JPH05188035A - Oxygen sensor - Google Patents

Abstract

PURPOSE:To provide an oxygen sensor with a heater firmly fixed thereto in addition to being prevented from the damage of an oxygen detecting element and easy in assembling work. CONSTITUTION:An inner electrode layer 2 and an outer electrode layer 3 are provided respectively on the inner and outer faces of a cylindrical oxygen detecting element 1 with one end thereof closed, and a bar-shape ceramic heater 6 for holding the oxygen detecting element at a specified temperature is disposed inside the oxygen detecting element 1. The inner electrode layer 2 and an output take, out lead wire 4 are electrically connected to each other by pressing the inner electrode layer 2 of the oxygen detecting element l radially from the inside, and also a metal terminal 15 for holding the heater 6 inside the oxygen detecting element 1 is provided.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a structure of an oxygen sensor having a heater for heating an oxygen detecting element.

[0002]

2. Description of the Related Art Conventionally, in an oxygen sensor for detecting the oxygen concentration in the exhaust gas of various combustion equipment including an internal combustion engine,
Those using an oxygen sensing element made of a solid electrolyte such as zirconia are widely used. Further, some oxygen detecting elements have a heater for heating inside the oxygen sensor since the oxygen detecting ability is improved by maintaining the oxygen detecting element at a predetermined temperature.

An oxygen sensor having such a heater is
An oxygen detection element made of zirconia or the like, which is closed at one end and formed in a tubular shape, and an internal electrode layer and an external electrode layer made of platinum or the like, which are formed on the inner and outer surfaces thereof, are electrically connected to the internal electrode layer. The internal electrode includes an output lead wire for taking out an output, a housing electrically connected to the external electrode layer for holding the oxygen detection element, and a heater for heating the oxygen detection element. Air layers,
The oxygen concentration in the exhaust gas is detected by bringing the external electrode layer into contact with the exhaust gas.

[0004]

By the way, since it is necessary to contact the internal electrode layer with the outside air and to connect it to the lead wire for output extraction, there are various ways to connect the internal electrode layer and the lead wire for output extraction. There was a drawback. Further, it is necessary to dispose the heater inside the oxygen detecting element, that is, inside the internal electrode layer. Especially, when a rod-shaped ceramic heater is used as the heater, there is a problem in the fixing method of the heater body. It was

For example, when connecting the internal electrode layer and the lead wire for output extraction, a female thread is engraved on the inner surface of the open end of the oxygen sensing element, and a tubular metal terminal is engraved with a male thread or a coil shape. The internal electrode layer and the output extracting lead wire are electrically connected to each other by screwing the terminal of (1) into the female screw portion and connecting the terminal to the output extracting lead wire. However, when using a tubular metal terminal engraved with a male screw part, a problem occurs that a large tightening stress is applied to the female screw part and the oxygen detection element is damaged, while when using a coiled terminal Since the oxygen detecting element is not damaged because the tightening stress is not applied, it is not easy to screw the coil-shaped terminal into the female screw portion, which causes a trouble.

Further, the heater is fixed by using an adhesive or the like to heat the oxygen detecting element. In this case, the heater is heated with vibration of the adhesive or the like and changes with time. However, there is a problem in that the internal electrode layers and the heater itself are damaged.

Therefore, according to the present invention, by using the metal terminal which has the elastic force to press the inner periphery of the internal electrode layer from the inner side in the radial direction and which can hold the heater,
An object of the present invention is to provide an oxygen sensor in which damage to the oxygen detecting element is prevented, the assembling work is facilitated, and the heater is firmly fixed.

[0008]

The structure of the present invention for attaining the above object is to provide a cylindrical oxygen sensing element having an electrode layer on its inner and outer surfaces with one end closed, and to keep the oxygen sensing element at a predetermined temperature. In the oxygen sensor, which is provided with a heater for, and which is provided with an output lead wire electrically connected to the internal electrode layer on the inner surface of the oxygen detection element, a connection portion between the output lead wire and the internal electrode layer is provided. In addition, the gist of the oxygen sensor is that the inner circumference of the electrode layer is pressed from the inside in the radial direction and a metal terminal that holds the heater is used.

