KR20090057618A - Glow plug - Google Patents

Abstract

A glow plug is provided to cope with the variation of length and external force by forming some part of a lead wire with a bent type. A glow plug comprises a lead wire(40) feeding power supplied to a center shaft into a heating element(30). The center shaft consists of a fitting part(22A) in which a central shaft joining part(42) of the lead wire is fitted; and at least one protrusion(22B) preventing the separation of the central shaft joining part fitted into the fitting part. The central shaft joining part of the lead wire is formed like a coil type and fitted into the fitting part of the center shaft. When the center shaft joining part of the lead wire is fitted into the fitting part of the center shaft, it is caught to the fitting protrusion running over it. In the lead wire, some part of a joining part(46) between a heating element joining part to be joined with the heating element and the center shaft joining par is bent.

Description

Glow plug

The present invention relates to a glow plug that preheats a combustion chamber to facilitate ignition of fuel in an internal combustion engine.

1 is a view showing a conventional glow plug, the housing is shown by cutting.

As shown in FIG. 1, the conventional glow plug includes a hollow housing 110, a middle shaft 120 inserted into the housing 110 and supplied with power from the outside, and inserted into the housing 110. And a heat source 130 that generates heat when the power is received from the middle shaft 120, and a lead wire that is coupled to the middle shaft 120 and the heat generating body 130, respectively, and transfers the power applied to the middle shaft 120 to the heat generating body 130. -wire) 140.

In order for the middle shaft 120 and the lead wire 140 to be coupled to each other, the middle shaft 120 and the lead wire 140 are welded or formed while one end of the lead wire 140 is inserted into the middle shaft groove 122 formed in the middle shaft 120. Coked.

In order to couple the heating element 130 and the lead wire 140 with each other, the heating element 130 and the lead wire 140 are brazed while the other end of the lead wire 140 is wound around the lead wire connecting protrusion 132 provided in the heating element 130. (brazing).

Here, the lead wire 140 has a straight shape except for a portion wound around the heating element 130 as shown in FIG. 1.

In the conventional glow plug configured as described above, when power is applied through the middle shaft 120, electricity is supplied to the heating element 130 through the lead wire 140, so that the heating element 130 generates heat by electrical resistance.

However, referring to the process in which the lead wire 140 is coupled to the middle shaft 120 and the heating element 130, first, the lead wire 140 is disposed on the middle axis 120 and the heating element 130, and the lead wire 140 is disposed in the state. Work such as caulking or brazing for fixing to the central shaft 120 and the heating element 130 is in progress. Therefore, since the process of combining the lead wire 140, the central shaft 120, and the heating element 130 is complicated, there is a problem in that it takes a lot of production time. In addition, since the work such as caulking or brazing requires a high workability, not only takes a lot of production time, but also has a problem of high failure rate such as caulking or brazing failure. In addition, since the lead wire 140 is structurally fragile, there is a problem in that the lead wire 140 is easily deformed or broken by an external force acting during work such as caulking or brazing. In addition, there is a problem in that the cost caused by the work, such as caulking or blazing.

On the other hand, by taking a straight line except for the portion where the lead wire 140 is wound around the heating element 130, it is inevitably structurally fragile, and lengthwise errors including a gap between the central shaft 120 and the heating element 130. And it is difficult to cope with the external force acting in the longitudinal direction.

In addition, since the portion of the lead wire 140 wound around the heating element 130 is in the form of a coil, and the rest of the wire is in the form of a straight line, there is a complicated problem of winding a part of the lead wire 140 to form a coil. .

The present invention has been made to solve the above problems of the prior art, an object of the present invention is to provide a glow plug that can improve the productivity by reducing the coupling method of the lead wire and the intermediate shaft, and can reduce the production cost.

In addition, the present invention has another object to provide a glow plug which is superior in terms of productivity and cost by preventing the lead wire from being deformed or disconnected in the process of combining the lead wire, the middle shaft, and the heating element.

In addition, the present invention has another object to provide a glow plug that is superior in terms of productivity and cost by simplifying the work to form the lead wire.

In order to solve the above problems, the present invention includes a lead wire for transmitting the power applied to the central axis to the heating element; The middle shaft has a fitting portion into which the axial coupling portion of the lead wire is fitted, and at least one locking jaw protruding from the fitting portion to prevent detachment of the axial coupling portion of the lead wire inserted into the fitting portion; The axial coupling portion of the lead wire is formed in the form of a coil, and is fitted to the fitting portion of the axial shaft, and when fitted to the fitting portion of the axial shaft to ride over the locking jaw of the axial shaft to cover the engaging jaw of the axial shaft; Present the glow plug.

