JP5825211B2 - Liquid temperature detector - Google Patents

Description

  The present invention relates to a liquid temperature detection device mounted on a vehicle such as an automobile, and more particularly to a liquid temperature detection device that detects the temperature of hydraulic oil in an automatic transmission.

[Conventional technology]
Conventionally, this type of liquid temperature detector is seismic resistant so that the temperature detection element and wire harness will not come off due to vibrations, etc. that occur during travel, or contact abnormalities and short circuit accidents will not occur due to the fact that they are mounted on vehicles. For example, those described in Patent Document 1 and Patent Document 2 are known.

  In the liquid temperature detection device described in Patent Document 1, a temperature detection element (thermistor) and a terminal for external connection thereof are integrated into a device main body by a resin mold, and a wire harness is connected to a terminal exposed from the device main body. Protect the connection part by covering this connection part with a special cover

  In addition, the liquid temperature detection device described in Patent Document 2 incorporates a temperature detection element (thermistor) in an inhibitor switch for detecting a shift position. Specifically, a thermistor is disposed on the side surface of a terminal block, The periphery is surrounded by a protective wall, and the wiring to the lead portion of the thermistor is integrated with the terminal block by resin molding.

[Problems of the prior art]
However, each of the liquid temperature detection devices described above has the following problems.
(1) In the liquid temperature detection device described in Patent Document 1, since the thermistor is molded with resin, a loss occurs in temperature transmission from the resin mold part to the thermistor, and the temperature detection accuracy may be deteriorated. Also, the manufacturing cost is inevitably increased by molding the thermistor and requiring a special cover in consideration of detachment of the wire harness.
In addition, since the cover is fitted into the apparatus main body while pulling the wire harness, stress stress is applied to the connection portion between the terminal and the wire harness, and the reliability of the connection portion may be impaired.

(2) Since the thermistor is in direct contact with the hydraulic fluid to be temperature-measured in the liquid temperature detection device described in Patent Document 2, it is avoided that the temperature detection accuracy is sacrificed, but the thermistor is disposed in the inhibitor switch. In relation, the temperature detection position is uniquely determined by the mounting position of the inhibitor switch, and the degree of freedom of the temperature detection position is limited. For example, when the mounting position of the inhibitor switch is a position where the hydraulic oil stays, the temperature detection accuracy of the thermistor arranged in the inhibitor switch may inevitably deteriorate.
Moreover, even though the thermistor is surrounded by a protective wall, the connection part between the thermistor lead part and the wiring is exposed, so the connection part is damaged due to a contact accident during transportation or assembly. There is a risk of disconnection and poor conduction.

  On the other hand, in recent years, more and more high performance, cost reduction, and safety have been pursued for vehicles. As a result, various parts and devices mounted on vehicles can be mounted with a high degree of freedom, small size, high performance, In the current situation where various demands such as cost reduction and high quality are becoming more severe, the above-mentioned problems in this seed liquid temperature detection device are fatal.

  The present inventor has devised a structure of a terminal used for electrical connection (connection) between the temperature detection element and the wire harness as a result of various experiments and researches in order to investigate such a problem. The present invention has found an effective liquid temperature detecting means that can always realize optimal liquid temperature detection with a simple and inexpensive configuration.

Japanese Patent Laid-Open No. 11-23379 JP 2007-285486 A

  The present invention has been made in view of the above circumstances, and its object is to achieve high quality and mounting flexibility while achieving an optimum liquid temperature detection while having a simple and inexpensive configuration. It is in providing the liquid temperature detection apparatus which can be performed.

[Means of Claim 1]
The invention according to claim 1 (liquid temperature detection device) is produced by bending a terminal from a single conductive metal plate, and the terminals on the positive electrode side and the negative electrode side of the wire harness ( A first bent portion for crimping and gripping both the terminal core wire) and the lead portion of the temperature detecting element, a second bent portion for crimping and gripping the wire harness at the covering, and a third for fixing the mounting. It has three bent parts with the bent part. On the other hand, the case attached to the liquid temperature detection location is made of an insulating material and is formed so as to be able to accommodate the wire harness, the temperature detection element, and the terminal, and guides the liquid (hydraulic oil) around the temperature detection element. It has a flow path and a slit that can be inserted through the third bent portion of the terminal. And after inserting the 3rd bending part of a terminal into this slit, the terminal is attached and fixed to a case by bending the front-end | tip.

