JP4175970B2 - Glow plug - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a glow plug, and more particularly to a glow plug that is attached to a combustion chamber of an engine or the like for promoting startup of a diesel engine or the like.
[0002]
[Prior art]
FIG. 7 shows an example of such a glow plug 100. In this device, a heater 101 having a heat generating portion 91 that generates heat when energized in an insulating member 93 such as a ceramic is formed at the tip of a metal main body (hereinafter also simply referred to as a main body) 103 having a tubular shape (tubular). It is fixed to the offset part 103a. The fixing in the figure is performed by inserting a heater (hereinafter also referred to as a ceramic heater) 101 into a metal cylinder 105 and fixing it with a brazing material, and then brazing the metal cylinder 105 to the main body 103. Yes. In this device, one (left in the drawing) electrode 95 of the heater 101 is electrically connected to the metal main body 103 via the metal tube 105. The other (right) electrode 97 is disposed behind the rear end of the heater 101 in the metal main body 103, and is connected to the external connection terminal 109 via a lead shaft member 107 insulated from the metal main body 103. Are electrically connected (hereinafter also simply referred to as connections). In the figure, the other electrode 97 of the heater 101 and the lead shaft member 107 are connected via a relay wire (for example, a coiled wire) 99.
[0003]
Such a lead shaft member 107 is filled with a glass 111 on the outer peripheral surface in a ring shape near the rear end of the main body 103 to maintain insulation from the main body 103, and with a bush 113 or a fixing ring 115. It is fixed. In this specification, when the tip of the glow plug or its constituent member is referred to, it means the lower end in the figure, and conversely, the rear end means the upper end in the figure.
[0004]
Such a glow plug 100 has a lead shaft member 107 made of a rigid iron-based metal, and has a diameter as large as several millimeters, so that it is difficult to bend and has excellent electrical characteristics. Therefore, the dimension between the heater 101 and the external connection terminal 109 can be increased by elongating the lead shaft member 107 together with the main body 103. For this reason, the glow plug 100 can be easily lengthened, and is suitable for mounting on a direct fuel injection engine. However, such a lead shaft member 107 is heavy unlike a thin lead wire. On the other hand, the fixing depends on the glass 111 filled in a portion closer to the rear end of the main body 103 (the end opposite to the end on the heat generation side). Here, the reason why the fixing is performed at the portion near the rear end of the main body 103 is as follows. The glow plug 100 is assembled after the heater 101 and the lead shaft member 107 connected thereto are assembled in the main body 103, and then the ring-shaped glass (thick cylindrical powder press body) 111 is lead. This is an operation procedure in which the shaft member 107 is externally fitted and loaded. For this reason, the setting position of the glass must be close to the rear end portion. This is the main reason.
[0005]
[Problems to be solved by the invention]
However, the fixing structure of the lead shaft member 107 in the conventional glow plug 100 described above has a problem that the fixing force is basically small. Moreover, since the fixing is performed in a so-called cantilever state near the rear end, the coaxial member is likely to resonate due to a thermal shock or the like in the combustion process of the engine, which may cause a short circuit or disconnection due to breakage or the like. There was a problem. In other words, since the glow plug is exposed to engine vibration, blast or thermal shock, such a fixing structure of the lead shaft member 107 is loosened in the main body 103 or causes breakage or breakage. It may cause failure such as short circuit. Such a problem is more likely to occur as the lead shaft member becomes longer, and thus has been a reason for hindering the lengthening of the glow plug.
[0006]
In addition, when the lead shaft member 107 is fixed with glass in this way, after the glass is externally fitted to the coaxial member 107 and fitted into the rear end portion of the main body 103 in the final process of assembling the glow plug. Therefore, a process of heating and melting it is required. Such a heat treatment leads to a complicated process and a high cost. In addition, each component member (part) and part of the glow plug must be designed in consideration of the heat resistance against the heat treatment, and accordingly, the degree of freedom of design has been lost.
[0007]
The present invention has been made in view of such problems in the conventional glow plug, and without requiring a heat treatment for heating and melting the glass, the lead shaft member is insulated in the main body and firmly It is an object to provide a glow plug having a structure that can be fixed.
[0008]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the invention according to claim 1 is characterized in that a heater including a heat generating portion that generates heat when energized is provided in an insulating member is fixed to a portion near the tip of a cylindrical metal body. One of the electrodes is electrically connected to the metal main body, and the other electrode is disposed in the metal main body behind the rear end of the heater and insulated from the metal main body. In glow plugs that are electrically connected,
The lead shaft member has a large-diameter shaft portion and a small-diameter shaft portion, Between the inner peripheral surface of the metal main body and the outer peripheral surface of the lead shaft member An insulating layer is provided on the outer peripheral surface of the large-diameter shaft portion. Intervene in the part where the insulating layer is interposed Of the large-diameter shaft To have deformation (deformation marks) on the outer peripheral surface The large-diameter shaft portion is radially The lead shaft member is fastened on the inner peripheral surface of the metal main body, and is fixed in the metal main body while maintaining insulation.