The fitting portion of the middle shaft is protrusion-shaped so that the lead wire is fitted to the outside of the fitting portion of the middle shaft; The locking jaw of the middle shaft may protrude to the outside of the fitting portion of the middle shaft.

The middle axis may further include a lead wire limiting part that restricts a portion to which the lead wire is inserted by blocking the lead wire when the lead wire is fitted to a fitting portion of the middle shaft.

The middle axis may be layered such that the diameter at the fitting side of the middle axis is smaller at the boundary between the fitting portion of the middle axis and the remaining portion thereof.

The lead wire may be at least partially bent at a connecting portion between the heating element coupling portion coupled to the heating element and the polyaxial coupling portion.

The connection part of the lead wire may be a bent portion of the coil form.

The lead wire may be in the form of a coil in its entirety.

In addition, in order to solve the above problems, the present invention and the central axis receiving power; A heating element that generates heat when the power is received from the middle shaft; A lead wire coupled to each of the middle shaft and the heating element, and configured to transfer power applied to the middle shaft to the heating element; The lead wire may include at least partially bent a connecting portion between the coupling portion with the middle shaft and the coupling portion with the heating element; Present the glow plug.

The connection part of the lead wire may be a bent portion of the coil form.

In addition, to solve the above problems, the present invention includes a lead wire for transmitting the power applied to the central axis to the heating element; The heating element has a fitting portion into which the axial coupling portion of the lead wire is fitted, and at least one locking jaw protruding from the fitting portion to prevent detachment of the central shaft coupling portion of the lead wire inserted into the insertion portion; The axial coupling portion of the lead wire is formed in the form of a coil and fitted to the fitting portion of the heating element, and when fitted to the fitting portion of the heating element, rides over the locking jaw of the heating element and covers the locking jaw of the middle axis; Present the glow plug.

The lead wire may be at least partially bent at a connection portion between the polyaxial coupling portion and the heating element coupling portion that is coupled to the intermediate shaft.

Glow plug according to the present invention as described above can be expected a variety of effects, including the following. However, the present invention is not achieved by exerting all of the following effects.

First, by combining the middle axis and the lead wire in a fitting manner, the coupling process of the middle axis and the lead wire is simplified, the cost can be reduced, the productivity can be improved.

In addition, since the intermediate shaft and the lead wire are coupled in a fitting manner, since a separate tool or device is not required in the coupling process of the intermediate axis and the lead wire, cost can be reduced and productivity can be improved.

In addition, since the workability of the intermediate shaft and the lead wires does not require high workability, the production time can be shortened and the failure rate can be significantly reduced.

In addition, in the joining process of the middle axis and the lead wire, since an excessive external force such as at the caulking or brazing process does not act on the lead wire, deformation or disconnection of the lead wire can be prevented.

In addition, since the lead wire as a whole takes the form of a coil, it is possible to flexibly cope with the longitudinal error and the external force acting in the longitudinal direction, thereby improving the structural vulnerability of the lead wire.

In addition, since the lead wire as a whole takes the form of a coil, the winding operation of the lead wire can be simplified.

FIG. 2 is a view corresponding to FIG. 1, illustrating a glow plug according to the present invention, FIG. 3 is a cross-sectional view taken along the line A-A of FIG. 1, and FIG. 4 is a cross-sectional view taken along the line B-B of FIG.

2 to 4, the glow plug according to the present invention includes a housing 10, a middle shaft 20 inserted into the housing 10 and supplied with power from the outside, and a power source from the middle shaft 20. When it receives the heat generating element 30, and coupled to each of the middle shaft 20 and the heating element 30 includes a lead wire 40 for transmitting the power applied to the middle shaft 20 to the heating element (30).

The middle shaft 20 has a lead portion 40, a coupling portion 22 that is precisely coupled to the polyaxial coupling portion 42 of the lead wire 40, and a main body portion 24 that is the remaining portion except for the coupling portion 22. Can be divided into

If the coupling portion 22, the intermediate shaft 20 and the lead wire 40 of the intermediate shaft 20 can be combined only by the work that is fitted to each other, any configuration may be taken, and as a preferred example, the intermediate shaft coupling of the lead wire 40 At least one catching jaw for preventing separation of the fitting portion 22A into which the portion 42 is fitted and the axial coupling portion 42 of the lead wire 40 protruding from the fitting portion 22A and fitted into the fitting portion 22A. 22B.

