JP4402281B2 - Pressure sensor unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a pressure sensor unit.
[0002]
[Prior art]
Conventionally, the pressure in the combustion chamber of an internal combustion engine is detected by a pressure sensor built in the spark plug for the purpose of detecting the combustion state and knocking of the internal combustion engine, improving fuel consumption, purifying exhaust gas, and the like. The outline of the pressure sensor built-in type spark plug used for such a purpose is as follows. That is, a pressure sensor element composed of a ring-shaped piezoelectric ceramic element is fitted from the outside together with a ring-shaped electrode for output extraction to the base end position of the mounting screw formed on the metal shell of the spark plug, and a hook-shaped sensor holding section In addition to this, the whole is covered with a sensor case from the outside. An output lead wire from the ring electrode is taken out rearward from the sensor case. When the spark plug is attached to the plug hole of the internal combustion engine at the attachment screw portion, the pressure sensor is pressed against the opening outer edge portion of the plug hole through the sensor case. The combustion pressure is transmitted to the pressure sensor through the sensor case. The pressure sensor outputs a voltage corresponding to the detected pressure level through the output lead wire due to the piezoelectric effect.
[0003]
[Problems to be solved by the invention]
In the case of a structure in which the pressure sensor element is inseparably integrated in the spark plug as described above, when the life of the spark plug expires, the pressure sensor portion must be replaced by tying even if it is still usable. is there. Therefore, Japanese Patent Laid-Open No. 6-290853 (FIGS. 7 and 8) discloses a configuration in which the pressure sensor is configured separately from the spark plug and can be continuously attached to the spark plug after replacement. ing.
[0004]
However, the pressure sensor with the above structure has a structure in which the lead wire for taking out the sensor output protrudes from the pressure sensor element to the side and then is pulled out to the rear end side of the spark plug. It is becoming difficult to fit the engine. For example, in a recent gasoline engine for automobiles, the mechanism around the cylinder head to which the spark plug is attached is complicated, and in particular, the structure in which the spark plug is attached to the bottom of a deep plug hole formed in the cylinder head. In many cases, valve system parts and the like are densely packed around the bottom of the plug hole where the pressure sensor element is located, so that there is not enough room for the lead wire to protrude sideways.
[0005]
The problem of the present invention is that it is configured separately from the spark plug, and it is not necessary to secure an extra space in the periphery of the pressure sensor element, and further, the overall weight can be reduced and the plug hole can be mounted. It is another object of the present invention to provide an easy pressure sensor unit.
[0006]
[Means for solving the problems and actions / effects]
In order to solve the above problems, the pressure sensor unit of the present invention is configured as follows. That is, it has a cylindrical unit main body portion having a spark plug insertion hole formed on the bottom surface, and a ring-shaped pressure sensor element is incorporated in the form surrounding the spark plug insertion hole. Then, with the side where the pressure sensor element is located in the axial direction as the front end side, the unit main body is inserted and fixed in the axial direction from the front end side into the plug hole. Then, in this state, by inserting the spark plug into the spark plug insertion hole and attaching it to the attachment hole at the bottom of the plug hole, the sensor support portion protruding from the outer peripheral surface of the spark plug metal shell and the attachment hole The pressure sensor element is clamped and held between the opening periphery. That is, the unit main body is formed separately from the spark plug, and for example, only the spark plug can be replaced with the unit main body remaining in the plug hole.
[0007]
Next, the unit main body is specifically configured as follows. That is, the unit main body has an outer cylinder member that forms an outer peripheral surface portion and an inner cylinder member that forms an inner peripheral surface portion, and a pressure sensor element is disposed in a gap formed therebetween. Further, an output from the pressure sensor element is taken out by a sensor output lead wire through a sensor output terminal drawn into the gap. That is, a ring-shaped pressure sensor element is arranged between two cylindrical members, and the output output terminal is drawn into the gap between the cylindrical members. The pressure sensor element does not protrude radially outward, that is, laterally. This eliminates the need to secure extra space around the pressure sensor element in the plug hole. For example, it can be easily mounted on a cylinder head where valve system parts are densely packed around the bottom of the plug hole. is there.