[0009]
In the present invention, since the lead shaft member is fixed by being tightened (pressed in the radial direction) on the inner peripheral surface of the metal main body, the fixing does not require heat treatment. In addition, since the lead shaft member (hereinafter, also simply referred to as a shaft member) is fastened and fixed to the outer peripheral surface of the metal main body so as to be deformed, strong fixing can be obtained. Moreover, the fixing portion is not limited to the portion near the rear end of the lead shaft member as in the case of fixing with glass. Here, the tightening may be performed as long as the shaft member is tightened on the inner peripheral surface of the main body in a state where it is assembled as a glow plug (if it is in an interference fit state). Therefore, the tightening method (means) is not limited. Illustratively, caulking by pressing (pressing) or the like so as to sandwich the metal main body in the radial direction is efficient and preferable from the viewpoint of manufacturing.
[0010]
According to a second aspect of the present invention, a heater including a heat generating portion that generates heat when energized is provided in an insulating member is fixed to a portion near the tip of a cylindrical metal body, and one electrode is made of the metal. A glow which is electrically connected to the main body, and the other electrode is electrically connected to a lead shaft member disposed behind the rear end of the heater and insulated from the metal main body in the metal main body. In the plug,
The lead shaft member has a large-diameter shaft portion and a small-diameter shaft portion, Between the inner peripheral surface of the metal main body and the outer peripheral surface of the lead shaft member And interposing an insulating layer on the outer peripheral surface of the large-diameter shaft portion, In the part where the insulating layer is interposed Of the large-diameter shaft The metal body so that the outer peripheral surface has deformation (deformation marks) Is in the radial direction The lead shaft member is fixed in the metal main body while maintaining insulation.
[0011]
According to a third aspect of the present invention, a heater comprising a heat generating part that generates heat when energized is provided in an insulating member is fixed to a portion near the tip of a cylindrical metal body, and one electrode is made of the metal. A glow which is electrically connected to the main body, and the other electrode is electrically connected to a lead shaft member disposed behind the rear end of the heater and insulated from the metal main body in the metal main body. In the plug,
An insulating layer is interposed between the inner peripheral surface of the metal main body and the outer peripheral surface of the lead shaft member in at least a part of the lead shaft member in the axial direction, and the insulating layer is interposed. The metal member is deformed so that the outer peripheral surface of the lead shaft member has a concave shape and the inner peripheral surface of the metal main body enters into the deformed portion through the insulating layer. The lead shaft member is fastened on the inner peripheral surface of the metal main body and is fixed in the metal main body while maintaining insulation.
[0012]
In this structure, the lead shaft member has a concave deformation at the portion where the insulating layer is interposed, and the inner peripheral surface of the metal main body enters the deformation through the insulating layer. It is fastened by the inner peripheral surface of the metal main body so as to have a deformation of (fitting) form. Therefore, extremely high fixation of the shaft member can be obtained. Also in this invention, it is efficient in manufacturing that the tightening is performed by caulking by compressing (pressing) the main body in the radial direction.
[0013]
According to a fourth aspect of the present invention, a heater comprising a heat generating portion that generates heat when energized is provided in an insulating member is fixed to a portion near the tip of a cylindrical metal body, and one electrode is made of the metal. A glow which is electrically connected to the main body, and the other electrode is electrically connected to a lead shaft member disposed behind the rear end of the heater and insulated from the metal main body in the metal main body. In the plug,
An insulating layer is interposed between the inner peripheral surface of the metal main body and the outer peripheral surface of the lead shaft member in at least a part of the lead shaft member in the axial direction, and the insulating layer is interposed. The metal member is deformed so that the outer peripheral surface of the lead shaft member has a concave shape and the inner peripheral surface of the metal main body enters into the deformed portion through the insulating layer. The lead body is caulked and the lead shaft member is fixed in the metal body while maintaining insulation.
[0014]
According to a fifth aspect of the present invention, in the glow plug according to any one of the first to fourth aspects, the insulating layer is formed of a resin tube that is externally fitted to the lead shaft member. . The present invention of claim 6 is the glow plug according to claim 5, wherein the resin tube is made of a fluororesin. According to a seventh aspect of the present invention, in the glow according to any one of the first to sixth aspects, the insulating layer is a resin coating layer formed on the outer peripheral surface of the lead shaft member. It is a plug.
