JP7082154B2 - Protector and protector module - Google Patents

Description

The present invention relates to a protector, and more particularly to a protector having a structure for holding a temperature sensor at the end of the protector. The present invention also relates to a protector module including the protector, electric wire, and temperature sensor.

Various sensors are used to detect the state of the battery pack mounted on an electric vehicle or the like. Among these various sensors, the protector module disclosed in Patent Document 1 below is known as a module including a temperature sensor in its configuration. In FIG. 10, the protector module 1 is provided to detect the temperature state of a battery cell constituting a battery pack (not shown). The protector module 1 is connected to a battery monitoring unit (not shown) that monitors the battery status of the battery cell, and is configured to be able to transmit temperature detection information to the battery monitoring unit. The protector module 1 includes a plurality of electric wires (not shown) connected to the battery monitoring unit, a protector 2 for accommodating and protecting the electric wires, and a temperature sensor 3 whose temperature measurement target is a battery cell. It is composed of. The protector 2 has an electric wire accommodating portion 4 and a protector end portion 5 arranged at an end portion of the electric wire accommodating portion 4. A portion (sensor holding portion 6) for holding the temperature sensor 3 is formed at the protector end portion 5. In FIG. 11, the temperature sensor 3 held by the sensor holding portion 6 of the protector end portion 5 has a temperature detecting portion 7 extending toward the battery cell and a held portion 8 provided on the base end side of the temperature detecting portion 7. And have. The temperature sensor 3 is held by the protector end 5 in a state where the temperature detection unit 7 is exposed.

Japanese Unexamined Patent Publication No. 2019-212511

In the above-mentioned prior art, since the temperature detection unit 7 of the temperature sensor 3 is held by the protector end portion 5 in an exposed state, for some reason before trying to assemble the protector module 1 to a battery pack (not shown). When the temperature detection unit 7 was damaged, it was necessary to replace not only the temperature sensor 3 itself but also the electric wire. Therefore, sufficient care was required in handling the protector module 1.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a protector and a protector module capable of preventing damage to the temperature detection unit of a temperature sensor.

The protector of the present invention according to claim 1, which has been made to solve the above problems, has a temperature detection unit extending toward a temperature measurement target and a held portion provided on the proximal end side of the temperature detection unit. A sensor holding portion is formed at the end of the protector as a portion of the temperature sensor for holding the held portion, and the sensor holding portion is formed in a shape that exposes the entire circumference and the tip of the side portion of the temperature detecting portion. In addition, the protective portion is formed in a shape having a protective portion at a tip away from the tip, and the protective portion includes a first columnar portion extending in a direction orthogonal to the extending axis of the temperature detecting section, the extending shaft, and the above. It has a second columnar portion extending in a direction orthogonal to the first columnar portion, and the first columnar portion and the second columnar portion are formed in an L-shaped continuous shape. ..

According to the present invention having such a feature of claim 1, since the sensor holding portion formed at the end of the protector has the protection portion before the tip of the temperature detection portion of the temperature sensor, the protection portion may be used. The temperature detection unit can be protected. Even if the protective portion of the sensor holding portion is arranged before the tip of the temperature detecting portion, this shape is formed into an L-shape in the first columnar portion and the second columnar portion. The protection unit does not interfere with the convection of gas (air, gas, etc.) around the temperature detection unit, and does not trap the gas, resulting in highly accurate temperature detection. can.

According to the second aspect of the present invention, in the protector according to the first aspect, the L-shaped first columnar portion and the second columnar portion are the temperature detecting portions on the extending shaft. When looking at the tip, it is characterized in that it is arranged at a position where it does not seem to overlap the tip.

According to the present invention having such a feature of claim 2, the protection portion having an L-shape in the first columnar portion and the second columnar portion sees the tip of the temperature detection portion on the extending shaft. Since they are arranged at positions where they do not overlap with each other, temperature detection can be performed with high accuracy in the direction of the extending axis.

The present invention according to claim 3 is characterized in that, in the protector according to claim 2, the sensor holding portions are formed in pairs so that the protector ends are located on both sides with respect to the protector axis. do.

According to the present invention having such a feature of claim 3, since it has a pair of sensor holding portions, it is possible to hold two temperature sensors. This makes it possible to detect the temperature at the end of the protector with even higher accuracy.