[0008]
In the pressure sensor unit of the present invention, the unit body Part Is installed in the plug hole, the rear end in the axial direction of the inner cylinder member and / or the outer cylinder member is located in the middle of the depth direction in the plug hole, and the inner cylinder member of the sensor output lead wire and A lead wire supporting portion for supporting a portion extending rearward from the rear end of the outer cylinder member; Located on the rear side of the unit body in the axial direction It is provided integrally with the unit main body. Furthermore, a fixing portion for fixing the sensor output lead wire to itself at predetermined intervals in the axial direction is provided on the inner surface or outer surface of the lead wire support portion. That is, it is possible to reduce the weight of the entire pressure sensor unit by interrupting the inner cylinder member and / or the outer cylinder member at the middle position in the depth direction of the plug hole. Further, as a result of the weight reduction, it is possible to suppress a decrease in measurement accuracy of pressure (or vibration) due to generation of an undesired resonance mode. In addition, since the sensor output lead wire extending rearward from the rear end of these cylindrical members is supported by a lead wire support portion integrated with the unit main body portion, when the unit main body portion is mounted in the plug hole, In addition, it is difficult to cause a problem that the bent sensor output lead wire is caught on the member on the cylinder head side, and the mounting can be performed smoothly. In addition, when the spark plug is attached to the unit main body, it is difficult for the spark plug, a tool for attaching the spark plug, and the like to interfere with the sensor output lead wire.
[0009]
In addition, although the code | symbol provided to each requirement in the claim of this specification uses the code | symbol attached | subjected to the corresponding part of attached drawing, it is used in order to make an understanding of an invention easy to the last. The concept of each constituent element in the scope of claims is not limited in any way.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, some embodiments of the present invention will be described with reference to the drawings.
Fig.1 (a) is sectional drawing which shows the pressure sensor unit 1 which makes one Embodiment of this invention in the attachment state to cylinder head SH. The pressure sensor unit 1 has a cylindrical unit main body portion 2 having a spark plug insertion hole 4 formed on the bottom surface, and a ring-shaped pressure sensor element 3 is incorporated in the spark plug insertion hole 4 so as to surround the spark plug insertion hole 4. Yes. When the side where the pressure sensor element 3 is located is the front end side in the direction of the axis O of the unit main body 2, the unit main body 2 is inserted and fixed into the plug hole PH from the front end.
[0011]
As shown in FIG. 2, the inner surface of the plug hole PH is formed into a reduced diameter portion PS by slightly reducing the diameter of the bottom portion at the step portion DP, and the pressure sensor unit 1 has a lower end portion of the unit main body portion 2. It is inserted into the reduced diameter portion PS in the form of a gap fit. A mounting hole PF of the spark plug 100 is formed in the form of a female screw hole on the bottom surface of the plug hole. As shown in FIG. 2, the outer peripheral edge of the bottom surface of the unit body 2 is in close contact with the opening periphery GS of the attachment hole PF, and the spark plug insertion hole 4 is concentrically aligned with the attachment hole PF. . Note that an oil seal plug tube PT is press-fitted so as to cover the inner peripheral surface of the plug hole PH other than the reduced diameter portion PS. As shown in FIG. 1, the plug tube PT is in close contact with the inner surface of the plug hole PH in the form of an interference fit and is provided with an oil seal. An oil seal ring TR for the plug tube PT is fitted into the upper end portion of the inner surface of the plug hole PH (see FIG. 1).
[0012]
The spark plug 100 is inserted into the spark plug insertion hole 4 in the above state, and the attachment screw portion 104 formed on the front end side of the outer peripheral surface of the metal shell 1 is attached to be screwed into the attachment hole PF. As a result, the pressure sensor element 3 incorporated in the unit main body 2 is located between the sensor support portion 102 projecting like a bowl from the outer peripheral surface of the metal shell 101 of the spark plug 100 and the opening peripheral edge portion GS of the mounting hole PF. Is held by the pressure.
[0013]
The unit main body 2 includes an outer cylinder member 5 forming an outer peripheral surface portion and an inner cylinder member 6 forming an inner peripheral surface portion, and the pressure sensor element 3 is disposed in a gap 7 formed therebetween. The output from the pressure sensor element 3 is taken out by a sensor output lead wire 9 through a sensor output terminal 8 drawn into the gap 7. The sensor output lead wire 9 includes a core wire 9a and a shield coating 10 that covers the outside thereof.