[0015]
The material of the insulating layer is not limited as long as insulation is maintained. Therefore, for example, the lead shaft member may be made of an iron-based metal, and the insulating layer may be an oxide film layer formed on the outer peripheral surface thereof. However, according to the fifth to seventh aspects, it is easy to interpose an insulating layer. In addition, since the insulating layer only needs to exist between the inner peripheral surface of the main body of the glow plug and the outer peripheral surface of the lead shaft member, before the glow plug is assembled (finished product). May be formed on the inner peripheral surface of the main body, or may be formed on the outer peripheral surface of the shaft member.
[0016]
Note that when the insulating layer is formed of a resin, the material is selected in consideration of heat resistance, strength, and the like. Since the temperature of the glow plug attached to the engine may be 150 ° C. or higher, it is preferable that the glow plug has heat resistance of 200 ° C. or higher. However, in the present invention, since the insulating layer is also tightened on the inner peripheral surface of the main body by caulking or the like, the tightening (hereinafter also referred to as “caulking”) is not easily damaged or destroyed and is soft and easily deformed. Is appropriate. Taking these into account, for example, PEEK (polyether ether ketone), PPS (polyphenylene sulfide), and polyimide resin, which are called super engineering plastic materials, are general-purpose engineering plastic materials such as polyamide, PET (polyethylene terephthalate), and PBT. (Polybutylene terephthalate). Silicon can also be used as the tube material. However, it is more preferable to use a fluorine-based resin material because damage to the metal fitting main body can be minimized.
[0017]
The invention according to claim 8 is the glow plug according to any one of claims 4 to 7, wherein a thickness of the insulating layer is in a range of 0.01 mm to 0.5 mm. . In the case where the insulating layer is made of resin, the thickness is preferably as thin as possible so that the insulation between the main body and the lead shaft member is maintained after the lead shaft member is fixed. If this is thick, deformation in tightening of the shaft member by the main body is likely to occur in the insulating layer, but it is difficult to deform the shaft member. When the insulating layer is made of resin, the thickness is suitably in the range of 0.01 mm to 0.5 mm.
[0019]
As the lead shaft member, a straight, circular member with the same diameter is usually used. However, like the invention of the first or second aspect, the one having a large diameter shaft portion and a small diameter shaft portion is used, and the insulating layer is interposed on the outer peripheral surface of the large diameter shaft portion. When the deformation of the lead shaft member is present on the outer peripheral surface of the large-diameter shaft portion, When a straight body having an inner peripheral surface with a circular cross section having the same diameter is used, a gap between the inner peripheral surface of the main body and the outer peripheral surface of the shaft member can be increased except for a portion to be tightened. Therefore, the thickness of the insulating layer can be set thin, and it is effective for preventing a short circuit.
[0020]
Claim 9 In the described invention, the metal main body is provided with a male screw to be screwed into the engine, and the lead shaft member insulates the metal main body at a portion closer to the rear end than the male screw. It is characterized by being held and fixed, Claims 1-8 It is a glow plug given in any 1 paragraph.
[0021]
In the case where the lead shaft member is fixed in the metal main body at a position closer to the tip than the male screw, the metal main body is tightened by deformation of the metal main body due to the tightening. There is a possibility that the axis of the part is eccentric (center misalignment or shake) with respect to the axis of the male screw. On the other hand, it is a mounting hole provided in the engine (block) that the glow plug is inserted and mounted by a screwing method, and this mounting hole is small in diameter and deep (long). And a female screw is provided in the site | part near the external opening of a mounting hole. Moreover, the mounting hole is designed to obtain a minute clearance fit in the radial direction with respect to the glow plug. For this reason, when the eccentricity as described above increases, there is a risk that the outer peripheral surface of the glow plug interferes with or contacts the inner peripheral surface of the mounting hole during the screwing. On the other hand, in the case of fixing at a portion closer to the rear end than the male screw, the portion closer to the rear end is exposed to the outside of the engine block, so that such a problem does not occur. Therefore, even if the main body is caulked, a sufficiently large force can be applied, so that firm fixation can be obtained. Thereby, even when attaching / detaching a lead (wiring cord) connected directly or indirectly to the lead shaft member after attachment to the engine, it is possible to maintain a sufficient strength without causing loosening.
[0022]
Claim 10 The lead shaft member is characterized in that the lead shaft member is fixed while being insulated in the metal main body at a plurality of positions in the axial direction. 1-9 It is a glow plug given in any 1 paragraph.