[0009]

In the oxygen sensor of the present invention, the elastic member for pressing the inner circumference of the internal electrode layer from the inside in the radial direction is applied to the connecting portion between the internal electrode layer on the inner surface of the oxygen detection element and the output lead wire. A metal terminal that has a force and can hold a heater for heating the oxygen detection element is used. Therefore, since the internal electrode layer and the metal terminal are connected by the elastic force of the metal terminal, the internal electrode layer is firmly connected without the need to engrave a screw part on the internal electrode layer, and the output from the internal electrode layer is In addition to being able to reliably take out, the attachment work can be easily performed, and damage to the oxygen detection element due to tightening stress can be prevented. Further, since the heater is firmly gripped by the metal terminal, it is firmly fixed inside the oxygen detecting element through the metal terminal, and since it is not necessary to use an adhesive or the like, the heater or the heater is affected by heat or vibration. It is also possible to prevent the internal electrode layers from being damaged or damaged.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the accompanying drawings showing one embodiment. FIG. 1 is a partially cutaway front view (a) and left side view (b) of the oxygen sensor of this embodiment. 1 in the figure
Is an oxygen sensing element made of a solid electrolyte such as zirconia formed in a cylindrical shape with one end closed, and 2 is the oxygen sensing element 1.
Inner electrode layer of platinum deposited on the inner surface of the substrate by vapor deposition or the like, 3
Is a platinum outer electrode layer deposited on the outer surface of the oxygen sensing element 1 similarly to the inner electrode layer 2, 4 is electrically connected to the inner electrode layer 2, and the output extraction for extracting the output of the inner electrode layer 2 Lead wires 5 are electrically connected to the external electrode layer 3,
A cylindrical housing 6 for holding the oxygen sensing element 1, 6 is disposed inside the oxygen sensing element 1, that is, inside the internal electrode layer 2, and is a rod-shaped ceramic for heating the oxygen sensing element 1. It is a heater consisting of. Housing 5
A screw portion 5a for attaching to a combustion device is engraved on the outer periphery of the, and a gasket 7 is provided at a portion contacting the wall surface of the combustion device so that exhaust gas does not leak. Further, the housing 5 is formed with a caulking portion 5b, and by caulking the caulking portion 5b, the plate packing 8, the talc 9, the caulking ring 10 and the outer tubular collar provided on the inner circumference of the housing 5. The oxygen detecting element 1 is gripped by the housing 5 via the portion 16a. Reference numeral 11 is a protector for protecting the oxygen detection element 1 having a plurality of exhaust flow holes 11a formed therein so that the exhaust gas contacts the external electrode layer 3, and is attached to the combustion device side tip portion 5c of the housing 5. Has been.

Next, 12 and 13 are heater lead wires for supplying power to the heater 6, which are connected to the heater 6 via the heater terminal 14 and the other heater terminal (not shown). Reference numeral 15 is a metal terminal for connecting the internal electrode layer 2 of the oxygen detection element 1 and the output extracting lead wire 4 and for holding the heater 6, and the connecting portion 15a with the internal electrode layer 2 and the heater holding portion 15b are It is protected by the outer cylinder 16. The metal terminal 15 and the output take-out lead wire 4 are connected by crimping the core wire of the output take-out lead wire 4 and the metal terminal 15 which are not shown, and a spacer is provided so that water or oil does not penetrate into the inside of the sensor. Protective outer cylinder 19 provided via 17 and sealing material 18
Protected by.

Next, the connecting portion 15a of the metal terminal 15 and the heater gripping portion 15b, which are the main parts of the present invention, are shaped as shown in FIG. That is, as apparent from the development view (b) in FIG. 2, the center is the connecting portion 15a, and the notch 15c is made in the rectangular metal plate so that the periphery thereof becomes the heater gripping portion 15b, and the metal plate of the connecting portion 15a is removed. The metal plate of the heater gripping portion 15b is formed in a cylindrical shape so that the diameter is larger than the inner diameter of the internal electrode layer 2, and the inner diameter is smaller than the outer diameter of the heater 6. Then, the heater 6 is firmly gripped by the metal terminal 15 by being fitted into the heater gripping portion 15b, and is fixed inside the oxygen detecting element 1 by fitting the connecting portion 15a into the internal electrode layer 2. Further, since the connecting portion 15a has an elastic force that presses the inner circumference of the internal electrode layer 2 in the radial direction, the output of the internal electrode layer 2 can be reliably taken out without being affected by vibration or heat. As a result, it is possible to easily perform the assembling work without the need to engrave a screw part inside the oxygen detecting element 1.

