JP2005347152A - Battery temperature measurement device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a battery temperature measurement device in which an improvement in the measurement accuracy of a battery temperature is attained. <P>SOLUTION: The battery 1 mounted to a battery tray 2 is fixed and supported by a pressing force to the battery tray by the elastic deformation of a battery fixing jig 3 by fixing the battery fixing jig 3 having elasticity to a strength member 4. A temperature sensor 7 for the temperature measurement of the battery 1 is installed at the side face elastic part 3c for pressing the battery case 1a of the battery 1 of the battery fixing jig 3 and at the case pressing face 3e facing the battery case 1a. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an improvement in a battery temperature measuring device for measuring the temperature of a battery.

  For example, an attachment structure for a battery mounted on an automobile or the like is generally a structure in which a battery mounted on a battery tray is pressed against the battery tray with a battery fixing jig and is detachably fixed.

  In addition, a temperature sensor for measuring the temperature of the battery is arranged, and the temperature of the battery is measured by the temperature sensor, which is used for control such as charge control of the battery and grasping of the state of the battery.

  And in the arrangement of the conventional temperature sensor, from the necessity of battery replacement, by inserting the temperature sensor from the insertion port provided under the battery tray and mounting it, and measuring the temperature under the battery tray, The measured temperature was regarded as the battery internal temperature.

  However, since the temperature is measured through the battery tray, there is a problem that the temperature measurement accuracy is inferior.

  Therefore, the problem to be solved by the present invention is to provide a battery temperature measuring device that improves the measurement accuracy of the battery temperature.

  In order to solve the above problem, according to the first aspect of the present invention, the battery placed on the battery tray is fixed to the battery tray by the battery fixing jig by fixing the battery fixing jig to the jig fixing portion. In the battery temperature measuring device that is fixed and held by the pressing force to the battery and is provided with a temperature sensor for measuring the temperature of the battery, the temperature sensor is held by the battery fixing jig in contact with the battery case surface of the battery The point is.

  Further, as in the invention described in claim 2, the battery fixing jig has elasticity, and the battery fixing jig has a part that presses the battery case of the battery and a part facing the battery case. A structure provided with a temperature sensor may be adopted.

  Further, as in a third aspect of the present invention, the temperature sensor may be built in a case pressing surface that presses the battery case of the battery fixing jig.

  Further, as in a fourth aspect of the present invention, the battery case portion to which the temperature sensor is pressed may be configured to be lower than the battery liquid level.

  Furthermore, as in the invention described in claim 5, a structure in which a portion other than the portion facing the battery case in the temperature sensor is covered with a heat insulating material may be adopted.

  According to the first aspect of the present invention, the temperature sensor is configured to be held by the battery fixing jig in contact with the battery case surface of the battery, and the temperature sensor is in direct contact with the battery case. Compared to the conventional case where the battery temperature is measured via the battery tray, the measurement accuracy of the battery temperature can be improved.

  According to the second aspect of the present invention, the battery fixing jig has elasticity, and the temperature sensor is provided at a part of the battery fixing jig that presses the battery case of the battery and faces the battery case. Because of the structure, the temperature sensor is pressed against the battery by the elasticity of the battery fixing jig, and can always be kept in contact with the battery. This also improves the measurement accuracy of the battery temperature.

  Moreover, since the temperature sensor is provided in the battery fixing jig when replacing the battery, the replacement work does not require any trouble, and the temperature sensor is kept in contact with the same height position of the battery even after replacement. Therefore, there is an advantage that the measurement accuracy can be maintained well.

  According to the invention described in claim 3, since the temperature sensor is built in the case pressing surface that presses the battery case of the battery fixing jig, it does not cause any trouble when replacing the battery, and is easy to use. There are excellent advantages.

  Furthermore, according to the fourth aspect of the invention, since the part of the battery case to which the temperature sensor is pressed is located below the battery liquid level, the battery has excellent responsiveness to temperature changes. In addition, the measurement accuracy of the battery temperature can be further improved.

  Further, according to the invention described in claim 5, since the part other than the part facing the battery case in the temperature sensor is covered with the heat insulating material, the heat from the part other than the part facing the battery case is provided by the heat insulating function of the heat insulating material. Can be suppressed, and the battery temperature can be accurately measured through the battery case.

  Hereinafter, a first embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows, for example, a schematic explanatory diagram of a part of a battery 1 mounted on a vehicle, on a battery tray 2 arranged inside a bonnet. The battery 1 is mounted on the battery 1 and is fixed to the battery fixing jig 3 in a detachable manner.

  The battery fixing jig 3 is formed by appropriately bending an elastic strip-like metal plate made of stainless steel or the like, and one end portion 3a of the battery fixing jig 3 on a strength member 4 made of a vehicle body frame or the like as a jig fixing portion. The battery fixing jig 3 is attached to the strength member 4 by being inserted into the protruding male screw shaft 4a so as to be inserted therethrough, and the nut 5 being detachably screwed to the male screw shaft 4a protruding upward. It is fixed.

  Further, the battery fixing jig 3 is fixed to the strength member 4 so that the one end portion 3 a is fixed to the upper surface elastic contact portion 3 b that is elastically contacted with the upper surface of the battery 1 and the side surface of the battery 1. A side elastic contact portion 3c that is elastically contacted, and the lower end portion of the side elastic contact portion 3c that is the other end portion 3d of the battery fixing jig 3 is a portion that presses the side surface of the battery case 1a and the battery case 1a. A temperature sensor 7 for measuring the temperature of the battery 1 is fixed to the portion facing the surface, that is, a so-called case pressing surface 3e by bonding, screwing or the like. As the temperature sensor 7, for example, a thermistor is used, and the detection signal is appropriately extracted through wiring as in the past.