According to a fourth aspect of the present invention, in the protector according to the third aspect, the protector end portion is formed separately from the electric wire accommodating portion of the protector, and is attached to and detached from the end portion of the electric wire accommodating portion. It is characterized in that it is freely arranged or arranged away from the end portion.

According to the present invention having such a feature of claim 4, it is possible to give a degree of freedom to the arrangement of the protector end portion.

The protector module of the present invention according to claim 5, which has been made to solve the above problems, includes the protector according to claim 1, 2, 3 or 4, an electric wire housed and protected in the protector, and the same. It is characterized in that it is provided with a temperature sensor provided at the end of the electric wire and held by a sensor holding portion formed at the protector end portion of the protector.

According to the present invention having such a feature of claim 5, since the protector according to claim 1, 2, 3 or 4 is provided, the temperature of the temperature sensor is detected by the protection portion at the end of the protector in this protector. The part can be protected. Since the present invention can prevent the temperature sensor from being damaged, it is also possible to detect the temperature with high accuracy.

According to the present invention, there is an effect that the temperature detection unit of the temperature sensor can be prevented from being damaged. Further, according to the present invention, even if the sensor holding portion has a protective portion, the shape of the protective portion has an effect that highly accurate temperature detection can be performed.

It is a perspective view which shows one Embodiment of the protector and the protector module of this invention. It is a figure seen from the arrow A direction of FIG. It is a figure seen from the arrow B direction of FIG. It is a figure seen from the arrow C direction of FIG. It is a figure seen from the arrow D direction of FIG. It is a figure seen from the arrow E direction of FIG. It is a perspective view of a temperature sensor. It is a perspective view of the protector end portion. It is an enlarged view of the main part of FIG. It is a perspective view of the protector and the protector module of the conventional example. It is an enlarged view of the protector end portion of FIG. 10 and the portion where the temperature sensor is located.

The protector has a protector end, on which a sensor holding portion is formed. The sensor holding portion is formed as a portion for holding the held portion of the temperature sensor. The temperature sensor has a temperature detection unit extending toward the temperature measurement target and a held portion provided on the base end side of the temperature detection unit. The sensor holding portion is formed in a shape that exposes the entire circumference of the side portion and the tip of the temperature detecting portion. Further, the sensor holding portion is formed in a shape having a protective portion at a tip away from the tip of the temperature detecting portion. The protection unit has a first columnar portion extending in the direction orthogonal to the extending axis of the temperature detecting unit and a second columnar portion extending in the orthogonal directions to the extending axis and the first columnar portion, respectively. It is formed into an L-shaped continuous shape.

Hereinafter, the first embodiment will be described with reference to the drawings. FIG. 1 is a perspective view showing an embodiment of the protector and protector module of the present invention. 2 is a view seen from the direction of arrow A in FIG. 1, FIG. 3 is a view seen from the direction of arrow B in FIG. 2, FIG. 4 is a view seen from the direction of arrow C in FIG. 3, and FIG. 5 is a view of FIG. FIG. 6 is a view seen from the direction of arrow D, FIG. 6 is a view seen from the direction of arrow E in FIG. 3, FIG. 7 is a perspective view of the temperature sensor, FIG. 8 is a perspective view of the end of the protector, and FIG. 9 is an enlarged view of a main part of FIG. It is a figure.

<About protector module 11>
In FIG. 1, reference mark 11 indicates a protector module. The protector module 11 is not particularly limited, but is provided in a battery pack (not shown) described in the background technique section. The protector module 11 is configured to be able to detect a temperature state of a desired temperature measurement target. The protector module 11 includes a harness main body 12 that extends to a battery monitoring unit (not shown) and is connected by a connector of the terminal, a temperature sensor 13 provided at the terminal of the harness main body 12 (a terminal different from the above), and the present invention. It is configured to include a protector 14 having the characteristics of the above. The protector module 11 has a structure capable of preventing damage to the temperature detection unit 16 described later of the temperature sensor 13. Hereinafter, each of the above-mentioned constituent members will be described.

<About the harness body 12>
In FIGS. 1 and 7, the harness main body 12 is composed of an electric wire bundle 15 in which a plurality of electric wires are bundled. The electric wire includes a conductor and an insulator that covers the conductor. The conductor is a conductive metal portion such as copper, a copper alloy, aluminum, or an aluminum alloy, and is formed by, for example, twisting strands. The conductor is formed in a circular cross section. The insulator is a resin portion having an insulating property such as polyvinyl chloride resin, polyethylene resin, polypropylene resin, etc., and is extruded around a conductor into a cylindrical cross section. The insulator is a covering member for the conductor and is formed to have a predetermined thickness. A predetermined portion of the harness body 12 as described above is housed in the protector 14 and protected from the outside. The harness body 12 is divided into two terminals, each of which is provided with a temperature sensor 13.