The fitting portion 22A of the middle shaft 20 has the middle shaft 20, the lead wire 40, and the heating element 30 arranged in a line along the longitudinal direction (arrow L) of the glow plug, and the lead wire 40 is placed on the middle shaft 20. ) And the heating element 30, and may be located at the end of the lead wire 40 side to facilitate the coupling with the lead wire 40.

The fitting portion 22A of the middle shaft 20 may take any configuration as long as it can be fitted with the middle shaft coupling portion 42 of the lead wire 40, and as a preferred example, the middle shaft coupling portion of the lead wire 40 ( It is possible to take a projection shape so that 42 is fitted to the outside of the fitting portion 22A of the middle shaft 20, that is, can be inserted into the middle shaft engaging portion 42 of the lead wire 40. At this time, the fitting portion 22A of the projection-shaped middle shaft 20 may have a shape having a constant diameter and a shape having a constant diameter, and may have a shape perpendicular to the longitudinal direction (arrow L) of the glow plug. Once bent shape is possible, the shape with the inner space is possible, the shape without the inner space is possible, in addition, it can be implemented in various shapes.

Of course, the fitting portion 22A of the intermediate shaft 20 may be configured to have a fitting groove so that the intermediate shaft coupling portion 42 of the lead wire 40 can be inserted and fitted instead of the protrusion shape as described above. As described above, this embodiment has the following weak points when compared with the fitting portion 22A of the projection-shaped middle shaft 20.

In manufacturing the intermediate shaft 20, a process of forming the fitting groove in the middle shaft 20 is further added, thereby making the manufacturing process of the middle shaft 20 complicated. In addition, there is a limitation in implementing various shapes of the fitting portion 22A of the middle shaft 20 because of the fitting groove. In addition, the size of the intermediate shaft coupling portion 42 of the lead wire 40 is restricted due to the diameter of the fitting groove, which can complicate the work of forming the shape of the lead wire 40 such as a winding operation. In addition, the wire thickness of the lead wire 40 is restricted because of the diameter of the fitting groove, the lead wire 40 may be weak. In addition, since the diameter of the fitting portion 22A of the middle shaft 20 is limited, the fitting groove may be formed to be considerably narrow, so that the middle shaft coupling portion 42 of the lead wire 40 is connected to the fitting portion 22A of the middle shaft 20. Difficult to insert In addition, it is not possible to visually check whether the middle shaft coupling portion 42 of the lead wire 40 is fitted to the fitting portion 22A of the middle shaft 20 by the designed length without being deformed. In addition, the locking jaw 22B of the middle shaft 20 is inevitably positioned inside the fitting groove, so whether the middle shaft coupling portion 42 of the lead wire 40 is securely caught on the locking jaw 22B of the middle shaft 20. Cannot be visually identified.

If the fitting portion 22A of the middle shaft 20 has a projection shape as described above, the locking jaw 22B of the middle shaft 20 protrudes outward of the fitting portion 22A of the middle shaft 20. .

At this time, when the middle shaft 20 and the lead wire 40 are fitted, the latching jaw 22B of the middle shaft 20 may ride over by the elastic deformation force of the lead wire 40. In addition, it is designed so that the middle shaft coupling part 42 of the lead wire 40 is firmly spread so that the engagement of the middle shaft 20 and the lead wire 40 is not released.

Only one such locking projection 22B of the middle shaft 20 may be provided along the longitudinal direction (arrow L) of the glow plug, and the middle shaft coupling portion 42 of the lead wire 40 is multiplied so that the middle shaft 20 ) And a plurality of lead wires 40 may be provided so as to be more firmly coupled. At this time, when the engaging projection 22B of the middle shaft 20 is provided in plural along the longitudinal direction (arrow L) of the glow plug, the separation distance along the longitudinal direction (arrow L) of the glow plug is equal to that of the lead wire 40. When the thickness is substantially the same as that of the line, the lead wire 40 is tightly sandwiched between the locking projections 22B of the middle shaft 20, whereby the lead wire 40 is more effective in terms of the coupling force between the middle shaft 20 and the lead wire 40.

In addition, the locking projection 22B of the middle shaft 20 may take a ring shape so as to surround the entire circumference of the fitting portion 22A of the middle shaft 20, and surrounds the fitting portion 22A of the middle shaft 20. Accordingly, a plurality of dogs may be spaced apart from each other.

In addition, the locking step 22B of the middle shaft 20 may protrude vertically from the fitting portion 22A of the middle shaft 20, and is inclined with respect to the direction perpendicular to the direction perpendicular to the fitting portion 22A of the middle shaft 20. It is also possible to take shape.