[0014]
The inner cylinder member 6 and the outer cylinder member 5 have their lengths so that at least one of the rear ends 6a and 5a in the direction of the axis O, both here, are located in the middle in the depth direction in the plug hole PH. Has been adjusted. Both the inner cylinder member 6 and the outer cylinder member 5 are made of metal, and as described above, the rear ends 6a and 5a are cut off in a so-called plug hole PH, so that the pressure sensor unit 1 can be reduced in length. The weight is reduced.
[0015]
The effect of reducing the weight as described above is most prominent when both the inner cylinder member 6 and the outer cylinder member 5 are shortened as described above, but the inner cylinder member 6 and the outer cylinder as described later. A form in which only one of the members 5 is shortened is also sufficiently useful. Further, among the inner cylinder member 6 and the outer cylinder member 5, those that are shortened (hereinafter referred to as a short cylinder member) have a shorter length, that is, the shorter length in the plug hole PH. As the position of the rear end of the cylindrical member is located on the front side in the direction of the axis O, the effect of reducing the weight is greater. However, from the viewpoint of sufficiently securing the protection function for the pressure sensor element 3, at least the pressure sensor element 3 It is desirable to be located behind the rear end position. On the other hand, in order to achieve a remarkable weight reduction effect, the rear end of the short cylindrical member is the rear end 105a of the terminal fitting 105 of the spark plug 100, preferably the rear end 110a of the insulator 110, and more preferably the metallic shell 101. It is desirable to be ahead of the rear end 101a.
[0016]
In the pressure sensor unit 1 of the present embodiment, the rear ends 5a and 6a of the inner cylinder member 6 and the outer cylinder member 5 are both openings of the reduced diameter portion PS of the plug hole PH into which the unit body 2 is press-fitted. It is set at a position that substantially coincides with the edge. The position is also located between the hexagonal portion 103 of the metal shell 1 and the sensor support portion 102.
[0017]
Next, the inner cylinder member 6 has a bulging portion 6g in which an end wall on the front end side in the axis O direction is bulged inward in the radial direction, and the inner peripheral surface of the bulging portion 6g is the spark plug insertion hole 4. It is said that. Further, the outer cylindrical member 5 and the bulging portion 6g of the inner cylindrical member 6 are integrated by a bottom closing portion 14 that closes the gap 7 on the front end side in the direction of the axis O. The bulging portion 6g, the wall portion 5h of the outer cylinder member 5 facing the bulging portion, and the bottom closing portion 14 form a sensor accommodating portion 15 that accommodates the pressure sensor element 3. By providing the bulging portion 6g of the inner cylinder member 6 and accommodating the pressure sensor element 3 in this manner, the pressure sensor element 3 is accommodated in the attached state of the spark plug 100 shown in FIG. The sensor 15 is securely clamped between the sensor support 102 and the opening peripheral edge GS of the mounting hole PF together with the portion 15. As a result, pressure information from the cylinder head SH can be reliably detected.
[0018]
As shown in FIG. 2, a ring-shaped electrode plate 60 is laminated on the ring-shaped pressure sensor element 3 in the sensor housing portion 15. Then, at least a portion of the electrode plate 60 forming the inner peripheral edge side is accommodated in the bulging portion 6 g of the inner cylinder member 6, while the sensor output terminal 8 has the base end portion 8 a integrated with the outer peripheral edge of the electrode plate 60. Thus, the end portion 8b extends into a space located on the rear side in the axis O direction with respect to the bulging portion 6g of the gap 7. With this structure, the sensor output terminal 8 and thus the sensor output lead wire 9 connected to the sensor output terminal 8 does not form a projecting portion radially outward at the position of the pressure sensor element 3, so that the bottom portion of the plug hole PH (the reduced diameter portion PS). ) It is possible to respond flexibly even when valve system parts are densely packed around the cylinder head and it is difficult to secure the mounting space on the cylinder head side.