[0023]
The demand for reducing the outer diameter (thickness) of the glow plug is increasing due to the demand for a reduction in size and weight. In order to meet this demand, if the diameter of the lead shaft member is constant, the thickness of the cylindrical portion of the metal main body must be reduced. However, if it does so, the fall of the intensity | strength of the main body will be caused fundamentally and the intensity | strength (rigidity) of a glow plug will be caused as a result. But, Claim 10 By fixing the lead shaft member in the metal main body at a plurality of locations in the axial direction as in the present invention, the lead shaft member becomes a so-called mandrel, and the strength or rigidity of the entire glow plug is increased together with the main body. Can be achieved. That is, with such a configuration, even if the thickness of the main body is reduced, the strength of the glow plug as a whole can be increased. Therefore, the thickness of the main body can be reduced, and the glow plug can be reduced in size and weight. A unique effect is obtained.
[0024]
In any of the inventions, the shaft member is tightened on the inner peripheral surface of the metal body so that the outer peripheral surface of the lead shaft member is deformed at the portion where the insulating layer is interposed, or the metal member is The position for caulking the main body may be set so as to obtain a desired fixing force. The range of the tightening area or the caulking area in the axial direction may be set as appropriate according to the position, number, length of the lead shaft member, or necessary fixing force.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
A first embodiment of the present invention will be described in detail with reference to FIGS. In the figure, reference numeral 1 denotes a glow plug for a diesel engine, which is composed of a main body 103 made of, for example, carbon steel, a ceramic heater 101, a lead shaft member 107, and the like, all formed in a tubular shape (tubular shape). . The main body 103 has an elongated stepped cylindrical shape with a straight (same diameter) inner surface 104 substantially in the entire axial direction (longitudinal direction). The portion closer to the tip (lower end in the figure) has a cylindrical portion 103a whose outer peripheral surface is also straight, and the portion closer to the rear end (upper end in the drawing) than the cylindrical portion 103a is a male screw 103b for fixing to the engine by a screwing method. Further, although not shown in detail, a tool engaging portion 103d for applying a tool when screwed into the engine is formed in a hexagonal shape having a large diameter. A loading portion 103e for loading an airtight material is formed on the inner side of the rear end portion of the main body 103 so as to expand in diameter. However, in such a main body 103, when the glow plug 1 is completed, the space between the cylindrical portion 103a near the tip and the male screw 103b at the rear thereof (substantially intermediate portion in the axial direction) is caulked in the radial direction. And a caulking portion 103f is formed. Accordingly, the caulking portion 103f is pressed (pressed) by, for example, a pressing surface of a crimping die having a polygonal shape (such as a hexagon or an octagon), so that the caulking portion 103f has a slightly concave shape so as to follow the pressing surface. It is deformed into a concave shape. Details will be described later. The main body 103 is made of S45C, SUM24L, SWCH6, SUS430, or the like, and the lead shaft member 107 is made of a steel material that is softer than the main body 103.
[0026]
A cylindrical ceramic heater 101 is disposed at a portion near the tip on the inner side (inner peripheral surface) of the main body 103 such that the portion near the tip protrudes. In the present embodiment, the ceramic heater 101 includes a heat generating portion 91 that is folded in a U shape on the tip side in an insulating ceramic 93, and wiring that forms electrodes (high melting point metal) at each end portion. Leads) are connected, and the electrodes 95 and 97 are exposed on both side surfaces near the rear end of the ceramic heater 101. In addition, a metal cylinder 105 is externally fitted to an intermediate portion in the axial direction of the ceramic heater 101, and is fixed and integrated by a brazing material. As will be described later, the tip of the main body 103 is inserted through the metal cylinder 105. It is fixed by brazing to the inner peripheral surface 104 of the cylindrical portion 103a at the offset portion. Thus, the heater 101 is electrically connected to the main body 103 via the metal cylinder 105 in the state where the heater 101 is fixed in the main body 103.
[0027]
On the other hand, the lead shaft member 107 is disposed behind the rear end 101 b of the ceramic heater 101 in the main body 103. The shaft member 107 is made of, for example, an S45C material, and is formed of a round bar that is straight and has a constant circular cross section over substantially the entire length. In addition, an inner peripheral surface 104 of the main body 103 and an insulating gap are held in the periphery, and the coaxial member 107 is disposed concentrically in the main body 103. Further, the lead shaft member 107 is formed in a cylindrical shape so that an insulating layer (insulating film) 106 covers the outer peripheral surface (surface) 108 at a part of the portion closer to the tip than the middle. In this embodiment, the insulating layer 106 is made of a soft resin, and before assembly, for example, a resin tube is fitted on the outer peripheral surface 108 of the lead shaft member 107 and integrated by heat shrinkage. The resin forming the insulating layer is preferably a fluorine-based resin, for example, a trade name Sumitube K (manufactured by Sumitomo Electric Fine Polymer Co., Ltd.), which is a polyvinylidene fluoride resin, and has a thickness of 0.15 mm. It is formed as follows.