<About temperature sensor 13>
In FIGS. 1 and 7, the two temperature sensors 13 are the same, and only one of them will be described below. The temperature sensor 13 is basically the same as the conventional temperature sensor 3 shown in FIG. 11, and has a temperature detection unit 16 and a held unit 17 and is formed in the illustrated shape. In this embodiment, the temperature sensor 13 uses a thermistor that detects a change in temperature based on a change in resistance value. The temperature detection unit 16 is formed of a built-in element that detects the temperature of the temperature to be measured. The temperature detection unit 16 is formed in a shape extending toward the temperature measurement target. Reference mark 18 in the temperature detection unit 16 indicates a side unit. Further, the quotation mark 19 indicates the tip. Further, the quotation mark L1 indicates an extension axis (the extension axis L1 is the same as the central axis of the temperature detection unit 16). The side portion 18 is formed in a shape as if the cylinder is slightly crushed. The tip 19 is a portion continuously connected to the side portion 18 and located at the protruding end of the temperature detecting portion 16, and is formed in a rounded shape as shown in the figure. As can be seen from the figure, the temperature detection unit 16 is formed in an exposed portion other than the proximal end portion. The element of the temperature detection unit 16 is connected to two electric wires of the harness main body 12. The held portion 17 is a resin molded product that covers the connection portion of the electric wire, and is held by the sensor holding portion 28 (see FIGS. 8 and 9) described later of the protector 14. The upper surface 20 of the held portion 17 is formed on a flat surface, and is formed as a surface to be pushed by an operator when assembling to the sensor holding portion 28. Lock portions 21 are formed on both sides of the held portion 17. The lock portion 21 is formed in the shape of a cantilevered arm. The lock portion 21 is formed so as to extend downward and have a claw-shaped locking projection protruding outward at the end portion.

<About protector 14>
In FIG. 1, the protector 14 is a resin molded product and is provided for accommodating and protecting the harness main body 12 and for restricting a route. The protector 14 has an electric wire accommodating portion 22 and a protector end portion 23 arranged at an end portion of the electric wire accommodating portion 22. The electric wire accommodating portion 22 is formed in the same manner as the electric wire accommodating portion 4 shown in FIG. Specifically, it is configured to include a groove-shaped protector main body for accommodating the harness main body 12 and a protector cover for covering the groove opening of the protector main body. In this embodiment, the protector end portion 23 is formed so as to be separated from the end portion of the electric wire accommodating portion 22 (it is assumed to be an example. For example, it is integrated with the end portion of the electric wire accommodating portion 22 or is formed. It may be formed so as to be removable). Hereinafter, the protector end portion 23 will be described in detail.

<About the protector end 23>
In FIGS. 1 to 9, the protector end portion 23 has a harness fixing portion 24, a branch line arrangement portion 25, a clip portion 26, a pair of stabilizers 27, and a pair of sensor holding portions 28 in order from the end portion of the wire accommodating portion 22. Are arranged and formed in the illustrated shape. The harness fixing portion 24 is formed in a portion for fixing the harness main body 12 extending from the end portion of the electric wire accommodating portion 22. In this embodiment, the harness fixing portion 24 is formed in a shape that can be fixed by using the binding band 29. The branch line arranging portion 25 is formed in a mounting portion of the harness main body 12 which is divided into two and has a substantially U shape. A frame portion 30 is formed on the outside of the branch line arrangement portion 25. The clip portion 26 is formed as a fixing portion for a part of a battery pack (not shown). The clip portion 26 has a main body portion 31 projecting downward and a pair of lock portions 32 provided on the side portions of the main body portion 31. As can be seen from the shape of the clip portion 26, the clip portion 26 is assembled and fixed in a hole portion of a panel (not shown). Although not particularly designated, the opening portion formed around the clip portion 26 indicates meat stealing or a die-cutting hole. The clip portion 26 is arranged along the protector shaft L2 (same as the central shaft of the protector end portion 23). The pair of stabilizers 27 are arranged on both sides of the clip portion 26 and along the protector axis L2. The pair of stabilizers 27 are formed in a portion having a spring property. The pair of stabilizers 27 are formed in the shape of a flexible plate piece that is pressed against the panel and bends. It should be noted that the quotation marks 33 and 34 indicate the base portion required for forming the pair of stabilizers 27.