  According to the invention of claim 1 having the above configuration, (1) since the temperature detection element directly detects the temperature of the liquid to be measured (hydraulic oil) and detects the temperature, the temperature detection accuracy is not sacrificed at all. In addition, (2) since the case is appropriately attached to a desired liquid temperature detection location, the temperature detection position can be freely selected, and the degree of freedom for mounting the liquid temperature detection device can be ensured. (3) Since the terminal has a second bent portion for crimping and gripping the wire harness at the covering, both the terminal (terminal core wire) of the wire harness and the lead portion of the temperature detection element are connected. It is possible to prevent the external force from being directly applied to the first bent portion to be crimped, that is, the connection portion between the terminal of the wire harness and the lead portion of the temperature detection element, and the wire harness and the temperature detection element can be reliably connected. Can be ensured.

In addition, the terminal has a third bent portion for mounting and fixing. After inserting the third bent portion into the slit of the case, the terminal is bent and fixed to the case. Therefore, it is easy to assemble, and the connection portion between the terminal of the wire harness and the lead portion of the temperature detection element can be firmly attached and fixed to the case.
Therefore, in combination with housing the connection part of the wire harness and the temperature detection element in the case and exhibiting the connection part protection effect as in (3) above, it is difficult to cause disconnection / short circuit accidents, A high-quality liquid temperature detection device with high safety can be obtained.

  Furthermore, since the terminal is formed by bending a single conductive metal plate, the manufacturing cost is low, and the wire harness and the temperature detection element can be assembled to the case. Can be easily performed using a simple tool, and a liquid temperature detecting device can be provided at low cost.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic perspective view showing an entire structure of a liquid temperature detection device as an assembly reference diagram (Example 1). (Example 1) which is a typical enlarged view of the assembly which shows the connection state of a temperature detection element and a wire harness. The form of the single-piece | unit before the assembly | attachment of a terminal is shown, (a) is a front view, (b) is a perspective view (Example 1). (A), (b), (c) shows the assembly | attachment state in each bending part of a terminal, and is sectional drawing which follows the AA, BB, CC line in FIG. Example 1). It is a typical perspective view which shows the whole structure as other embodiment of a liquid temperature detection apparatus (Example 2). (A), (b) is a front view which shows the modification of a terminal.

BEST MODE FOR CARRYING OUT THE INVENTION The best mode for carrying out the present invention will be described based on examples shown in the drawings.
The liquid temperature detection device according to the present embodiment is incorporated in an automatic transmission of an automobile and is used for detecting the temperature of hydraulic oil (oil) as part of optimal control of the automatic transmission.
As a typical example of the installation, a hydraulic control circuit is configured in the oil pan when the liquid temperature detecting device is disposed so as to be immersed in the circulating hydraulic oil in the oil pan below the automatic transmission. Since the control valve unit is housed, the liquid temperature detecting device is arranged so as to be carried on the device mounting plate of the control valve unit. In the case of such an assembly example, the device mounting plate corresponds to a “liquid temperature detection location” described in the claims.

[Configuration of Example 1]
As shown in FIG. 1, the liquid temperature detection device 1 is assembled from the left to the right as shown by the arrows, and then attached to the above-described liquid temperature detection location as appropriate. The apparatus body 11 includes a main body 11 and a cover 12 that covers the upper opening.

The apparatus main body 11 includes components of a case 2, a pair of wire harnesses 3, a temperature detection element 4, and a pair of terminals 5. The case 2 is made of an insulating material and has a saddle shape having a concave cross section as a shape that can accommodate the components of the wire harness 3, the temperature detection element 4, and the terminal 5. The terminal 5 is a central part in the present invention, and has a function of electrically connecting (connecting) the wire harness 3 and the temperature detecting element 4 and mounting and fixing the entire terminal 5 including the connecting portion to the case 2. It bears multiple functions such as functions, and the details will be described later.
The cover 12 is simply a cover that simply covers the upper opening of the case 2 and is composed of a single plate made of an insulating material.

