 ), the PTC devices ( 120 ), the support element and the insulating film ( 150 ) and configured to surround it, and having a first PTC rod coupled to the second PTC rod, the PTC rod being formed by compression. PTC rod assembly according to claim 14 or 15, wherein widened parts are coupled at both ends of the PTC rod, so that they are in close contact with both ends, each one the widened parts have a larger cross-section than the PTC staff has. Preheater for vehicles with a PTC rod assembly according to one of claims 1 to 16, one or more radiating fin arrangements ( 200 ), which are coupled to both surfaces of the PTC rod assembly, a pair of frames ( 300 ) coupled to the outer surfaces of the outermost radiating fin assemblies and a first and a second housing (FIGS. 400 . 500 ) to the respective ends of a structure having the PTC rod assembly, the radiating fin assemblies ( 200 ) and the frame are coupled.