[0028]
However, as described above, the glow plug (finished product) 1 has a shape in which the outer peripheral surface of the main body 103 is slightly recessed at the portion of the insulating layer 106 by caulking, and the inner peripheral surface 104 is correspondingly formed. Is formed so as to be slightly convex toward the axial line side, and the outer peripheral surface of the shaft member 107 is fastened via an insulating layer 106. Further, the outer peripheral surface of the shaft member 107 has a concave deformation 107 a so as to follow the cross section of the main body 103 by the caulking. The inner peripheral surface 104 of the main body 103 corresponding to the caulking portion (deformed portion) 103 f enters the deformed 107 a through the insulating layer 106. Further, the portion near the tip of the coaxial member 107 is a small-diameter portion 107 b, and the small-diameter portion 107 b and the other electrode 97 exposed at the rear end 101 b of the ceramic heater 101 are connected via a coiled relay line 99. Yes. The relay line 99 is silver brazed. The rear end portion 107c of the lead shaft member 107 protrudes from the rear end of the main body 103. In this embodiment, the protruding rear end portion 107c forms an external connection terminal. The caulking is so-called strong caulking with a strong force that causes the main body to have a polygonal shape so that the diameter of the main body is reduced. The cross section may be reduced in diameter to a polygon shape to be copied.
[0029]
On the other hand, a ring-shaped insulating bush 113 made of an insulating material is fitted on the outer periphery of such a portion near the rear end of the shaft member 107 to ensure insulation between the shaft member 107 and the main body 103. However, the insulating bush 113 is loaded in the loading portion 103e having an enlarged diameter on the inner peripheral surface near the rear end of the main body 103. And the fixing cylinder member 109 is attached to the rear end part 107c from which the shaft member 107 projects through the cylinder part 109a. Then, while the insulating bush 113 is pushed to the front end side with the cylindrical portion 109a, the cylindrical portion 109a is caulked in the radial direction, thereby fixing the fixing cylindrical member 109 to the shaft member 107 and the rear end portion (hereinafter referred to as external connection). 107c (also referred to as a terminal) is protruded and fixed. Such a glow plug 1 is fixed by screwing to the engine via its male screw so that the tip of the heater 101 is located in the combustion chamber. Then, by flowing current from the external connection terminal 107c to the lead shaft member 107, the relay wire 99, the heat generating portion 91, and the main body 103, the front end of the heater 101 is heated and fuel ignition is promoted. ing.
[0030]
As described above, the glow plug 1 has a structure in which the lead shaft member 107 is caulked by compressing the main body 103 in the radial direction at the portion of the insulating layer 106 formed on the outer peripheral surface 108 thereof. ing. A concave deformation 107 a occurs on the outer peripheral surface 108 of the lead shaft member 107. That is, the shaft member 107 is tightened in the radial direction on the inner peripheral surface of the main body 103. In addition, not only the main body 103 is deformed by caulking, but the lead shaft member 107 has a deformation (concave portion) 107a in the insulating layer 106, and the inner periphery of the metal main body 103 is formed in the deformation 107a. A portion corresponding to the caulking portion 103 f of the surface 104 enters through the insulating layer 106. Therefore, for example, even when a large external force is applied to the shaft member 107 in the axial direction while the main body 103 is fixed, the shaft member 107 and the main body 103 are engaged at the deformed portion of the shaft member 107. It can withstand strong external forces. Further, in this embodiment, the cross section (viewed from the axial direction) is caulked to form, for example, a hexagon, so that even if an external force acts on the shaft member 107 in the circumferential direction, the external force is resisted. be able to.
[0031]
Further, since the axial gap between the inner peripheral surface 104 of the main body 103 and the outer peripheral surface 108 of the shaft member 107 is blocked through the insulating layer 106 by tightening by caulking, the airtightness between them is also maintained. It is done. When the insulating layer 106 is thick, deformation due to caulking reaches the insulating layer, but there is a risk that it is not applied to the shaft member 107, and in this case, the fixing force decreases. Therefore, the insulating layer 106 in the present invention is preferably set as thin as possible within a range that does not hinder insulation retention.
[0032]
As described above, according to the glow plug 1 of the present embodiment, it is not a conventional structure for fixing the coaxial member by glass between the outer peripheral surface of the lead shaft member and the inner peripheral surface near the rear end of the main body. Accordingly, heat treatment is not required, and the shaft member is fixed with strength due to the above-described fixing structure by caulking.
