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JP5639408B2 - Temperature sensor - Google Patents
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JP5639408B2 - Temperature sensor - Google Patents

Temperature sensor Download PDF

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JP5639408B2
JP5639408B2 JP2010177783A JP2010177783A JP5639408B2 JP 5639408 B2 JP5639408 B2 JP 5639408B2 JP 2010177783 A JP2010177783 A JP 2010177783A JP 2010177783 A JP2010177783 A JP 2010177783A JP 5639408 B2 JP5639408 B2 JP 5639408B2
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temperature sensor
temperature
connector housing
terminal
terminal accommodating
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JP2012037383A (en
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山中 一輝
一輝 山中
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Yazaki Corp
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Description

本発明は、温度センサに関する。   The present invention relates to a temperature sensor.

温度センサは、温度情報を得たい箇所(例えば、車両のトランスミッション内)に組み付けする必要があり、従来より種々のものが提案されている。以下、従来の温度センサを説明する。   The temperature sensor needs to be assembled at a location where temperature information is desired to be obtained (for example, in a vehicle transmission), and various types of temperature sensors have been proposed. Hereinafter, a conventional temperature sensor will be described.

第1従来例の温度センサ50は、図5に示すように、温度素子部であるサーミスタ51と、このサーミスタ51を収容するケース部60と、サーミスタ51の一対のリード線に各ジョイント部52を介してそれぞれ接続され、ケース部60の外部に導き出された2本の電線Wとから構成されている。温度センサ50は、図6に示すように、トランスミッション内のブラケット70に2本のインシュロック部材71を介して固定される。   As shown in FIG. 5, the temperature sensor 50 of the first conventional example includes a thermistor 51 that is a temperature element portion, a case portion 60 that accommodates the thermistor 51, and a pair of lead wires of the thermistor 51. And two electric wires W connected to each other and led to the outside of the case portion 60. As shown in FIG. 6, the temperature sensor 50 is fixed to a bracket 70 in the transmission via two insulation lock members 71.

また、第2従来例の温度センサとしては、図7に示すものがある(特許文献1参照)。図7において、温度センサ80は、コネクタハウジング90のセンサ収容室91に装着されている。つまり、温度センサ80は、センサ収容室91に収容できるよう構成されている。尚、コネクタハウジング90には、温度測定用窓部93が設けられている。   Moreover, as a temperature sensor of the second conventional example, there is one shown in FIG. 7 (see Patent Document 1). In FIG. 7, the temperature sensor 80 is mounted in the sensor housing chamber 91 of the connector housing 90. That is, the temperature sensor 80 is configured to be housed in the sensor housing chamber 91. The connector housing 90 is provided with a temperature measuring window 93.

特開2008−235195号公報JP 2008-235195 A

しかしながら、前記第1従来例では、温度センサ50をブラケット70にインシュロック部材71を用いて組み付けする必要があるため、組み付け性が悪い。又、ブラケット70とインシュロック部材71を用いるため、部品点数が多く、重量化、コストアップ等になるという問題がある。   However, in the first conventional example, since it is necessary to assemble the temperature sensor 50 to the bracket 70 using the insulation lock member 71, the assemblability is poor. Further, since the bracket 70 and the insulation lock member 71 are used, there are problems that the number of parts is large and the weight and the cost are increased.

また、前記第2従来例の温度センサ80では、コネクタハウジング90に装着すれば良いため、組み付け性が良い。しかし、端子収容室92とは別にセンサ収容室91を有する専用のコネクタハウジング90が必要であるため、コストアップ等になるという問題がある。   Further, the temperature sensor 80 of the second conventional example has only to be attached to the connector housing 90, so that it can be easily assembled. However, since a dedicated connector housing 90 having the sensor housing chamber 91 is required in addition to the terminal housing chamber 92, there is a problem that costs are increased.

そこで、本発明は、前記した課題を解決すべくなされたものであり、組み付け性が良く、しかも、部品点数の削減による軽量化、コストダウンが図れる温度センサを提供することを目的とする。   Therefore, the present invention has been made to solve the above-described problems, and an object of the present invention is to provide a temperature sensor that is easy to assemble and can be reduced in weight and cost by reducing the number of parts.