In addition, the latching jaw 22B of the middle shaft 20 can take a shape with a constant cross section, or can take a shape with a non-uniform cross section.

In addition, the locking step 22B of the middle shaft 20 may take any configuration as long as the middle shaft coupling portion 42 of the lead wire 40 can be crossed and the middle shaft coupling portion 42 of the lead wire 40 can be crossed. It is okay.

Meanwhile, the middle shaft 20 may be formed so that the boundary portion 20A of the main body portion 24 of the middle shaft 20 and the fitting portion 22A of the middle shaft 20 does not layer, as in the present embodiment. At the boundary portion 20A of the body portion 24 of the body 20 and the fitting portion 22A of the middle shaft 20, the layered shape is taken so that the diameter of the fitting portion 22A side of the middle shaft 20 is smaller. It may be.

In addition, the intermediate shaft 20 is the intermediate shaft coupling portion 42 of the lead wire 40, so that the intermediate shaft coupling portion 42 of the lead wire 40 can be fitted only to the fitting portion 22A of the intermediate shaft 20. When fitted to the fitting portion 22A of the 20, it may further include a lead wire restricting portion that blocks the intermediate shaft coupling portion 42 of the lead wire 40 to limit the portion of the lead shaft 40 is fitted. have.

The lead wire limiting portion may be implemented to protrude outward from the middle shaft 20 at the boundary portion 20A of the body portion 24 of the middle shaft 20 and the fitting portion 22A of the middle shaft 20, but instead of being configured separately. If the inner diameter of the middle shaft coupling portion 42 of the lead wire 40 is approximately equal to the diameter of the fitting portion 22A of the middle shaft 20, as in the present embodiment, the middle shaft coupling portion 42 of the lead wire 40 is the middle shaft ( The body portion 24 of the 20 and the interlayer portion that is the boundary portion 20A of the fitting portion 22A of the middle shaft 20 cannot be caught by the bar portion of the body portion 24 and the middle shaft 20 of the middle shaft 20. It may be implemented by an interlayer portion which is the boundary portion 20A of the fitting portion 22A.

Next, the lead wire 40, as described above, the axial coupling portion 42 coupled with the coupling portion of the axial shaft 20, the axial shaft 20, and the heating element coupling portion 44 coupled with the heating element 30. ) And a connecting portion 46 connecting the axial coupling portion 42 and the heating element coupling portion 44.

The intermediate shaft engaging portion 42 of the lead wire 40 is fitted to the fitting portion 22A of the central shaft 20, and the locking jaw of the intermediate shaft 20 when the fitting axis 22 is fitted to the fitting portion 22A of the intermediate shaft 20. It may take the form of a coil so that it can ride over (22B) over the locking step (22B) of the central shaft (20). Of course, the axial coupling portion 42 of the lead wire 40 may take various shapes in addition to the coil shape, but by taking the coil shape can be simply implemented by simply winding the lead wire 40 is effective. In particular, as will be described later, the connecting portion 46 and the heating element coupling portion 44 of the lead wire 40 also require a winding operation, and the lead wire 40 together with the connecting portion 46 and the heating element coupling portion 44 of the lead wire 40. As the winding operation of the polyaxial coupling portion 42 of the (), the winding operation of the polyaxial coupling portion 42 of the lead wire 40 is not added. In addition, the intermediate shaft engaging portion 42 of the lead wire 40 is in the form of a coil, so that it is easily elastically deformed when fitted to the fitting portion 22A of the intermediate shaft 20, so that the locking step 22B of the intermediate shaft 20 is carried out. It is effective because you can cross over.

It is preferable that the size of the middle shaft coupling portion 42 of the lead wire 40 be designed so that it can be fitted firmly to the fitting portion 22A of the middle shaft 20. In addition, the intermediate shaft coupling portion 42 of the lead wire 40 takes the form of a coil wound a plurality of times along the longitudinal direction (arrow L) of the glow plug so as to be firmly coupled to the fitting portion 22A of the intermediate shaft 20. It is preferable.

In addition, although the connecting portion 46 of the lead wire 40 may have a straight shape, it may be freely deformed in the longitudinal direction (arrow L) of the glow plug by taking a form in which at least a portion is bent as in the present embodiment. As a result, it is possible to actively cope with changes in the longitudinal direction (arrow L) of the glow plug and external force, which is more effective.