<About the pair of sensor holding units 28>
In FIGS. 1 to 9, the two sensor holding portions 28 are portions that are axisymmetric with respect to the protector axis L2, and only one of them will be described below. The sensor holding portion 28 is formed as a portion for holding the temperature sensor 13 and a portion for protecting the temperature sensor 13. The sensor holding portion 28 is formed in a shape that exposes the entire circumference and the tip 19 of the side portion 18 of the temperature detection portion 16 in the temperature sensor 13. Such a sensor holding portion 28 has a holding portion main body 35 and a protective portion 36.

The holding portion main body 35 is formed in a portion that holds the held portion 17 of the temperature sensor 13. The holding portion main body 35 has a bottom wall portion 37, side wall portions 38 and 39, front holding portions 40 and 41, and rear holding portions 42 and 43. The bottom wall portion 37 is formed in a portion that receives the held portion 17 of the temperature sensor 13. The bottom wall portion 37 is formed on a flat surface. The side wall portions 38 and 39 are formed in portions facing the side portions of the held portion 17. Lock portions 44 having the same shape are formed on the side wall portions 38 and 39, respectively. The lock portion 44 is formed in a portion that locks the pair of lock portions 21 of the temperature sensor 13. The lock portion 44 is formed in the shape of a rectangular through hole. The front holding portions 40 and 41 are formed in a portion that restricts the advance of the temperature sensor 13. The front holding portions 40 and 41 have flat surfaces 45 facing each other, and are formed so that the pair of press-fitting projections 46 of the temperature sensor 13 can be crushed by the flat surfaces 45. The rear holding portions 42 and 43 are formed in a portion that restricts the retreat of the temperature sensor 13.

The protection unit 36 is a feature portion of the present invention and is formed in a shape capable of protecting the temperature detection unit 16 of the temperature sensor 13. Further, the protection unit 36 is formed in a shape that can protect the function of the temperature detection unit 16 without impairing the function of the temperature detection unit 16 (does not obstruct the flow of gas (air or gas) existing around the temperature measurement target, and also. The gas is formed in a shape that does not trap it). The protection unit 36 is arranged at a point away from the tip 19 of the temperature detection unit 16. The protective portion 36 is formed in an L-shape having a first columnar portion 47 and a second columnar portion 48. The first columnar portion 47 is formed in a columnar portion extending in a direction orthogonal to the extending axis L1 of the temperature detecting unit 16 (extending in the vertical direction in the case of FIG. 1). Further, the second columnar portion 48 is formed in a columnar portion extending in a direction orthogonal to the extending shaft L1 and the first columnar portion 47 (in the case of FIG. 1, extending to the left and right of the protector end portion 23). The first columnar portion 47 and the second columnar portion 48 may be read as, for example, an L-shaped bone (skeleton) portion. Since the first columnar portion 47 and the second columnar portion 48 are L-shaped portions arranged away from the tip 19 of the temperature detection unit 16, even if the protector module 11 is dropped, the protector module 11 is dropped. Of course, it is an effective part for preventing damage to the temperature detection unit 16. As can be seen from FIG. 3, the first columnar portion 47 and the second columnar portion 48 are arranged at positions that do not seem to overlap the tip 19 of the temperature detection unit 16 (in this embodiment, they overlap the temperature detection unit 16 itself). It is placed in a position that does not seem to be). The first columnar portion 47 and the second columnar portion 48 are formed in a continuous state so that the front surfaces are flush with each other (in the case of the above drop, the impacted surface can be increased). In this embodiment, the front surface is formed so that the second columnar portion 48 is larger (formed so as to be wider).

The first columnar portion 47 is formed so that its end is continuous with the connecting portion 49. The continuous portion 49 is formed in an arm-shaped portion extending from the front holding portion 40 in parallel with the extending shaft L1. On the other hand, the second columnar portion 48 is formed so that its end portion is continuous with the connecting portion 50. The end of the second columnar portion 48 does not have to be continuous with the connecting portion 50. The continuous portion 50 having continuous ends of the second columnar portion 48 is arranged parallel to the base portion 33 in which the stabilizer 27 is provided. In this embodiment, since there is also a wall 51 connecting the second columnar portion 48 and the base portion 33, the base portion 33 necessary for forming the stabilizer 27 is reinforced. Regarding reinforcement, there is also a rib 52 connecting the front holding portion 41 and the wall 51, and this rib 52 is also effective. In this embodiment, since the end portion of the second columnar portion 48 is continuous with such a portion, and the end portion of the first columnar portion 47 is also continuous with the connecting portion 49, the function as the protective portion 36 is provided. Of course, it is fully secured and demonstrated.