[0019]
The pressure sensor element 3 is accommodated in the sensor accommodating portion 15 in the form of a pressure sensor assembly 318 as shown in FIG. The pressure sensor assembly 318 includes a ring-shaped plate packing 59, a ring-shaped piezoelectric ceramic element 3, a ring-shaped electrode plate 60, and a ring-shaped insulating plate 61 in this order from the side close to the bottom closing portion 14. It has a laminated structure. Such a structure can be easily manufactured by, for example, a process as shown in FIG. First, as shown to (a), the thing of the structure where the main-body part 6m and the reduced diameter part 6s were connected via the step part 6h as the inner cylinder member 6 is prepared. Then, the insulating plate 61, the electrode plate 60, the pressure sensor element 3, and the plate packing 59 are sequentially fitted into the reduced diameter portion 6s, and the pressure sensor assembly 318 is stacked on the step portion 6h. At this time, as shown in (b), the electrode terminal portion 8 integrated with the outer peripheral edge of the electrode plate 60 is bent downward (that is, the rear side in the direction of the axis O in FIG. 2), and the outer periphery of the main body portion 6m. Keep it along the surface. The electrode terminal portion 8 is preliminarily fitted with an insulating coating 18 made of a polytetrafluoroethylene tube or the like. Further, at least a region of the outer peripheral surface of the reduced diameter portion 6s that faces the inner peripheral surface of the pressure sensor assembly 318 is covered with an insulating coating 418 made of a polytetrafluoroethylene tube or the like.
[0020]
Next, as shown in (c), a circumferential protruding portion 5 s is formed on the inner peripheral edge of the main body portion 5 m formed in a cylindrical shape in the outer cylinder member 5, and protrudes from the pressure sensor assembly 318. The main body part 5m is covered with the main body part 6m of the inner cylinder member 6 while the tip part 6s' of the reduced diameter part 6s of the inner cylinder member 6 to be inserted is inserted into the projecting part 5s. Thereby, the overhanging portion 5 s covers the upper surface side of the pressure sensor assembly 318, and a gap 7 is formed between the main body portion 5 m and the main body portion 6 m of the inner cylinder member 6. At this time, since the electrode terminal portion 8 is bent downward in advance, the electrode terminal portion 8 is automatically positioned in the gap 7 as the outer cylinder member 5 is covered. Then, the tip portion 6s ′ of the reduced diameter portion 6s of the inner cylinder member 6 is crimped toward the projecting portion 5s. By performing this caulking at an appropriate pressure, the close contact between the stepped portion 6h and the caulked tip portion 6s ′ with respect to the pressure sensor assembly 318 is improved.
[0021]
Finally, as shown in (d), the outer cylindrical member 5 and the inner cylindrical member 6 are welded to the distal end portion 6s ′ and the overhanging portion 5s by a circumferential welded portion W (for example, a laser welded portion). Are combined in an airtight state. As is apparent from the figure, the tip portion 6s ′ and the overhanging portion 5s form a bottom closing portion 14.
[0022]
Returning to FIG. 2, the gap 7 between the inner cylinder member 6 and the outer cylinder member 5 is filled with an insulating polymer material (for example, silicon rubber) to form a polymer material filling portion 16. And the connection part of the sensor output terminal 8 and the sensor output lead wire 9 is embedded in the polymer material filling part 16 in a state of being covered with the insulating coating 18. Thereby, the insulation state between the sensor output terminal 8 and the sensor output lead wire 9 and the inner cylinder member 6 or the outer cylinder member 5 is ensured, and the connection portion weak in strength is in the polymer material filling portion. By immersing in, it becomes difficult to cause problems such as disconnection and poor contact due to external force application.
[0023]
Next, the portion of the sensor output lead wire 9 that extends rearward from the rear ends 6a, 5a of the inner cylinder member 6 and the outer cylinder member 5 is a lead wire support that is provided integrally with the unit main body 2. Supported by part 11. In the present embodiment, the lead wire support portion includes a cylindrical portion 11 disposed on the rear side in the axis O direction of the unit main body portion 2. Such a cylindrical part 11 suitably functions as a guide when the unit body part 2 is attached to the bottom part of the deep plug hole PH.