In this embodiment, the connecting portion 15a of the metal plate 15 is formed by forming a rectangular metal plate into a cylindrical shape, but in addition to this, as shown in FIG. 3, for example.
The metal plate may be formed into a cylindrical shape by forming a rectangular cut, or the metal plate may be formed into a cylindrical shape by forming a wavy cut as shown in FIG. In this case, the metal terminal has a plurality of pressed portions of the internal electrode layer, and for example, a part of the metal terminal is deformed by a force from the outside.
Even if the pressing portion P1 shown in (1) loses its resilience, the metal terminals can be firmly fixed to the internal electrode layers by the resilience of the other pressing portions P2 to P4. The inner electrode layer can be fixed more firmly inside and the output from the inner electrode layer can be more reliably taken out.

[Brief description of drawings]

FIG. 1 is a view showing a partially cut front surface and a left side surface of an oxygen sensor according to an embodiment of the present invention.

FIG. 2 is a drawing showing a side surface and a developed state of a metal terminal 15 of the present embodiment.

FIG. 3 is a diagram showing a side view and a developed state of another example of the shape of the metal terminal.

FIG. 4 is a drawing showing a side view and a developed state of still another example of the shape of the metal terminal.

[Explanation of symbols]

1 ... Oxygen sensing element, 2 ... Internal electrode layer, 4 ...
Output lead wire, 6 ... Heater, 15 ...
Metal terminals,

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[Procedure amendment]

[Submission date] September 2, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

[Title of Invention] Oxygen sensor

[Claims]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a structure of an oxygen sensor having a heater for heating an oxygen detecting element.

[0002]

2. Description of the Related Art Conventionally, in an oxygen sensor for detecting the oxygen concentration in the exhaust gas of various combustion equipment including an internal combustion engine,
Those using an oxygen sensing element made of a solid electrolyte such as zirconia are widely used. Further, some oxygen detecting elements have a heater for heating inside the oxygen sensor since the oxygen detecting ability is improved by maintaining the oxygen detecting element at a predetermined temperature.

An oxygen sensor having such a heater is
An oxygen detection element made of zirconia or the like, which is closed at one end and formed in a tubular shape, and an internal electrode layer and an external electrode layer made of platinum or the like, which are formed on the inner and outer surfaces thereof, are electrically connected to the internal electrode layer. The internal electrode includes an output lead wire for taking out an output, a housing electrically connected to the external electrode layer for holding the oxygen detection element, and a heater for heating the oxygen detection element. Air layers,
The oxygen concentration in the exhaust gas is detected by bringing the external electrode layer into contact with the exhaust gas.

[0004]

By the way, since it is necessary to contact the internal electrode layer with the outside air and to connect it to the lead wire for output extraction, there are various ways to connect the internal electrode layer and the lead wire for output extraction. There was a drawback. Further, it is necessary to dispose the heater inside the oxygen detecting element, that is, inside the internal electrode layer. Especially, when a rod-shaped ceramic heater is used as the heater, there is a problem in the fixing method of the heater body. It was

For example, when connecting the internal electrode layer and the lead wire for output extraction, a female thread is engraved on the inner surface of the open end of the oxygen sensing element, and a tubular metal terminal is engraved with a male thread or a coil shape. The internal electrode layer and the output extracting lead wire are electrically connected to each other by screwing the terminal of (1) into the female screw portion and connecting the terminal to the output extracting lead wire. However, when using a tubular metal terminal engraved with a male screw part, a problem occurs that a large tightening stress is applied to the female screw part and the oxygen detection element is damaged, while when using a coiled terminal Since the oxygen detecting element is not damaged because the tightening stress is not applied, it is not easy to screw the coil-shaped terminal into the female screw portion, which causes a trouble.

Further, the heater is fixed by using an adhesive or the like to heat the oxygen detecting element. In this case, the heater is heated with vibration of the adhesive or the like and changes with time. In particular, there is a problem that the ceramic heater cannot be firmly fixed, and the oxygen detection element, especially its internal electrode layer and the heater itself are damaged.