When the temperature sensor 13 is assembled to the sensor holding unit 28 as described above, the temperature detection unit 16 of the temperature sensor 13 is exposed in the state shown in FIGS. 1 to 6. Since the temperature detection unit 16 is protected by the protection unit 36, damage can be prevented.

<About the effect of protector 14>
As described above with reference to FIGS. 1 to 9, according to the protector 14 (protector module 11) according to the embodiment of the present invention, the temperature of the sensor holding portion 28 formed on the protector end portion 23 is high. Since the protection unit 36 is arranged before the tip 19 of the temperature detection unit 16 of the sensor 13, this protection unit 36 has an effect that the temperature detection unit 16 can be protected. Even if the protective portion 36 of the sensor holding portion 28 is arranged before the tip 19 of the temperature detecting portion 16, this shape becomes an L shape at the first columnar portion 47 and the second columnar portion 48. Since it is formed, the protection unit 36 does not interfere with the convection of the gas (air, gas, etc.) existing around the temperature detection unit 16, and does not trap the gas, resulting in accuracy. It has the effect of being able to detect high temperatures.

It goes without saying that the present invention can be modified in various ways without changing the gist of the present invention.

In the present embodiment, the protector end portions 23 are formed by arranging and forming a pair of sensor holding portions 28 so as to be located on both sides of the protector shaft L2, but the present invention is not limited to this, and the sensor holding portions 28 are one. It may be a structure of only one.

11 ... protector module, 12 ... harness body, 13 ... temperature sensor, 14 ... protector, 15 ... wire bundle, 16 ... temperature detector, 17 ... held part, 18 ... side part, 19 ... tip, 20 ... top surface, 21 … Lock part, 22… Wire accommodating part, 23… Protector end, 24… Harness fixing part, 25… Branch line arrangement part, 26… Clip part, 27… Stabilizer, 28… Sensor holding part, 29… Binding band, 30 ... Frame part, 31 ... Main body part, 32 ... Lock part, 33, 34 ... Base part, 35 ... Holding part main body, 36 ... Protective part, 37 ... Bottom wall part, 38, 39 ... Side wall part, 40, 41 ... Front side Holding part, 42, 43 ... Rear holding part, 44 ... Lock part, 45 ... Flat surface, 46 ... Press-fitting protrusion, 47 ... First columnar part, 48 ... Second columnar part, 49, 50 ... Connecting part, 51 ... Wall , 52 ... Rib, L1 ... Extended shaft, L2 ... Protector shaft

Claims (5)

A sensor holding portion is a protector end as a portion for holding the held portion of a temperature sensor having a temperature detecting portion extending toward a temperature measuring target and a held portion provided on the base end side of the temperature detecting portion. Formed in the part,
The sensor holding portion is formed in a shape that exposes the entire circumference of the side portion and the tip of the temperature detecting portion, and is formed in a shape that has a protective portion at a tip away from the tip.
The protective portion has a first columnar portion extending in a direction orthogonal to the extending axis of the temperature detecting portion, and a second columnar portion extending in a direction orthogonal to the extending axis and the first columnar portion, respectively. The protector is characterized in that the first columnar portion and the second columnar portion are formed in an L-shaped continuous shape. In the protector according to claim 1,
The L-shaped first columnar portion and the second columnar portion shall be arranged at positions that do not seem to overlap the tip when the tip of the temperature detection section is viewed on the extension axis. A protector featuring. In the protector according to claim 2,
The protector end portion is a protector characterized in that the sensor holding portions are formed in pairs so as to be located on both sides of the protector axis. In the protector according to claim 3,
The protector end portion is formed separately from the electric wire accommodating portion of the protector, and is detachably arranged at the end portion of the electric wire accommodating portion or is arranged away from the end portion. .. The protector according to claim 1, 2, 3 or 4, the electric wire housed and protected by the protector, and the sensor holding portion provided at the end of the electric wire and formed at the protector end of the protector. A protector module characterized by being configured with a temperature sensor.

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