[0024]
The cylindrical part 11 is specifically formed as a polymer material cylindrical part 11 made of a polymer material such as plastic. The outer cylindrical member 5 and / or the inner cylindrical member 6 made of metal are shortened, and the cylindrical portion serving as a support for the sensor output lead 9 and a mounting guide for the unit main body 2 is made of a polymer material that is lighter than metal. The effect of weight reduction can be further enhanced. In this case, as shown in FIG. 1 (b), if the sensor output lead wire 9 is embedded in the polymer material cylindrical portion 11, the sensor output lead wire 9 can be reliably supported and the spark plug can be provided. When attaching the spark plug 100, the plug wrench PW, the plug cap, or the like into the polymer material cylindrical portion 11, the sensor output lead wire 9 is less likely to get caught.
[0025]
Such a structure can be manufactured by a method in which the polymer material cylindrical portion 11 is formed integrally with the unit main body portion 2 by insert molding or the like so as to enclose the sensor output lead wire 9 extending from the rear end thereof. In this case, the front end surface of the polymer material cylindrical portion 11 can be joined to the rear end surface of the polymer material filling portion 16 in the gap 7 during the molding.
[0026]
The pressure sensor unit 1 as described above is mounted in the plug hole PH as shown in FIG. A rubber mounting ring 34 is integrated with the upper end portion of the polymeric material cylindrical portion 11, and the flange 34 a is hooked on the opening periphery of the plug hole PH, so that the upper side of the pressure sensor unit 1 is engaged. Fixing can be performed. Since the pressure sensor unit 1 has the polymer material cylindrical body 11 as a lead wire support portion, it is easy to insert and attach the unit main body portion 2 to the plug hole PH. Further, both the metal outer cylinder member 5 and the inner cylinder member 6 of the unit main body 2 extend only to the middle of the plug hole PH, and the rear side is a polymer material cylindrical body 11, so Is light in weight, and an undesirable resonance mode or the like hardly occurs. Then, as shown in FIG. 1, the spark plug is attached by engaging the plug wrench PW with the hexagonal portion 103 of the metal shell 101. At this time, since the sensor output lead wire 9 is embedded in the polymer material cylindrical body 11, the plug wrench PW or the like is hardly caught.
[0027]
Hereinafter, various modifications of the pressure sensor unit according to the present invention will be described (in addition, the same reference numerals are given to the same parts as those already described, and detailed description will be omitted). First, as shown in FIG. 5, the cylindrical portion 11 is formed separately from the unit main body portion 2 and the sensor output lead 9, and the cylindrical portion side engaging portion 11 a and the unit main body are formed with respect to the unit main body portion 2. It is good also as a structure engaged by the part side engaging part 16a (This is not only when the unit main-body part 2 and the cylindrical part 11 separate from a polymer material, but of other materials, for example, metal. The same applies to some cases). In this example, a groove 11g in the axial direction is formed on the inner peripheral surface of the polymer material cylindrical portion 11, and the sensor output lead wire 9 is accommodated therein. Moreover, the cylindrical part side engaging part 11a is a convex part which protrudes from the bottom face of the cylindrical part 11, and unit body part side engagement is carried out to the polymeric material filling part 16 comprised with flexible elastic materials, such as rubber | gum. A concave portion is formed as the portion 16a, and the cylindrical portion 11 and the unit main body 2 are engaged by press-fitting the convex portion 11a therein. If it does in this way, the unit main-body part 2 and the cylindrical part 11 with which the pressure sensor element 3 is integrated will not form a continuous body, As a result, the resonance mode by both coupled vibrations, especially the low frequency resonance mode is suppressed An advantage that can be produced.
[0028]
FIG. 6 shows an example of a pressure sensor unit in which the lead wire support portion is a metal member. Specifically, the cylindrical portion forming the lead wire support portion is made of a metal outer cylinder member 5 and an inner cylinder. This is an example in which any one of the members 6 is formed as a metal cylindrical portion formed to extend rearward in the axis O direction. In the pressure sensor unit 150, the outer cylinder member 5 is extended from the rear end 6a of the inner cylinder member 6, and the extension part 5e forms a cylindrical part as a lead wire support part. The sensor output lead wire 9 is led to the rear side along the inner wall surface of the extension portion 5e. Even in this configuration, the inner cylinder member 6 is cut off in the middle of the plug hole PH in the depth direction, so that the effect of reducing the weight is achieved.