本発明は、温度を測定する温度素子部と、前記温度素子部を保持し、且つ、コネクタハウジングの端子収容室に装着できるケース部とを備えたことを特徴とする。   The present invention is characterized by comprising a temperature element portion for measuring temperature and a case portion that holds the temperature element portion and can be mounted in a terminal accommodating chamber of a connector housing.

前記ケース部は、前記端子収容室の端子係止部に係止する係止部を有することが好ましい。   It is preferable that the case part has an engaging part that engages with a terminal engaging part of the terminal accommodating chamber.

前記ケース部は、前記端子収容室の装着状態で、前記コネクタハウジングの外側に開口する温度測定用窓部を有することが好ましい。   It is preferable that the case portion has a temperature measurement window portion that opens to the outside of the connector housing when the terminal accommodating chamber is mounted.

本発明によれば、温度センサをコネクタハウジングの端子収容室に装着すれば、組み付けが完了する。また、温度センサを組み付けする箇所に設置する汎用のコネクタハウジングを利用できるため、専用の組み付け部品が必要ない。以上より、組み付け性が良く、しかも、部品点数の削減による軽量化、コストダウンが図れる。   According to the present invention, when the temperature sensor is mounted in the terminal housing chamber of the connector housing, the assembly is completed. In addition, since a general-purpose connector housing installed at a location where the temperature sensor is assembled can be used, a dedicated assembly component is not necessary. As described above, the assemblability is good, and the weight can be reduced and the cost can be reduced by reducing the number of parts.

本発明の第1実施形態を示し、温度センサの斜視図である。1 is a perspective view of a temperature sensor according to a first embodiment of the present invention. 本発明の第1実施形態を示し、(a)は温度センサの組み付け状態を示す斜視図、(b)は(a)のA−A線断面図である。BRIEF DESCRIPTION OF THE DRAWINGS 1st Embodiment of this invention is shown, (a) is a perspective view which shows the assembly | attachment state of a temperature sensor, (b) is the sectional view on the AA line of (a). 本発明の第2実施形態を示し、温度センサの斜視図である。It is a perspective view of a temperature sensor, showing a second embodiment of the present invention. 本発明の第2実施形態を示し、(a)は温度センサの組み付け状態を示す斜視図、(b)は(a)のB−B線断面図である。The 2nd Embodiment of this invention is shown, (a) is a perspective view which shows the assembly | attachment state of a temperature sensor, (b) is the BB sectional drawing of (a). 従来例を示し、温度センサの斜視図である。It is a perspective view of a temperature sensor which shows a conventional example. 従来例を示し、温度センサの組み付け状態を示す斜視図である。It is a perspective view which shows a prior art example and shows the assembled state of the temperature sensor. 他の従来例を示し、温度センサである。Another conventional example is shown as a temperature sensor.

以下、本発明の実施形態を図面に基づいて説明する。   Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(第1実施形態)
図1及び図2は本発明の第1実施形態を示す。図1に示すように、温度センサ1Aは、トランスミッション内に設置される。温度センサ1Aは、温度を測定する温度素子部であるサーミスタ2と、このサーミスタ2の外周にモールド樹脂成形されたケース部10と、サーミスタ2の一対のリード線に各ジョイント部3(図2(b)に示す)を介してそれぞれ接続され、ケース部10の外部に導き出された2本の電線Wとから構成されている。
(First embodiment)
1 and 2 show a first embodiment of the present invention. As shown in FIG. 1, the temperature sensor 1A is installed in the transmission. The temperature sensor 1A includes a thermistor 2 which is a temperature element portion for measuring temperature, a case portion 10 molded on the outer periphery of the thermistor 2, and a pair of lead wires of the thermistor 2, and each joint portion 3 (FIG. 2 ( b) and two electric wires W connected to each other through the case portion 10 and led to the outside.

サーミスタ2は、温度に応じて抵抗値が変化し、抵抗値の変化に基づく電気量を出力する。   The thermistor 2 changes its resistance value according to temperature and outputs an electric quantity based on the change of the resistance value.