Therefore, the present invention provides an internal electrode layer or oxygen sensor.
By using a metal terminal that has an elastic force that presses the inner circumference of the intelligent element from the inside to the outside in the radial direction and that can hold the heater, the oxygen detection element is prevented from being damaged and the assembling work is facilitated. , Moreover heaters especially ceramic heaters
The purpose of the present invention is to provide an oxygen sensor that is firmly fixed without damaging the battery .

[0008]

Means for Solving the Problems] for such an object is reached the oxygen sensor according to claim 1, wherein the arrangement includes a cylindrical oxygen sensing element having one end closed with an electrode layer on the inner and outer surfaces, said cylindrical
A heater for being inserted into Jo to heat the oxygen sensing element, and electrically connected to the lead wire for the output take-out and the internal electrode layer of the oxygen sensing element inner surface, the oxygen sensor wherein the output Lead wire for extraction and the internal electrode layer
The metal terminal for electrically connecting the
In the tubular shape of the oxygen sensing element,
Due to the elastic force of the metal plate, the oxygen detection element is radially outside.
Connection part that presses the internal electrode layer toward the side to settle
And a grip portion for gripping the heater.
To collect.

Further , the structure of the oxygen sensor according to claim 2
Is a cylindrical oxygen sensing element with one end blocked, and the inside of the cylindrical
Which is inserted into the ceramics for heating the oxygen sensing element.
In an oxygen sensor including a quartet, the ceramic
For fixing the heater to the oxygen detection element
Metal fittings are made by bending a metal plate into a tubular shape to detect the oxygen
Inside the tubular shape of the element, the elastic force of the metal plate
The inner peripheral surface of the oxygen sensing element is pressed radially outward to secure it
A fixed part, a gripping part for gripping the ceramic heater,
It is characterized by having.

[0010]

[Operation and effect of the invention] The oxygen sensor according to claim 1
Then, the metal terminal used for electrical connection between the internal electrode layer on the inner surface of the oxygen detection element and the lead wire for output extraction ,
It is made by bending a metal plate into a cylinder, and
The elastic force of the metal plate directs the oxygen sensor outward in the radial direction.
Oxygen detection and the connection part that presses the inner electrode layer to set it.
It has a grip part for gripping the heater for heating the intelligent element.
It

Therefore, the internal electrode layer and the metal terminal are connected to each other.
Since it is electrically connected by the elastic force of, it is firmly connected without the need to engrave a screw part on the internal electrode layer,
The output from the internal electrode layer can be reliably taken out, the mounting work can be easily performed, and the oxygen detection element can be prevented from being damaged by the tightening stress.
In addition, the heater is connected to the oxygen detection element through the grip.
Since it is firmly fixed in the cylindrical shape and it is not necessary to use an adhesive or the like, it is possible to prevent the heater and the internal electrode layers from being damaged or damaged by the influence of heat and vibration.

Further, in the oxygen sensor according to claim 2,
The metal fixture for holding the ceramic heater in the holding part
Oxygen is generated by the elastic force of the fixing part that is formed by bending the metal plate into a tubular shape.
It can be settled firmly inside the tube of the sensing element in a stable state
It Therefore, place the ceramic heater inside the cylinder of the oxygen sensing element.
Easy to assemble the oxygen sensor
be able to.

Moreover, the fixing portion is formed by bending the metal plate into a tubular shape.
The elastic force causes the inner peripheral surface of the oxygen sensing element to
Pressed to the outside and settled. So even if the oxygen sensor
If vibration or shock is applied to the oxygen sensor from outside the
Also, the fixed part plays a cushioning function and is transmitted to the ceramic heater.
Vibrations and shocks that are generated by the oxygen sensor
Prevents damage to the ceramic heater due to movement or shock.
You can

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT An embodiment of the present invention will be described below with reference to the drawings.
explain. However, the present invention is limited to the examples detailed below.
Without departing from the scope of the present invention.
It includes all examples that can occur to those skilled in the art.