  The bowl-shaped case 2 is a molded product made of an insulating material such as PPS (polyphenylene sulfide), POM (polyacetal), PBT (polybutylene terephthalate), etc., and one end side (right end side in the drawing) is partially The other end side (the left end side in the figure) is entirely open, and there is a longitudinal space from the partial opening 2a on one end side to the full opening 2b on the other end side. A liquid flow passage 2c through which hydraulic oil flows (circulates) is formed.

Various guides 21 to 25 are erected on the bottom of the case 2. Each of these guides 21 to 25 has the following functions.
First, two types of guides 21 and 22 located from the vicinity of the central portion in the longitudinal direction to the other end side (left end side) are provided in pairs corresponding to the pair of wire harnesses 3. 3 is guided along the longitudinal direction. One guide 21 is a mere protruding rib that only allows the wire harness 3 to run along its longitudinal direction, whereas the other guide 22 has a retaining claw 22a at the tip, I have it.
Next, the streak-shaped guide 23 extending in the longitudinal direction divides the liquid flow passage 2c into two in the longitudinal direction, ensures a smooth flow of the hydraulic oil, and partitions the housing space for the pair of wire harnesses 3 I am doing. Further, the screen-shaped guide 24 provided on one end side (the right end side in the drawing) is for guiding a lead portion of the temperature detection element 4 (a bent portion of a lead portion 4a described later). A liquid communication path 2d is formed between the guides 23 and 24, and the guides 23 and 24 do not hinder the flow of hydraulic oil.
The last guide 25 is a columnar projection that guides the assembly of the cover 12 to the case 2.
Note that, as will be described later, terminal mounting and fixing slits 29 are provided at the bottom of the case 2 so as to correspond to the respective terminals 5.

  On the side wall of the case 2, there are first claw protrusions (lock arms) 26 that protrude long upwards at both ends in the longitudinal direction, and second claw protrusions (lock locks) that are located inside and protrude short upwards. Two pairs of arms 27 are provided, and a pair of guide grooves 28 are formed in the vicinity of the center of the upper end. The first claw protrusion 26 serves to attach and fix the entire liquid temperature detecting device 1 to the liquid temperature detecting portion by a snap fit method, and is fitted to an engagement hole of a liquid temperature detecting portion (not shown) at the tip. The engaging claw 26a is provided, and the second claw protrusion 27 is provided for attaching and holding the cover 12 by a snap fit method, and an engaging claw 27a that engages the cover 12 is provided at the tip. Have.

The cover 12 that covers the upper opening of the case 2 interferes with the two guide holes 12 a fitted into the columnar guide 25, the pair of projecting pieces 12 b fitted into the guide groove 28, and the first claw projection 26. Have two pairs of relief grooves 12c.
When covering (assembling) the cover 12 on the case 2, the cover 12 is positioned by fitting the guide hole 12 a and the guide 25 and fitting the projecting piece 12 b and the guide groove 28. It is retained and held by the claw 27a.

  As shown in FIG. 2, each pair of wire harnesses 3 is a general covered electric wire including a core wire 3a and a covering body 3b that insulates the core wire 3a, and the tip (terminal) of the core wire 3a is a covering body. It is exposed from 3b. The pair of wire harnesses 3 are connected to a positive electrode and a negative electrode (not shown). For example, one wire harness 3 is on the positive electrode side, the exposed core wire 3a of the terminal is the positive electrode terminal 31, and The other wire harness 3 is on the negative electrode side, and the exposed core wire 3a of the terminal forms the negative electrode terminal 32.

  The temperature detection element 4 is composed of, for example, a thermistor having an electric characteristic whose electric resistance changes with respect to a temperature change, and as shown in FIG. 2, a pair of lead portions 4a and 4b that can be electrically connected to the wire harness 3. have. One long lead portion 4a is bent into a U-shape, and the other short lead portion 4b is connected to the negative electrode terminal 32 of the wire harness 3 via each terminal 5, respectively. Connected.