ケース部10は、サーミスタ2を保持する素子保持部11と、コネクタハウジング20の端子収容室21に装着できるロッド状の挿入部12とを備えている。素子保持部11には、コネクタハウジング20の装着状態で、コネクタハウジング20の外側に開口する温度測定用窓部13(図2(b)に示す)が設けられている。サーミスタ2は、この温度測定用窓部13よりケース部10外に臨む。挿入部12の外面には、端子収容室21の端子係止部22に係止する係止部14が突設されている。   The case portion 10 includes an element holding portion 11 that holds the thermistor 2 and a rod-shaped insertion portion 12 that can be mounted in the terminal accommodating chamber 21 of the connector housing 20. The element holding portion 11 is provided with a temperature measurement window portion 13 (shown in FIG. 2B) that opens to the outside of the connector housing 20 when the connector housing 20 is mounted. The thermistor 2 faces outside the case portion 10 from the temperature measurement window portion 13. On the outer surface of the insertion portion 12, a locking portion 14 that protrudes from the terminal locking portion 22 of the terminal accommodating chamber 21 is projected.

図2(a)に示すように、コネクタハウジング20は、車両のトランスミッション内の電子機器とトランスミッション外部との中継用であり、トランスミッション内に設置されている。コネクタハウジング20は、複数の端子収容室21が2段に亘って整列配置された汎用のものである。各端子収容室21には、端子係止部22が突設されている。電線Wの端部に接続された端子23は、端子収容室21に挿入される。挿入された端子23は、脱落しないように端子係止部22に係止されている。   As shown in FIG. 2A, the connector housing 20 is for relaying between an electronic device in the transmission of the vehicle and the outside of the transmission, and is installed in the transmission. The connector housing 20 is a general-purpose one in which a plurality of terminal accommodating chambers 21 are arranged in two stages. Each terminal accommodating chamber 21 has a terminal locking portion 22 protruding therefrom. The terminal 23 connected to the end of the electric wire W is inserted into the terminal accommodating chamber 21. The inserted terminal 23 is locked to the terminal locking portion 22 so as not to drop off.

上記構成において、温度センサ1Aをトランスミッション内に組み付けするには、図2(a)、(b)に示すように、端子23をコネクタ装着するのと同様にして、温度センサ1Aの挿入部12をコネクタハウジング20の端子収容室21に挿入する。すると、挿入部12の係止部14が端子係止部22に係止される。これで、組み付けが完了する。   In the above configuration, in order to assemble the temperature sensor 1A into the transmission, as shown in FIGS. It is inserted into the terminal accommodating chamber 21 of the connector housing 20. Then, the locking portion 14 of the insertion portion 12 is locked to the terminal locking portion 22. This completes the assembly.

温度センサ1Aは、そのサーミスタ2が温度測定用窓部13よりトランスミッション内に臨む位置となり、油温に応じた電気量を出力する。   The temperature sensor 1 </ b> A is positioned such that the thermistor 2 faces the transmission from the temperature measurement window 13, and outputs an electric quantity corresponding to the oil temperature.

以上説明したように、温度センサ1Aは、サーミスタ2と、サーミスタ2を保持し、且つ、コネクタハウジング20の端子収容室21に装着できるケース部10とを備えている。従って、温度センサ1Aをコネクタハウジング20の端子収容室21に装着すれば、組み付けが完了する。また、温度センサ1Aを組み付けする箇所に設置する汎用のコネクタハウジング20を利用できるため、専用の組み付け部品が必要ない。以上より、組み付け性が良く、しかも、部品点数の削減による軽量化、コストダウンが図れる。又、温度センサ1Aは、コネクタハウジング20の端子収容室21に収容されるため、温度センサ1Aのレイアウトを考慮する必要がない。   As described above, the temperature sensor 1 </ b> A includes the thermistor 2 and the case portion 10 that holds the thermistor 2 and can be mounted in the terminal accommodating chamber 21 of the connector housing 20. Accordingly, when the temperature sensor 1A is mounted in the terminal accommodating chamber 21 of the connector housing 20, the assembly is completed. Moreover, since the general-purpose connector housing 20 installed in the location where the temperature sensor 1A is assembled can be used, a dedicated assembly component is not necessary. As described above, the assemblability is good, and the weight can be reduced and the cost can be reduced by reducing the number of parts. Further, since the temperature sensor 1A is accommodated in the terminal accommodating chamber 21 of the connector housing 20, it is not necessary to consider the layout of the temperature sensor 1A.