[0033]
In addition, the glow plug 1 of the said form is assembled as follows (refer FIG. 2). First, the resin tube having a predetermined thickness, inner diameter, and length is fitted into a predetermined portion of the shaft member 107, heated and thermally contracted, and the insulating layer 106 is provided in close contact with the surface 108 thereof. Then, the other electrode 97 of the heater 101 and the shaft member 107 are connected via a relay line 99. Next, the heater 101 is inserted into the metal tube 105 and brazed to be integrated. In this way, the assembly of the heater 101 and the shaft member 107 shown in FIG. Then, as shown in FIG. 2B, such an assembly is inserted into the main body 103 and positioned, and then brazed to the main body 103 via the metal tube 105. Then, the position of the caulking portion 103f is crimped in the radial direction by a die D obtained by dividing the hexagon into two when viewed from the axial direction of the caulking device, for example. After that, the insulating bush 113 is set, the fixing cylinder member 109 is fitted to the rear end portion 107c of the shaft member 107, and the cylinder portion 109a of the fixing cylinder member 109 is caulked, whereby the glow plug shown in FIG. 1
[0034]
Next, a second embodiment of the present invention will be described with reference to FIGS. However, the glow plug 21 is different from the previous embodiment only in the lead shaft member 107 and the insulating layer 106 provided on the lead plug member 107, and there is no essential difference. A description will be given with reference to the reference numerals.
[0035]
That is, in this embodiment, as shown in FIG. 4, before caulking, the shaft member 107 has a larger diameter shaft portion 127 that is thicker than the others over a predetermined range in the axial direction including the portion corresponding to the caulking portion 103 f. Yes. In the completed product of the glow plug 21, as shown in FIG. 3, an insulating layer 106 is interposed between the outer peripheral surface of the large-diameter shaft portion 127 and the inner peripheral surface 104 of the main body 103, and the insulating layer The main body 103 is caulked so that the deformation 107 a exists on the outer peripheral surface of the large-diameter shaft portion 127 at a portion 106. In this way, the shaft member 107 is fastened by the inner peripheral surface 104 of the metal main body 103 and is fixed in the metal main body while maintaining insulation. In such a glow plug 21 of this embodiment, the main body 103 before caulking has a circular cross section with the same inner dimension on the inner peripheral surface 104 as in the above embodiment. However, as shown in FIG. 4, the shape of the lead shaft member 107 before caulking is a large-diameter shaft portion 127 having a large diameter in a predetermined range corresponding to the caulking portion 103f in the above-described form. Other than the above, the small diameter shaft portion 128 is concentric with the small diameter shaft portion 128. The insulating layer 106 is provided on a part of the outer peripheral surface of the large-diameter shaft portion 127 and the upper and lower small-diameter shaft portions connected thereto.
[0036]
Then, using the lead shaft member 107 provided with such an insulating layer 106, an assembly is produced in the same manner as in the above embodiment, and this is inserted into the main body 103 as shown in FIG. After positioning, the main body 103 is brazed via the metal cylinder 105. Then, the main body 103 is caulked in the same manner as in the above embodiment so that the outer peripheral surface of the large-diameter shaft portion 127 with the insulating layer 106 is deformed. In this embodiment, in addition to the effects of the above embodiment, there are the following unique effects.
[0037]
That is, in such a glow plug 21, since the shaft member is fixed by caulking the main body 103, the gap between the inner peripheral surface 104 of the main body 103 corresponding to the caulking portion 103 f and the outer peripheral surface 108 of the shaft member 107. There is a demand to reduce the interval in the range where there is no problem in ensuring insulation and assembling by the insulating layer 106. However, in the case where both the inner peripheral surface 104 of the main body 103 and the outer peripheral surface 108 of the shaft member 107 are straight with a constant diameter as in the above-described form, the smaller the interval, the more the portion without the insulating layer 106. The risk of short circuiting increases. On the other hand, in this embodiment, there is no risk of such a short circuit, and the distance between the inner peripheral surface 104 of the main body 103 corresponding to the caulking portion 103 and the outer peripheral surface 108 of the shaft member 107 is reduced. There is an effect that it can be set.
[0038]
Next, a third embodiment of the present invention will be described with reference to FIG. However, the glow plug 31 of this embodiment is different from that of the above-described embodiment of FIG. 1 only in that the main body 103 is caulked to fix the lead shaft member 107 at two places in the axial direction. Only. Therefore, only the differences will be described, and the same parts are only given the same reference numerals.