As shown in FIG. 3, each pair of terminals 5 is produced by punching from a single conductive metal plate such as copper, copper alloy, or aluminum alloy, and bending it by cutting or the like. , First, second, and third bent portions 51, 52, and 53, a flat plate-like connecting portion 54 that separates the first and second bent portions 51 and 52, and second and second And the neck portion 55 connecting the three bent portions 52 and 53.
Each of the bent portions 51, 52, 53 has a pair of bent pieces 51a, 51b, 52a, 52b, 53a, 53b which are bent so as to face each other.
The distance between the pair of bent pieces 51 a and 51 b constituting the first bent part 51 is narrower than the distance between the pair of bent pieces 52 a and 52 b constituting the second bent part 52. However, the bent pieces 51a, 51b, 52a, and 52b are both bent in the same direction.
On the other hand, the pair of bent pieces 53a and 53b constituting the third bent portion 53 are bent in the opposite direction to the first and second bent portions 51 and 52, and the distance therebetween. Also, the distance between the pair of bent pieces 52a and 52b constituting the adjacent second bent portion 52 is wider.
The connecting portion 54 is for defining a predetermined distance between the first and second bent portions 51 and 52, and the neck portion 55 is a pair of the second and third bent portions 52 and 53. It is a recessed part (escape part) for making it easy to bend and form the bending pieces 52a, 52b, 53a, 53b in the opposite direction.

As shown in FIG. 2, each terminal 5 has three bent portions, a first bent portion 51, a second bent portion 52, The three bent portions 53 are arranged in this order.
These three bent parts 51, 52, 53 connect the wire harness 3 and the temperature detecting element 4, the function of protecting the connected part, and the terminal 5 as a whole including the connected part attached and fixed to the case. It manages the three functions of the function to perform.

The functions of the three bent portions 51, 52, 53 in each terminal 5 will be described with reference to FIG.
As shown in FIG. 4A, the first bent portion 51 is bent ("clamped") so that the pair of bent pieces 51a and 51b are closed to each other, so Both the electrode terminal 31 (or the negative electrode terminal 32) and the lead part 4a (or the lead part 4b) of the temperature detecting element 4 are crimped and held. Thereby, each terminal 31, 32 and each lead part 4a, 4b are reliably electrically connected (connected). In addition, this connection part is soldered as needed.
As shown in FIG. 4 (b), the second bent portion 52 has the pair of bent pieces 52a and 52b bent ("clamped") so that the wire harness 3 is placed at the covering 3b. Hold by crimping. The second bent portion 52 is separated from the first bent portion 51 described above, and is a connection portion between the terminals 31 and 32 of the wire harness 3 and the lead portions 4a and 4b of the temperature detecting element 4. Is firmly gripped from above the insulator 3b (on the opposite side of the temperature detecting element 4).
As shown in FIG. 4 (c), the third bent portion 53 has its pair of bent pieces 53 a and 53 b inserted into a pair of slits 29 provided at the bottom of the case 2, and then its tip is bent. Then, the terminal 5 is attached and fixed to the case 2. As a result, the terminal 5 is firmly attached and fixed to the case 2 together with the connection portions by the first and second bent portions 51 and 52 described above.

[Effect of Example 1]
Next, the effect of the liquid temperature detection device 1 according to the present embodiment will be described mainly through the assembly process of the pair of terminals 5.
The pair of wire harnesses 3 and the temperature detection element 4 are connected in advance by a terminal 5, and as shown in FIG. 2, an assembly structure (assembly) W of the wire harness 3 and the temperature detection element 4 is provided.
In this assembly operation, as a first step, the positive electrode terminal 31 of one (positive electrode side) of the wire harness 3 and one lead portion 4a of the temperature detecting element 4 are overlapped, and this overlapped portion is Caulking at the first bent portion 51 of the terminal 5, and similarly, the negative electrode terminal 32 of the other (negative electrode side) wire harness 3 and the other lead portion 4b of the temperature detecting element 4 are overlapped, This overlapped portion is caulked at the first bent portion 51 of the other terminal 5. That is, in the first bent portion 51 of each terminal 5, as shown in FIG. 4 (a), the pair of bent pieces 51a and 51b are bent so as to be closed ("clamped"), whereby the terminals 31, 32 and the lead portions 4a and 4b can be securely crimped and held.
Next, as a second step, the wire harness 3 is crimped and held at the covering 3b by the second bent portion 52 of each terminal 5. That is, in each second bent portion 52, as shown in FIG. 4 (b), the pair of bent pieces 52a and 52b are bent so as to be closed ("clamped"), whereby the terminals 31 and 32 and the leads are connected. It is possible to firmly press and hold the portion in front of the connection portion with the portions 4a and 4b.