ケース部10は、端子収容室21の端子係止部22に係止する係止部14を有する。従って、温度センサ1Aを端子収容室21内に確実に装着できる。   The case portion 10 includes a locking portion 14 that is locked to the terminal locking portion 22 of the terminal accommodating chamber 21. Therefore, the temperature sensor 1 </ b> A can be reliably mounted in the terminal accommodating chamber 21.

ケース部10は、端子収容室21の装着状態で、コネクタハウジング20の外側に開口する温度測定用窓部13を有する。従って、サーミスタ2をトランスミッション内に臨む位置とするために、コネクタハウジング20側に第2従来例のように温度測定用窓部を設ける必要がない。   The case portion 10 has a temperature measurement window portion 13 that opens to the outside of the connector housing 20 in a state where the terminal accommodating chamber 21 is mounted. Therefore, in order to set the thermistor 2 so as to face the transmission, it is not necessary to provide a temperature measuring window on the connector housing 20 side as in the second conventional example.

ケース部10は、単一の端子収容室21に進入する単一の挿入部12を有する。従って、温度センサ1Aの組み付けには、コネクタハウジング20の端子収容室21を一つ確保すれば良い。   The case portion 10 has a single insertion portion 12 that enters a single terminal accommodating chamber 21. Therefore, it is only necessary to secure one terminal accommodating chamber 21 of the connector housing 20 for assembling the temperature sensor 1A.

温度センサ1Aの電気出力をコネクタハウジング20を介してトランスミッションの外部に導くようにすれば、配線の引き回しが簡単となる。   If the electrical output of the temperature sensor 1A is guided to the outside of the transmission via the connector housing 20, the wiring can be easily routed.

(第2実施形態)
図3及び図4は、本発明の第2実施形態を示す。図3に示すように、第2実施形態の温度センサ1Bは、前記第1実施形態と比較して、素子保持部11より間隔を置いて平行に突出する2つの挿入部12を有する。2つの挿入部12の間隔は、コネクタハウジング20の上下で隣り合う端子収容室21間の寸法に設定されている。
(Second Embodiment)
3 and 4 show a second embodiment of the present invention. As shown in FIG. 3, the temperature sensor 1 </ b> B according to the second embodiment has two insertion portions 12 that protrude in parallel with an interval from the element holding portion 11, as compared with the first embodiment. The interval between the two insertion portions 12 is set to the dimension between the terminal accommodating chambers 21 adjacent to each other at the top and bottom of the connector housing 20.

他の構成は、前記第1実施形態と同様であるため、重複説明を省略する。図面の同一箇所には同一符号を付して明確化を図る。   The other configuration is the same as that of the first embodiment, and a duplicate description is omitted. The same portions of the drawings are denoted by the same reference numerals for clarification.

上記構成において、温度センサ1Bをトランスミッション内に組み付けするには、図4(a)、(b)に示すように、温度センサ1Bの2つの挿入部12をコネクタハウジング20の上下2つの端子収容室21に同時に挿入する。すると、各挿入部12の係止部14が各端子係止部22に係止される。これで、組み付けが完了する。   In the above configuration, in order to assemble the temperature sensor 1B in the transmission, as shown in FIGS. 4A and 4B, the two insertion portions 12 of the temperature sensor 1B are connected to the two upper and lower terminal housing chambers of the connector housing 20. 21 is inserted at the same time. Then, the locking portion 14 of each insertion portion 12 is locked to each terminal locking portion 22. This completes the assembly.

この第2実施形態の温度センサ1Bにおいても、前記第1実施形態と同様に理由によって、組み付け性が良く、しかも、部品点数の削減による軽量化、コストダウンが図れる。又、温度センサ1Bのレイアウトを考慮する必要がない。   Also in the temperature sensor 1B of the second embodiment, as in the case of the first embodiment, the assemblability is good and the weight and the cost can be reduced by reducing the number of parts. Further, it is not necessary to consider the layout of the temperature sensor 1B.