[0039]
That is, in this structure, the insulating layer 106 is provided in two regions in the axial direction of the lead shaft member 107, and the deformation 107a is provided on the outer peripheral surface of the lead shaft member 107 at a portion where each insulating layer 106 is provided. Thus, the main body 103 is crimped and the shaft member 107 is fixed in the main body 103 while maintaining insulation. In this embodiment, the fixing strength of the main body 103 is greatly improved by providing two caulking portions 103f. This is suitable when the lead shaft member 107 is long. In addition, you may fix in three or more places as needed. Also in this embodiment, a lead shaft member 107 having a large-diameter shaft portion and a small-diameter shaft portion is used, an insulating layer is formed on the outer peripheral surface of the large-diameter shaft portion, and the deformation of the shaft member is caused by this large-diameter portion. The main body may be caulked so as to exist at a plurality of locations on the outer peripheral surface of the shaft portion.
[0040]
Next, a fourth embodiment of the present invention will be described with reference to FIG. However, in the glow plug 41 of this embodiment, only the point where the main body 103 is caulked and the lead shaft member 107 is fixed is the rear cylindrical portion 103c formed between the male screw 103b and the tool engaging portion 103d. However, this is only different from the above-described embodiment. That is, the only difference in the structure is that the two caulking sites in the above embodiment are only one upper site in FIG. Accordingly, the same parts as those in this embodiment are given the same reference numerals, and only the differences will be described.
[0041]
That is, in this case, the insulating layer 106 is provided in the region of the rear cylindrical portion 103c in the axial direction of the lead shaft member 107, and the deformation 107 is applied to the outer peripheral surface of the lead shaft member 107 at a portion where the insulating layer 106 is located. The main body 103 is caulked so that the shaft member 107 is fixed in the main body 103 while maintaining insulation. In this embodiment, since the caulking part is located behind the male screw 103b in this way, strong caulking that provides strong fixation of the lead shaft member 107 can be performed without any problem. That is, such a caulking portion of the position is exposed to the outside when the glow plug 41 is attached to the engine mounting hole by a screwing method. For this reason, even if the caulking part is eccentric with respect to the axis of the male screw 103b, there is no big problem, and therefore strong caulking can be performed without any problem. Accordingly, as described above, this is effective in preventing the loosening of the coaxial member from the main body due to the attachment / detachment of the wiring cord (not shown) connected to the rear end of the lead shaft member 107.
[0042]
In each of the above embodiments, the case where the lead shaft member is fixed by caulking the main body has been described. However, in the present invention, the fixing means is not limited to such caulking. That is, in the present invention, the lead shaft member is metal-bound by being tightened on the inner peripheral surface of the metal main body so that the outer peripheral surface of the lead shaft member has a deformation (deformation mark) at the portion where the insulating layer is interposed. What is necessary is just to hold | maintain insulation and hold | maintain in the body. And as for the tightening here, as above-mentioned, in the state assembled as a glow plug, the shaft member should just be fastened by the internal peripheral surface of a main body. The tightening method is not limited to caulking. A metal main body that is not caulked may be deformed in the radial direction in a compressed state.
[0043]
The present invention is not limited to the embodiments described above, and various design changes can be made without departing from the scope of the invention. For example, in the glow plug, the insulating layer only needs to be interposed between the inner peripheral surface of the metal main body and the outer peripheral surface of the lead shaft member. It is not limited to forming on the surface of a member. It may be formed in advance on the inner peripheral surface of the main body, or may be formed on both the inner peripheral surface of the main body and the outer peripheral surface of the shaft member. Such an insulating layer may be formed by any method. The film may be attached, or may be formed by applying a liquid resin. Further, the powder resin may be formed by electrostatic coating or may be formed by a spray method. As described above, when the metal main body or the lead shaft member is an iron-based metal, an oxide film layer may be used. Furthermore, the insulating layer may be provided over the entire area in the axial direction of the lead shaft member, for example, beyond the area to be caulked.
[0044]
【The invention's effect】
As is apparent from the above description, according to the glow plug of the present invention, since the lead shaft member is fixed by caulking the main body, no heat treatment is required. Also, the coaxial main body is fixed to the main body by caulking the metal main body via an insulating layer so that the outer peripheral surface of the lead shaft member is deformed. Therefore, the shaft member can be a glow plug that can be firmly fixed while maintaining insulation in the main body.
[Brief description of the drawings]
FIG. 1 is a front longitudinal sectional view and an enlarged view of a main part of a first embodiment of a glow plug according to the present invention.
2 is a view for explaining a manufacturing process of the glow plug of FIG. 1; FIG.
FIG. 3 is a front longitudinal sectional view and an enlarged view of a main part of a second embodiment of a glow plug according to the present invention.
4 is a view for explaining a manufacturing process of the glow plug of FIG. 3;
FIG. 5 is a front longitudinal sectional view of a third embodiment of a glow plug according to the present invention.
FIG. 6 is a front longitudinal sectional view of a fourth embodiment of a glow plug according to the present invention.
FIG. 7 is a front longitudinal sectional view and a main part enlarged view of a conventional glow plug.