Next, the assembly W shown in FIG. 2 is accommodated and arranged in the case 2 in the form as shown.
At this time, the third bent portion 53 of the terminal 5 is in a state in which the pair of bent pieces 53a and 53b are straightly extended as shown in FIG. In addition to being inserted, the guides 21, 22, and 24 are used to place the lead portions 4 a and 4 b of the wire harness 3 and the temperature detection element 4 on the bottom of the case 2. And the terminal 5 is attached and fixed to the case 2 by bending the front ends of the bent pieces 53a and 53b as shown in FIG.
The assembly W housed in the case 2 has the temperature detection element 4 and the terminal 5 housed on one end side (right end side) of the case 2 in the longitudinal direction.

Then, the cover 12 is put on (attached to) the upper opening of the case 2.
When covering the case 12 with the case 2, the cover 12 is positioned by fitting the guide hole 12a and the guide 25 and fitting the projecting piece 12b and the guide groove 28, and engaging the second claw projection 27 by snap fitting. The claw 27 a is engaged with the cover 12. Thereby, the cover 12 can be held with respect to the case 2.
Thus, the assembled liquid temperature detecting device 1 is mounted and fixed to the liquid temperature detecting portion by utilizing the first claw protrusion 26 and its snap-fit function.

According to the liquid temperature detection device 1 having the above configuration,
(1) Since the hydraulic fluid to be temperature-circulated circulates in the liquid flow passage 2c of the case 2, the temperature detection element 4 can be brought into direct contact with the hydraulic fluid. Therefore, the temperature detection element 4 can detect the temperature satisfactorily without sacrificing the temperature detection accuracy.

(2) Since the liquid temperature detection device 1 is independent and can be attached to a liquid temperature detection point alone, the temperature detection position is not limited. That is, the degree of freedom of mounting the liquid temperature detection device 1 itself can be ensured.

(3) The terminal 5 has a variety of functions such as a function of electrically connecting (connecting) the wire harness 3 and the temperature detecting element 4 and a function of attaching and fixing the entire terminal 5 including the connection part to the case 2. Nevertheless, the structure is simple and inexpensive, formed by bending a single conductive metal plate. In addition, when connecting the wire harness 3 and the temperature detecting element 4 or attaching and fixing the case 2 to the case 2, the pair of bent pieces 51a, 51b, 52a, 52b, 53a, 53b of the respective bent portions 51, 52, 53 are provided. It is only necessary to “clamp” with a simple caulking tool or the like, or to form a fold, and the assembly can be performed easily.

(4) The terminal 5 has a second bent portion 52, and the wire harness 3 is located in front of the connection portion between the terminals 31 and 32 of the wire harness 3 and the lead portions 4 a and 4 b of the temperature detection element 4. Can be firmly crimped. Therefore, even if an external force is applied to the wire harness 3 and the wire harness 3 is pulled to the left side in FIG. 1, an external force is directly applied to the connection portion between the terminals 31 and 32 and the lead portions 4a and 4b. Therefore, the connection part can be protected (reliable connection is ensured).

(5) The terminal 5 has a third bent portion 53 for fixing the attachment, and after inserting the third bent portion 53 into the slit 29 of the case 2, the terminal 5 is bent. 5 is attached and fixed to the case 2, so that the assembly is easy, and the connection portions between the terminals 31 and 32 of the wire harness 3 and the lead portions 4 a and 4 b of the temperature detection element 4 are firmly attached and fixed to the case 2. be able to. Therefore, in combination with housing the connection part between the wire harness 3 and the temperature detecting element 4 in the case 2 and the effect of protecting the connection part as in the above (4), a disconnection / short circuit accident, etc. It can be set as the high quality liquid temperature detection apparatus 1 which is hard to produce and has high safety.