[0029]
Here, a fixing portion 12 for fixing the sensor output lead wire 9 to itself is provided at a predetermined interval in the direction of the axis O on the inner peripheral surface of the extension portion 5e serving as a lead wire support portion. By providing such a fixing portion 12, it is possible to effectively prevent a problem that the sensor output lead wire 9 is bent into the plug hole. For example, as shown in FIG. 7, if the fixing portion 12 is a cut-and-raised portion formed on a plate material that forms the support surface of the lead wire support portion 11, the structure is simple and the formation is easy. In this case, the sensor output lead wire 9 is inserted and held inside the cut and raised portion.
[0030]
Next, in the pressure sensor unit 160 shown in FIG. 8, at least one of the inner cylinder member 6 and the outer cylinder member 5, here both the rear ends 6 a and 5 a in the axis O direction are It is located between the rear end and the rear end of the insulator 110 of the spark plug 100 (reference section SS). And among each rear end 6a, 5a of the inner cylinder member 6 and the outer cylinder member 5, the area | region inside the inner peripheral surface 5b of the outer cylinder member 5, or its extension surface EP is located behind the reference section SS. In addition, the components of the pressure sensor unit 1 are not present. Further, behind the reference section SS, the edge position on the outer side in the radial direction with respect to the axis O of the sensor output lead wire 9 exists outside the inner peripheral surface position of the outer cylinder main body 5m.
[0031]
As shown in FIG. 9, the sensor output lead wire 9 connected to the sensor output terminal 8 is more specifically taken out from the rear end surface of the pressure sensor element 3 by a predetermined length on the rear side in the axis O direction. (Reference defined in the reference section SS as being located on the rearmost side in the axis O direction in the reference section SS among the rear ends 6a, 5a of the inner cylinder member 6 and the outer cylinder member 5) In the section up to the position (here, set to the front side of the rear end 6a of the inner cylinder member 6), the inner peripheral surface of the outer cylinder main body part 5m and the outer periphery of the main body part 6m of the inner cylinder member 6 Threaded between the faces. And in the section behind the extraction position AP, it is extracted outside the outer peripheral surface 5c of the outer cylinder main body 5m. As a result, as shown in FIG. 8A, the sensor output lead wire 9 is excluded from a region inside the inner peripheral surface of the outer cylinder member 6 (or its extension EP) on the rear side of the reference section SS. It is easy to secure a space for arranging an ignition coil and the like which will be described later. As shown in FIG. 8B, the sensor output lead wire 9 taken out to the outside has an axial groove portion PG in which the peripheral wall of the plug tube PT bulges outward in a partial section in the circumferential direction. (A groove is formed at a position corresponding to the plug hole PH side).
[0032]
As shown in FIG. 9, the outer cylinder member 5 is formed with a lead wire extraction portion 5f that bulges outward from the outer peripheral surface 5c of the outer cylinder main body portion 5m at the extraction position AP. According to this structure, the path changing portion between the sensor output terminal 8 and the sensor output lead wire 9 that is also directed from the inner region of the main body portion 5m of the outer cylinder member 5 to the outer region is accommodated in the lead wire extraction portion 5f. Since it is protected, when the unit main body 2 is mounted in the plug hole PH, it is difficult to cause a problem that the path changing portion is damaged due to an impact or the like. The lead wire take-out portion 5f is accommodated in the front end portion of the groove portion PG. In the present embodiment, the front end surface (and the corresponding rear end surface of the groove portion PG) of the lead wire extraction portion 5f is the inclined surface 5i. The inner side of the lead wire extraction portion 5f is a polymer material filling portion 13.
[0033]
And as shown to Fig.8 (a), although the sensor output lead wire 9 becomes a shape extended in the direction of the axis line O rather than the reference | standard area SS, when mounting | wearing the unit main body 2 in a plug hole, it is a form. For the sake of convenience, a lead wire support portion 411 for supporting the sensor output lead wire 9 is provided integrally with the unit body 2. In the present embodiment, the lead wire support portion 411 has a plate-like member disposed along the sensor output lead wire 9. By using such a plate-like member, the lead wire support portion 11 can be configured to be lightweight and compact.