FIG. 1 is a partially cutaway front view (a) and left side view (b) of the oxygen sensor of this embodiment. In the figure, 1 is an oxygen sensing element made of a solid electrolyte such as zirconia formed in a cylindrical shape with one end closed, 2 is a platinum internal electrode layer deposited on the inner surface of the oxygen sensing element 1 by vapor deposition, and the like. Is a platinum outer electrode layer deposited on the outer surface of the oxygen sensing element 1 similarly to the inner electrode layer 2, 4 is electrically connected to the inner electrode layer 2, and the output extraction for extracting the output of the inner electrode layer 2 Lead wire 5 is electrically connected to the external electrode layer 3 and has a cylindrical housing for holding the oxygen detection element 1, and 6 is the inside of the oxygen detection element 1, that is, the internal electrode layer 2
Is a heater made of a rod-shaped ceramic for heating the oxygen detection element 1 disposed in the inner hole of the. Used here
The ceramic heater 6 is a raw wire formed in the shape of an elongated tube.
Around the luminal core, a predetermined shape of tungsten
Alumina raw sheet with a printed pattern on one side
Wrap it around and stick it tightly, and on the opposite surface,
Guide to both ends of the buried pattern via
Form the printed surface of tungsten that will be the terminal surface for connecting through
After that, it is fired and then the exposed surface of the tungsten
The outer diameter is nickel plated
It has a tube shape of about 2.5 mm and a total length of about 60 mm.
It was A screw portion 5a for attaching to a combustion device is engraved on the outer periphery of the housing 5, and a gasket 7 is provided at a portion in contact with the wall surface of the combustion device so that exhaust gas does not leak. Further, the housing 5 is formed with a caulking portion 5b, and by caulking the caulking portion 5b, the plate packing 8, the talc 9, the caulking ring 10 and the outer tubular collar provided on the inner circumference of the housing 5. Oxygen sensing element 1 via the portion 16a
Will be gripped by the housing 5. Reference numeral 11 is a protector for protecting the oxygen detection element 1 having a plurality of exhaust flow holes 11a formed therein so that the exhaust gas contacts the external electrode layer 3, and is attached to the combustion device side tip portion 5c of the housing 5. Has been.

Next, 12 and 13 are heater lead wires for supplying power to the heater 6, which are heater terminals 14,
Connected to the terminal surface of the heater 6 via 14 '
There is. That is, one end of the heater terminals 14, 14 'is
Known for electrically connecting terminals and lead wires, respectively
Of the heater lead wires 12, 13 by crimping, which is the method of
The other ends of the heater terminals 14 and 14 'are connected to each other.
Each terminal is joined to the heater 6 by brazing
Has been done. Reference numeral 15 is a metal terminal for connecting the internal electrode layer 2 of the oxygen detection element 1 and the output extraction lead wire 4 and for holding the heater 6, and is a spring steel plate, here a deposit.
Hardened stainless steel strip for spring SUS6
31-CSP (JIS G4313) will be described later.
Round it so that it exhibits a radial resilience, like
The connecting portion 15a made and the same as the above-mentioned ceramic
Insert the kueater and grasp it elastically.
Of the heater grip 15b to be held and the output lead wire 4
It is connected to the core wire by crimping, which is a well-known joining technique.
Known crimping terminal part that can be continued (Fig.
(Not shown), and the connecting portion 15a holds the heater.
The inner diameter of the oxygen sensing element was slightly enlarged when held.
Insert it by applying compressive force into the opening inlet and then open it.
The internal electrode layer 2 deposited on the inner surface of the opening by
The ceramic heater 6 is fixed in a pressed state,
It is held in place and electrically connected to the internal electrode layer 2.
Connected to each other. The connecting portion 15a of the metal terminal 15 is
It also has a function as a fixing part in the invention according to claim 2.
ing. Although not shown, the output lead wire 4
The core wire includes a crimping terminal portion of the metal terminal 15 and an ordinary lead.
Pressure is a well-known technique for connecting wires to metal terminals.
Connected by wear. 16 is a caulking portion of the housing
An external cylinder that extends from and protects the ceramic heater and metal terminals
And 17 is a protection that is fixed by covering it with the outer cylinder 16.
It is an outer cylinder. By the protective outer cylinder 17, the protective outer cylinder
Inwardly bent edge of 17 and inward of outer tube 16 as well
Route the lead wires 12, 13, and 4 to and from the bent edge.
The sealing material 18 and the spacer 17 that are respectively inserted are retained.
And the connection between the heater 6 and the lead wire and
The connection between the metal terminal and the lead wire is protected.