  Moreover, even if the cover 12 is used, the function of simply covering the upper opening of the case 2 is sufficient, and a simple flat plate may be used, so that the cost can be reduced.

In the terminal 5, the third bent portion 53 is wider than the other two bent portions 51 and 52 (the interval between the bent pieces 53a and 53b is large). Can be stably fixed to the case 2.

[Configuration of Example 2]
Next, a liquid temperature detection apparatus 1 according to Embodiment 2 of the present invention will be described with reference to FIG. In addition, the same code | symbol is attached | subjected to the same or equivalent part as Example 1, and detailed description is abbreviate | omitted.
In the above-described first embodiment, even though the cover 12 has a simple structure, a single plate that covers the entire upper opening of the case 2 is used, whereas in the second embodiment, the cover 12 is attached to the case 2. It is small enough to cover the right half.

In FIG. 5, the case 2 of the apparatus main body 11 is provided with a first claw protrusion (lock arm) 26 and a guide groove 28 in the same manner as in the first embodiment, but a second claw protrusion (lock arm) 27. There is only one pair of columnar guides 25 for guiding the cover 12.
Further, the cover 12 has one guide hole 12 a fitted into the columnar guide 25, a pair of projecting pieces 12 b fitted into the guide groove 28, and a clearance groove for preventing interference with the first claw projection 26. One pair of 12c is provided.

In the second embodiment, the temperature detection element 4 and the terminal 5 (including the connection portion between the wire harness 3 and the temperature detection element 4) are arranged on one side with respect to the case 2 on one end side (right end side) in the longitudinal direction. The cover 12 is used to effectively cover only the temperature detection element 4 and the terminal 5 effectively.
According to the second embodiment, the case 2 and the cover 12 can have a simple structure as compared with the first embodiment.

[Modifications of Examples 1 and 2]
In the first and second embodiments, the case 2 has a structure in which one end side (right end side, temperature detection element 4 side) is a partial opening 2a and the other end side is a full opening 2b. You may use the thing of the structure of the mere cross-sectional concave shape in which both sides are the whole surface opening parts.
In the first and second embodiments, the cover 12 as a separate member is used, but the cover 12 as a separate member can be eliminated.
That is, (1) Since the wire harness 3, the temperature detecting element 4, and its connecting portion can be positioned and firmly fixed to the case 2 at the terminal 5, various guides 21 to 24 can be eliminated. Become.
(2) In addition, since the terminal 5 can be attached by simply inserting the bent pieces 53a and 53b through the slit 29 in the third bent portion 53 and then bending the tip thereof, the assembly W shown in FIG. The case 2 can be inserted and assembled from the entire opening 2b on the other end side.
(3) From the above, the structure of the case 2 has no guides 21 to 25 at the bottom, and the right half of the case 2 is substantially hollow (the cover 12 equivalent part in the second embodiment is integrated with the case 2). The cover 12 as a separate member can be abolished.

[Modification of Terminal 5]
In the terminal 5 shown in FIG. 3 described above, since the third bent portion 53 is positioned closest to the terminal 5, the assembly W shown in FIG. 2 is inserted into the case 2 from the entire opening 2b on the other end side. When assembled, it is easy to assemble and is advantageous, but a terminal 5 having a structure and shape as shown in FIG. 6 may be used.
In the terminal 5 shown in FIG. 6A, the third bent portion 53 is located on the first bent portion 51 side, and the three bent portions are directed from the temperature detecting element side to the wire harness side. The third bent portion 53, the first bent portion 51, and the second bent portion 52 are arranged in this order.
The terminal 5 shown in FIG. 6B uses the fact that the first and second bent portions 51 and 52 and the third bent portion 53 are formed in opposite directions, and thus the first 5 The third bent portion 53 is incorporated in the second bent portions 51 and 52. The terminal 5 on the left side in the figure has a third bent part 53 arranged in the middle of the first bent part 51, and the terminal 5 on the right side in the figure has a third bent part 52 in the middle of the second bent part 52. A bent portion 53 is arranged. But you may arrange | position the 3rd bending part 53 in the middle of both the 1st, 2nd bending parts 51 and 52, combining both, respectively.