[Explanation of symbols]
1, 21, 31, 41 Glow plug
91 Heating part
93 Insulation material
95, 97 Heater electrode
101 heater
101b Rear end of heater
103 Metal body
104 Inner peripheral surface of metal body
106 Insulating layer
107 Shaft member for lead
107a Deformation that forms a concave shape on the outer peripheral surface of the lead shaft member
108 Outer peripheral surface of lead shaft member

Claims (10)

A heater comprising a heat generating part that generates heat when energized in an insulating member is fixed to a portion near the tip of a cylindrical metal body, one electrode is electrically connected to the metal body, and the other In the glow plug in which the electrode is electrically connected to a shaft member for lead disposed behind the rear end of the heater in the metal body and insulated from the metal body,
The lead shaft member has a large-diameter shaft portion and a small-diameter shaft portion, and is between the inner peripheral surface of the metal main body and the outer peripheral surface of the lead shaft member, and the large-diameter shaft. the outer peripheral surface of the parts is interposed insulating layer, the insulating layer interposed deformation on the outer circumferential surface of Oite the large diameter shaft portion in a portion (deformation marks) said large-diameter portion in the radial direction so as to have a A glow plug, wherein the lead shaft member is fastened on an inner peripheral surface of a metal main body, and is fixed in the metal main body while maintaining insulation. A heater comprising a heat generating part that generates heat when energized in an insulating member is fixed to a portion near the tip of a cylindrical metal body, one electrode is electrically connected to the metal body, and the other In the glow plug in which the electrode is electrically connected to a shaft member for lead disposed behind the rear end of the heater in the metal body and insulated from the metal body,
The lead shaft member has a large-diameter shaft portion and a small-diameter shaft portion, and is between the inner peripheral surface of the metal main body and the outer peripheral surface of the lead shaft member, and the large-diameter shaft. the outer peripheral surface of the parts is interposed insulating layer, crimped onto the metallic body is radially so as to have deformed (deformation marks) on the outer peripheral surface of Oite the large diameter shaft portion interposed the site of the insulating layer The glow plug is characterized in that the lead shaft member is fixed in the metal main body while maintaining insulation. A heater comprising a heat generating part that generates heat when energized in an insulating member is fixed to a portion near the tip of a cylindrical metal body, one electrode is electrically connected to the metal body, and the other In the glow plug in which the electrode is electrically connected to a shaft member for lead disposed behind the rear end of the heater in the metal body and insulated from the metal body,
An insulating layer is interposed between the inner peripheral surface of the metal main body and the outer peripheral surface of the lead shaft member in at least a part of the lead shaft member in the axial direction, and the insulating layer is interposed. The metal member is deformed so that the outer peripheral surface of the lead shaft member has a concave shape and the inner peripheral surface of the metal main body enters into the deformed portion through the insulating layer. A glow plug characterized in that the lead shaft member is fastened on an inner peripheral surface of a main body made of a metal and is fixed in the metal main body while maintaining insulation. A heater comprising a heat generating part that generates heat when energized in an insulating member is fixed to a portion near the tip of a cylindrical metal body, one electrode is electrically connected to the metal body, and the other In the glow plug in which the electrode is electrically connected to a shaft member for lead disposed behind the rear end of the heater in the metal body and insulated from the metal body,
An insulating layer is interposed between the inner peripheral surface of the metal main body and the outer peripheral surface of the lead shaft member in at least a part of the lead shaft member in the axial direction, and the insulating layer is interposed. The metal member is deformed so that the outer peripheral surface of the lead shaft member has a concave shape and the inner peripheral surface of the metal main body enters into the deformed portion through the insulating layer. A glow plug characterized in that a main body is caulked and the lead shaft member is fixed in the metal main body while maintaining insulation.   The glow plug according to any one of claims 1 to 4, wherein the insulating layer is formed of a resin tube that is externally fitted to the lead shaft member.   The glow plug according to claim 5, wherein the resin tube is made of a fluororesin.   The glow plug according to any one of claims 1 to 6, wherein the insulating layer is a resin coating layer formed on an outer peripheral surface of the lead shaft member.   The glow plug according to any one of claims 4 to 7, wherein a thickness of the insulating layer is in a range of 0.01 mm to 0.5 mm. The metal main body is provided with a male screw to be attached to the engine by a screw-in method, and the lead shaft member is fixed in the metal main body while maintaining insulation at a portion closer to the rear end than the male screw. The glow plug according to claim 1, wherein the glow plug is provided. The glow plug according to any one of claims 1 to 9, wherein the lead shaft member is fixed to the metal main body while maintaining insulation at a plurality of locations in the axial direction.

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