[0034]
The front end of the plate member may be coupled to any of the inner cylinder member 6, the outer cylinder member 5 and (FIG. 9), but from the inner peripheral surface (or an extension thereof) of the main body 5m of the outer cylinder member 5. Since the plate-like member must be positioned outside, the sensor output lead wire 9 drawn backward from the gap 7 between the inner cylinder member 6 and the outer cylinder member 5 when connecting to the outer cylinder member 5 side. It is necessary to form holes and notches in order to avoid interference. Therefore, in the present embodiment, as shown in FIG. 9, a transition portion 11 a that connects the front end portion of the plate-like member to the rear end portion of the inner cylindrical member 6 and extends toward the extended position of the wall portion of the outer cylindrical portion 5. And the main part 11b extending rearward in the direction of the axis O in a form following the transition part 11a, the interference with the sensor output lead wire 9 is reasonably avoided. In such a structure, for example, a connection portion 11c is formed on the distal end side of the transition portion 11a, and the connection portion 11c is joined to the outer peripheral surface of the main body portion 6m of the inner cylinder member 6 by a welding portion WG or the like. Can be easily obtained.
[0035]
Returning to FIG. 8, the lead wire support portion 411. Outside Is provided with a fixing portion 12 for fixing the sensor output lead wire 9 to itself at a predetermined interval in the direction of the axis O. The fixing part 12 is a cut-and-raised part similar to that shown in FIG.
[0036]
The pressure sensor unit 1 as described above is mounted in the plug hole PH as shown in FIG. A rubber mounting ring 34 is integrated with the upper end portion of the lead wire support portion 411, and a rib FR formed on the opening periphery of the plug hole PH in a fitting groove 34a formed on the lower surface side thereof. By fitting, the upper side of the pressure sensor unit 1 can be fixed. Then, as shown in FIG. 1, the spark plug 100 is attached by engaging the plug wrench PW with the hexagonal portion 103 of the metal shell 101. As described above, in this state, the component parts of the pressure sensor unit 1 do not exist in the region CS inside the inner peripheral surface 5b of the outer cylinder member 5 or the extended surface EP behind the reference section SS. Therefore, for example, a pencil-type ignition coil unit can be disposed in the plug hole PH in such a manner that the region (space) CS is fully utilized.
[0037]
In the pressure sensor unit 160 of FIGS. 8 and 9, both the rear end edge 6a of the inner cylinder member 6 and the rear end edge 5a of the outer cylinder member 5 are located in the reference section SS. In the direction of the axis O can also be configured to extend rearward beyond the reference section SS. The pressure sensor unit 210 of FIG. 10A is an example in which the inner cylinder member 6 is extended. As shown in FIG. 10B, the rear end 5a of the outer cylinder member 5 gives a reference position. The inner cylinder member 6 is integrated with an extended portion 6e whose diameter is expanded to a shape substantially coincident with the extension of the wall portion of the outer cylinder member 5 via a step portion 6j at the rear end of the main body portion 6m. The extension portion 6e also serves as a lead wire support portion, and supports the sensor output lead wire 9 on the outer peripheral surface thereof by a fixing portion 12 similar to that shown in FIG. And as shown in FIG.10 (c), this fixing | fixed part 12 is accommodated with the sensor output lead wire 9 in the groove part PG of plug tube PT.
[0038]
On the other hand, FIG. 11A shows an example in which the outer cylinder member 5 is extended. As shown in FIG. 11B, the rear end 6a of the inner cylinder member 6 gives a reference position. The outer cylinder member 5 has an extension part 5e formed by extending the main body part 5m with the same diameter as it is. An extraction hole 5k is formed to pull out the sensor output lead wire 9 to the outside. In the present embodiment, the lead wire extraction portion 5f is bulged and formed at a position corresponding to the extraction hole 5k. In this case, the extension 5e is also used as a lead wire support portion, and the sensor output lead wire 9 is supported by the fixing portion 12 on the outer peripheral surface thereof.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing a first embodiment of a pressure sensor unit according to the present invention in a state where a spark plug is attached, and a sectional view taken along line AA.
FIG. 2 is an enlarged cross-sectional view of a main part of FIG.
FIG. 3 is an exploded perspective view of a pressure sensor assembly.
FIG. 4 is an explanatory view showing an example of an assembly process of a unit main body.
FIG. 5 is a perspective view showing an example in which a cylindrical portion forming a lead wire support portion is formed separately from a unit main body portion.
FIG. 6 is a longitudinal sectional view showing a pressure sensor unit according to a second embodiment of the present invention with a spark plug attached.