  Moreover, in the terminal 5 employ | adopted by the above Examples 1 and 2 and a modification, between the 1st, 2nd bending parts 51 and 52 is connected by the flat connection part 54, this connection part 54 is provided. By selecting the length, the separation distance of the holding position of the wire harness 3 by the second bent portion 52 can be adjusted. However, the first and second bent portions 51 are eliminated by eliminating the connecting portion 54. , 52 may be directly connected.

[Other variations]
Regarding the mounting of the liquid temperature detecting device 1, when the liquid temperature detecting portion (for example, the device mounting plate) for mounting and fixing the case 2 is configured by a plate made of an insulating material, the cover 12 or a cover-corresponding portion having a hollow shape However, the case 2 may be directly attached and fixed to the plate.

  As mentioned above, although the Example of this invention was explained in full detail, the liquid temperature detection apparatus 1 of this invention is not only the temperature detection of the hydraulic fluid in an automatic transmission, but also as a temperature detection apparatus of liquids, such as a cooling water of an internal combustion engine. Of course, it can be useful.

  DESCRIPTION OF SYMBOLS 1 ... Liquid temperature detection apparatus, 2 ... Case, 2a, 2b ... Opening part (liquid flow path), 2c ... Liquid flow path, 3 ... Wire harness, 3a ... Core wire, 3b ... Covering body, 4 ... Temperature detection element, 4a 4b ... lead portion, 5 ... terminal, 12 ... cover, 29 ... slit, 31 ... positive electrode terminal, 32 ... negative electrode terminal, 51, 52, 53 ... first, second and third bent portions.

Claims (4)

In the liquid temperature detecting device (1) for detecting the temperature of the liquid,
It consists of a core wire (3a) and a covering (3b) that insulates the core wire (3a), and the ends of the core wire (3a) serve as a positive electrode terminal (31) and a negative electrode terminal (32). A wire harness (3) exposed from 3b);
A temperature detection element (4) having leads (4a, 4b) electrically connectable to the wire harness (3);
A terminal (5) for electrically connecting the wire harness (3) and the temperature detection element (4);
A case (2) formed so as to accommodate the wire harness (3), the temperature detection element (4) and the terminal (5), and attached to a liquid temperature detection location;
With
The terminal (5) is made of a single conductive metal plate, and the positive electrode terminal (31) and the negative electrode terminal (32) of the wire harness (3) and the lead of the temperature detection element (4). A first bent part (51) for crimping and holding both the parts (4a, 4b) and a second bent part (52 for crimping and holding the wire harness (3) at the covering (3b). ) And a third bent portion (53) for mounting and fixing,
The case (2) is made of an insulating material, and a liquid flow path (2c) for guiding the liquid to the periphery of the temperature detection element (4), and the third bent portion (53) in the terminal (5). And a slit (29) that can be inserted therethrough,
Liquid temperature detection, wherein the terminal (5) is attached and fixed to the case (2) by inserting the third bent portion (53) into the slit (29) and then bending the tip. Device (1). In the liquid temperature detection device (1) according to claim 1,
In the terminal (5), the three bent portions (51, 52, 53) are arranged in a first bent portion (51) from the temperature detecting element (4) side toward the wire harness (3) side. ), The second bent portion (52), and the third bent portion (53) are arranged in this order, and the liquid temperature detecting device (1). In the liquid temperature detection device (1) according to claim 1 or 2,
In the terminal (5), the first bent portion (51) and the second bent portion (52) among the three bent portions (51, 52, 53) are bent in the same direction. The third bent portion (53) is bent in the opposite direction to the two bent portions (51, 52). The bent portion (51a, 51b, 52a, 52b) A liquid temperature detecting device (1) having bent pieces (53a, 53b). In the liquid temperature detection device (1) according to any one of claims 1 to 3,
The case (2) has a bowl-like shape with a concave cross section as a whole, the temperature detecting element (4) and the terminal (5) are accommodated on one end side in the longitudinal direction, and at least longitudinally. A liquid temperature detecting device (1), wherein a cover (12) covering the temperature detecting element (4) and the terminal (5) is attached to one end side in the direction.

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