  Further, the contact position of the temperature sensor 7 with respect to the battery case 1a is configured to be lower than the battery liquid level 1b of the battery liquid that fills the battery case 1a with a desired amount.

  If the battery fixing jig 3 is fixed to the strength member 4 in a state where the battery 1 is placed at a desired position on the battery tray 2, the battery is fixed at the upper surface elastic contact portion 3 b by elastic deformation of the battery fixing jig 3. 1 is pressed and urged in the direction of the battery tray 2, and the side surface of the battery 1 is pressed and urged by the side elastic contact portion 3 c, so that the battery 1 is fixed on the battery tray 2 by the pressing force of the battery fixing jig 3. A held state is obtained.

  At this time, the temperature sensor 7 provided at the lower end portion of the side elastic contact portion 3c is held in a contact state where the temperature sensor 7 is pressed against the side surface of the battery 1 by the pressing force generated by the elastic deformation of the side elastic contact portion 3c.

  The present embodiment is configured as described above, and has a structure in which the temperature sensor 7 is in direct contact with the side surface of the battery case 1a when the battery 1 is mounted. Compared with the case where the temperature of the battery is indirectly measured, the temperature of the battery 1 is directly measured, and further, the battery fixing jig 3 is elastically pressed against the side surface of the battery case 1a. Therefore, it is possible to ensure the state of contact at all times, the measurement state of the battery 1 temperature is stable, and the measurement accuracy of the battery 1 temperature can be improved.

  At this time, since the part of the battery case 1a to which the temperature sensor 7 is pressed is located below the battery liquid level 1b, the battery 1 is excellent in responsiveness to a temperature change. The accuracy can be further improved.

  In addition, when the battery 1 is replaced, the temperature sensor 7 is provided in the battery fixing jig 3, so that the replacement work does not require any trouble, and the temperature sensor 7 is pressed to the same height position of the battery 1 after the replacement. Since the contact is made in a state, there is an advantage that the measurement accuracy can be maintained well.

  FIG. 2 shows a second embodiment, and the same components as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.

  In other words, in the present embodiment, the temperature sensor 7 is built in and disposed on the case pressing surface 3e of the other end 3d which is the lower end of the side elastic contact portion 3c.

  Therefore, the same effect as that of the first embodiment is achieved, and the temperature sensor 7 is built in, so that the battery fixing jig 3 as a whole can be configured compactly, and the conventional battery fixing without the temperature sensor 7 is possible. It can be handled in the same manner as the jig 3 and has the advantage of being easy to use without causing any trouble when replacing the battery.

  FIG. 3 shows a third embodiment, and the same components as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.

  That is, in the present embodiment, the temperature sensor 7 is provided below the other end 3d, which is the lower end of the side elastic contact portion 3c, and is in contact with the surface of the battery case 1a in a pressed state. It is said that. At this time, the periphery of the temperature sensor 7 other than the portion facing the battery case 1a is covered with a heat insulating material 9 such as a heat insulating resin material. In addition, what is necessary is just to make it the structure which covers the temperature sensor 7 with the other end part 3d which hold | maintains the temperature sensor 7 with the heat insulating material 9, in the structure like 1st Embodiment or 2nd Embodiment.

  Accordingly, the same effect as that of the first embodiment is achieved, and the heat sensor 9 covers the temperature sensor 7 except for the portion facing the battery case 1a, so that the heat from the portion other than the portion facing the battery case 1a is covered. There is an advantage that the inflow can be suppressed and the temperature of the battery 1 can be accurately measured through the battery case 1a.

  In addition, in each said embodiment, although the structure employ | adopted as the battery 1 of the vehicle is shown, what is necessary is just a structure which mounts the battery 1, and is not limited to a vehicle at all.

  Further, although the battery fixing jig 3 has a structure having elasticity, if the temperature sensor 7 can be held in contact with the surface of the battery case 1 a of the battery 1, the battery fixing jig 3 does not have elasticity. May be.

It is side surface explanatory drawing which concerns on the 1st Embodiment of this invention. It is side surface explanatory drawing which concerns on 2nd Embodiment. It is side surface explanatory drawing which concerns on 3rd Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Battery 1a Battery case 1b Battery liquid level 2 Battery tray 3 Battery fixing jig 3a One end part 3b Upper surface elastic contact part 3c Side surface elastic contact part 3d Other end part 3e Case pressing surface 4 Strength member 7 Temperature sensor 9 Heat insulating material

Claims (5)

By fixing the battery fixing jig to the jig fixing portion, the battery placed on the battery tray is fixed and held by the pressing force to the battery tray by the battery fixing jig, and the temperature for measuring the temperature of the battery In the battery temperature measuring device provided with the sensor,
The battery temperature measuring device, wherein the temperature sensor is held by the battery fixing jig in contact with the battery case surface of the battery. The battery temperature measuring device according to claim 1,
The battery fixing jig has elasticity, and the temperature sensor is provided at a part of the battery fixing jig that presses the battery case of the battery and faces the battery case. measuring device. The battery temperature measuring device according to claim 2,
The battery temperature measuring device, wherein the temperature sensor is disposed on a case pressing surface that presses the battery case of the battery fixing jig. In the battery temperature measuring device according to claim 2 or 3,
The battery temperature measuring device, wherein a portion of the battery case where the temperature sensor is pressed is located below the battery liquid level. The battery temperature measuring device according to any one of claims 2 to 4,
The battery temperature measuring device, wherein a portion other than the portion facing the battery case in the temperature sensor is covered with a heat insulating material.

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