The connection part 46 of the lead wire 40 may be bent in various forms, and is bent in a coil form to simplify the winding part together with the axial coupling part 42 and the heating element coupling part 44 of the lead wire 40. Can be implemented more effectively. In this case, when the connecting portion 46 of the lead wire 40 is bent in the form of a coil, the winding diameter may be constant, or the winding diameter may be changed, and in particular, the middle shaft coupling portion of the lead wire 30 as in the present embodiment At 42, the winding diameter may gradually increase toward the heating element coupling portion 44.

The heating element coupling portion 44 of the lead wire 40 may also take the form of a coil so that the heating element coupling portion 44 is easily inserted into the heating element 30 to be caulked or brazed.

The lead wire 40 is preferably in the form of a coil to facilitate the winding operation.

On the other hand, the heating element coupling portion 44 and the heating element 30 of the lead wire 40 can be coupled to each other only by the work that fits together with the above-described middle shaft coupling portion 42 of the medium shaft 20 and the lead wire 40. It may be. In this case, the coupling structure of the heating element coupling part 44 and the heating element 30 of the lead wire 40 may be implemented in the same way as the coupling structure of the above-described middle shaft 20 and the axial coupling part 42 of the lead wire 40. The detailed description is omitted.

Since the above has just been described with respect to some of the preferred embodiments that can be implemented by the present invention, as is well known the scope of the present invention should not be construed as limited to the above embodiments, the present invention described above All of the technical ideas together with the technical idea of the base will be included in the scope of the present invention.

1 is a view showing a conventional glow plug, the housing is shown by cutting.

FIG. 2 is a view corresponding to FIG. 1 and illustrating a glow plug according to the present invention. FIG.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a cross-sectional view taken along line B-B of FIG. 1.

<Explanation of symbols on main parts of the drawings>

10; A housing 20; Axial

22; Coupling portion 22A; Fitting

22B; Hanging jaw 24; Main body

30; Heating element 40; Lead wire

42; Polyaxial coupling portion 44; Heating element coupling

46; Connection

Claims (11)

A lead wire for transferring power applied to the middle axis to the heating element; The middle shaft has a fitting portion into which the axial coupling portion of the lead wire is fitted, and at least one locking jaw protruding from the fitting portion to prevent detachment of the axial coupling portion of the lead wire inserted into the fitting portion; The axial coupling portion of the lead wire is formed in the form of a coil, and is fitted to the fitting portion of the axial shaft, and when fitted to the fitting portion of the axial shaft to ride over the locking jaw of the axial shaft to cover the engaging jaw of the axial shaft; Glow plug. The method according to claim 1, The fitting portion of the middle shaft is protrusion-shaped so that the lead wire is fitted to the outside of the fitting portion of the middle shaft; The locking jaw of the middle shaft protrudes outside the fitting portion of the middle shaft; Glow plug. The method according to claim 1 or 2, The middle shaft, the glow plug further comprises a lead wire limiting portion for restricting the portion to which the lead wire is inserted by blocking the lead wire when the lead wire is fitted to the fitting portion of the middle shaft. The method according to claim 1 or 2, The layered glow plug, wherein the middle axis is smaller at the fitting side side of the middle axis at the boundary between the fitting portion of the middle axis and the remaining portion thereof. The method according to claim 1 or 2, The glow wire is a glow plug in which a connection portion between the heating element coupling portion coupled to the heating element and the polyaxial coupling portion is at least partially bent. The method according to claim 5, Connection part of the lead wire, the bent portion of the glow plug coil shape. The method according to claim 1 or 2, The lead wire is a glow plug of which the entire part is in the form of a coil. A central shaft receiving power; A heating element that generates heat when the power is received from the middle shaft; A lead wire coupled to each of the middle shaft and the heating element, and configured to transfer power applied to the middle shaft to the heating element; The lead wire may include at least partially bent a connecting portion between the coupling portion with the middle shaft and the coupling portion with the heating element; Glow plug. The method according to claim 8, Connection part of the lead wire, the bent portion of the glow plug coil shape. A lead wire for transferring power applied to the middle axis to the heating element; The heating element has a fitting portion into which the axial coupling portion of the lead wire is fitted, and at least one locking jaw protruding from the fitting portion to prevent detachment of the axial coupling portion of the lead wire inserted into the insertion portion; The axial coupling portion of the lead wire is formed in the form of a coil and fitted to the fitting portion of the heating element, and when fitted to the fitting portion of the heating element, rides over the locking jaw of the heating element and covers the locking jaw of the middle axis; Glow plug. The method according to claim 10, The lead wire is a glow plug, the connection portion between the axial coupling portion and the heating element coupling portion to be coupled to the intermediate shaft, at least partially bent.

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