FIG. 7 is a perspective view showing an example of a formation form of a fixing portion in a lead wire support portion.
FIG. 8 is a longitudinal sectional view showing a third embodiment of a pressure sensor unit according to the present invention in a state where a spark plug is attached and a sectional view taken along line AA.
9 is an enlarged cross-sectional view of a main part of FIG.
FIGS. 10A and 10B are an external perspective view, a main part longitudinal cross-sectional view, and an axial cross-sectional view showing an embodiment in which an extension is formed on an inner cylinder member.
FIGS. 11A and 11B are an external perspective view and a vertical cross-sectional view of an essential part showing an embodiment in which an extension is formed on an outer cylinder member.

Claims (5)

A ring-shaped pressure sensor element (3) is incorporated in a cylindrical unit body (2) having a spark plug insertion hole (4) formed on the bottom surface so as to surround the spark plug insertion hole (4). The side of the pressure sensor element (3) in the axis (O) direction is the front end side, and the unit body (2) is inserted into the plug hole (PH) from the front end side in the axis (O) direction. In this state, the spark plug (100) is inserted into the spark plug insertion hole (4) and attached to the attachment hole (PF) at the bottom of the plug hole (PH). The pressure sensor element (3) is held between the sensor support part (102) projecting like a bowl from the outer peripheral surface of the metal shell (101) and the opening peripheral part (GS) of the mounting hole (PF). To let In the pressure sensor unit (1,150,160,210,220),
The pressure sensor element (3) is formed in a gap (7) formed between the outer cylindrical member (5) forming the outer peripheral surface portion of the unit main body (2) and the inner cylindrical member (6) forming the inner peripheral surface portion. And the output from the pressure sensor element (3) is taken out by the sensor output lead wire (9) through the sensor output terminal (8) drawn into the gap (7), and ,
When the unit main body portion (2) attached to the plug hole (PH), the rear end in the axial (O) direction of the inner cylinder member (6) and / or the outer cylinder member (5) is, the plug It is located in the middle of the depth direction in the hole (PH), and is behind the rear end of the inner cylinder member (6) and / or the outer cylinder member (5) of the sensor output lead wire (9). Lead wire support portions (5e , 411, 6e) for supporting the portion extending to the side are located on the rear side of the unit main body portion (2) in the axis (O) direction and the unit main body portion (2). Provided integrally ,
A fixing portion (12) for fixing the sensor output lead wire (9) to the inner surface or the outer surface of the lead wire support portion (5e, 411, 6e) at a predetermined interval in the axis (O) direction. ) Is provided . (150 , 160, 210, 220) The pressure sensor unit (150 , 210) according to claim 1, wherein the lead wire support part includes a cylindrical part (5e , 6e) arranged on the rear side of the unit body part (2) in the axis (O) direction. 220).   The outer cylinder member (5) and the inner cylinder member (6) are made of metal, and the cylindrical portion that forms the lead wire support portion includes the outer cylinder member (5) and the inner cylinder member (6). 3. The pressure sensor unit (150, 210, 220) according to claim 2, wherein the pressure sensor unit is a metal cylindrical part (5 e, 6 e) formed so as to extend any one of the above to the rear side in the axis (O) direction. The pressure sensor unit (150, 210, 220) according to claim 3, wherein the fixing portion (12) is a cut-and-raised portion formed on an inner peripheral surface or an outer peripheral surface of the metal cylindrical portion (5e, 6e ) . The outer cylinder member (5) has an outer cylinder main body (5m) whose outer peripheral surface is cylindrical, and the sensor output lead wire (9) connected to the sensor output terminal (8) is connected to the pressure sensor. In the section from the rear end surface of the element (3) to the take-out position (AP) separated by a predetermined length in the rearward direction in the axis (O) direction, the inner peripheral surface of the outer cylinder main body (5m) and the inner cylinder member ( 6) while being passed between the outer peripheral surface of the outer cylinder main body (5m) and the outer peripheral surface (5c) of the outer cylinder main body (5m) in a section on the rear side of the extraction position (AP). And
The lead wire support portion (411) has a plate-like member disposed along the sensor output lead wire (9), and the fixing portion (12) is provided on an outer surface of the plate-like member. the pressure sensor unit 1 described (160).

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