ケース部10は、2つの端子収容室21にそれぞれ進入する2つの挿入部12を有する。従って、温度センサ1Bは、端子収容室21が小サイズのコネクタハウジング20に対して装着する場合に好適である。又、温度センサ1Bは、確実、且つ、安定にコネクタハウジング20に装着できるため、空きの端子収容室21が多い場合に適用するようにしても良い。尚、温度センサは、3つ以上の挿入部を有する構成としても良い。   The case part 10 has two insertion parts 12 that respectively enter the two terminal accommodating chambers 21. Therefore, the temperature sensor 1 </ b> B is suitable when the terminal housing chamber 21 is attached to the small-sized connector housing 20. Moreover, since the temperature sensor 1B can be reliably and stably attached to the connector housing 20, the temperature sensor 1B may be applied when there are a large number of empty terminal accommodating chambers 21. Note that the temperature sensor may have three or more insertion portions.

(変形例等)
前記各実施形態では、温度素子部は、サーミスタ2であるが、温度を電気信号に変換できるものであれば良い。
(Modifications, etc.)
In each said embodiment, although the temperature element part is the thermistor 2, what is necessary is just to be able to convert temperature into an electric signal.

前記各実施形態では、ケース部10は、モールド樹脂で形成したが、組み付けによってサーミスタ2を内部に保持する樹脂ケースであっても良い。   In each of the embodiments described above, the case portion 10 is formed of mold resin, but may be a resin case that holds the thermistor 2 inside by assembling.

前記各実施形態では、温度センサ1A,1Bを車両のトランスミッション内に配置するが、温度センサ1A,1Bの配置箇所はどこでも良い。   In each said embodiment, although temperature sensor 1A, 1B is arrange | positioned in the transmission of a vehicle, the arrangement | positioning location of temperature sensor 1A, 1B may be anywhere.

1A,1B 温度センサ
2 サーミスタ(温度素子部)
10 ケース部
12 挿入部
13 温度測定用窓部
14 係止部
20 コネクタハウジング
21 端子収容室
22 端子係止部
1A, 1B Temperature sensor 2 Thermistor (temperature element part)
DESCRIPTION OF SYMBOLS 10 Case part 12 Insertion part 13 Temperature measurement window part 14 Locking part 20 Connector housing 21 Terminal accommodating chamber 22 Terminal locking part

Claims (3)

温度を測定する温度素子部と、前記温度素子部を保持し、且つ、コネクタハウジングの端子収容室に装着できるケース部とを備えたことを特徴とする温度センサ。   A temperature sensor comprising: a temperature element portion for measuring temperature; and a case portion that holds the temperature element portion and can be mounted in a terminal housing chamber of a connector housing. 請求項1記載の温度センサであって、
前記ケース部は、前記端子収容室の端子係止部に係止する係止部を有することを特徴とする温度センサ。
The temperature sensor according to claim 1,
The temperature sensor according to claim 1, wherein the case portion includes a locking portion that is locked to a terminal locking portion of the terminal accommodating chamber.
請求項1又は請求項2記載の温度センサであって、
前記ケース部は、前記端子収容室の装着状態で、前記コネクタハウジングの外側に開口する温度測定用窓部を有することを特徴とする温度センサ。
The temperature sensor according to claim 1 or 2,
The temperature sensor according to claim 1, wherein the case portion includes a temperature measurement window portion that opens to the outside of the connector housing in a state where the terminal accommodating chamber is mounted.
JP2010177783A 2010-08-06 2010-08-06 Temperature sensor Expired - Fee Related JP5639408B2 (en)

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JPH08261847A (en) * 1995-03-27 1996-10-11 Aisin Aw Co Ltd Temperature sensor
JP3798606B2 (en) * 2000-07-27 2006-07-19 矢崎総業株式会社 Position detection device for parts housed in housing
JP2002164144A (en) * 2000-11-24 2002-06-07 Yazaki Corp Connector

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