Further , a metal which is a main part according to the present invention
The shape of the terminal 15 will be described with reference to FIG. Metal terminal 15
As is clear from the development view (b) in FIG. 2, the center is the connecting portion 15a, and the notches 15c are formed on both sides thereof.
Two grips 15b are formed, and further one grip 1
A known crimping terminal portion (shown in the figure) is provided at an end portion elongated from 5b.
Punched out the metal plate so that
After that, connect the connecting portion 15a to the inside of the opening 1a of the oxygen detecting element.
While rounding into a cylindrical shape with an inner diameter larger than the diameter,
A circle having an inside diameter smaller than the outside diameter of the heater
Rolled into a tubular shape, with the rolled connection 15a and gripping
Form the bent portion 15e so that the bent portion 15b and the portion 15b are on the same axis.
Consists of The heater 6 is firmly gripped by the metal terminal 15 by being fitted into the heater grip 15b,
Further , by inserting the connecting portion 15a into the oxygen detecting element,
It is fixed to the inside of the oxygen sensing element 1 I. Connection part 15a
Is the elastic force that presses the internal electrode layer 2 in the opening 1a in the radial direction.
By exerting a force to settle in the opening 1a, the output of the internal electrode layer 2 can be reliably taken out without being affected by vibration or heat , and the heater can be fixed. It is not necessary to engrave a screw part on the and the assembling work can be easily performed.

In addition, the connecting portion 15a as a fixed portion
And the grip portion 15b are formed by rolling a metal plate into a cylindrical shape.
The oxygen sensor is exposed to external vibrations and shocks.
Even if it crosses, the connecting portion 15a and the grip portion 15b
Vibration and shock are alleviated by elastic deformation of
Damages the internal electrode layer 2 and the ceramic heater 6.
Without detecting the heater 6 held by the metal terminal 15
The state of being fixed in the element 1 can be maintained. Obey
The oxygen sensor of the present embodiment is a vehicle that is susceptible to vibrations and shocks.
It is suitable as an on-board oxygen sensor.

The oxygen sensor according to this embodiment is actually
Is the drop of about 1m required by ordinary engine makers?
After performing a drop impact test,
Also, a rod-shaped ceramic heater with an outer diameter of about 2.5 mm and a length of about 60 mm
The data 6 and the internal electrode layer 2 are not damaged at all,
The heater 6 held by the metal terminal 15 is installed in the oxygen detection element 1.
It was fixed and kept in the same condition as before the test.

In this embodiment, the connecting portion 15a of the metal plate 15 is formed by forming a rectangular metal plate into a cylindrical shape, but in addition to this, as shown in FIG. 3, for example.
The metal plate may be formed into a cylindrical shape by forming a rectangular cut, or the metal plate may be formed into a cylindrical shape by forming a wavy cut as shown in FIG. In this case, the metal terminal has a plurality of pressed portions of the internal electrode layer, and for example, a part of the metal terminal is deformed by a force from the outside.
Even if the pressing portion P1 shown in (1) loses its resilience, the metal terminals can be firmly fixed to the internal electrode layers by the resilience of the other pressing portions P2 to P4. The oxygen detection element can be more firmly fixed in the tubular shape, and the output from the internal electrode layer can be more reliably taken out.

[Brief description of drawings]

FIG. 1 is a drawing showing a partially broken front surface and a left side surface of an oxygen sensor of this embodiment.

FIG. 2 is a side view of a metal terminal 15 of the present embodiment and a drawing showing a developed state.

FIG. 3 is a diagram showing a side view and a developed state of another example of the shape of the metal terminal.

FIG. 4 is a drawing showing a side view and a developed state of still another example of the shape of the metal terminal.

[Explanation of Codes] 1 ... Oxygen sensing element, 2 ... Internal electrode layer, 4 ... Output lead wire, 6 ... Heater, 15 ... Metal terminal,

[Procedure Amendment 2]

[Document name to be corrected] Drawing

[Correction target item name] All drawings

[Correction method] Change

[Correction content]

[Figure 1]

[Fig. 2]

[Figure 3]

[Figure 4]

Claims (1)

[Claims] 1. An inner electrode layer on the inner surface of the oxygen detection element, which comprises a tubular oxygen detection element having an electrode layer on the inner and outer surfaces and one end of which is closed, and a heater for keeping the oxygen detection element at a predetermined temperature. In an oxygen sensor provided with an output extraction lead wire electrically connected with, in the connection portion between the output extraction lead wire and the internal electrode layer, the inner periphery of the electrode layer is pressed from the inside in the radial direction, Moreover, the oxygen sensor is characterized by using a metal terminal for holding the heater.