FR3121785A1 - BATTERY MODULE EQUIPPED WITH A TEMPERATURE SENSOR - Google Patents

Abstract

The present invention relates to a battery module (1) comprising two adjacent electrochemical cells (1a, 1b) each comprising a facing wall (4a, 4b) and a temperature sensor (2), characterized in that the sensor (2) temperature is arranged between the walls (4a, 4b) of the electrochemical cells (1a, 1b). Figure 1

Description

BATTERY MODULE EQUIPPED WITH A TEMPERATURE SENSOR

The present invention relates to the field of batteries. More particularly, the subject of the invention is a battery module equipped with a temperature sensor.

The traction batteries of electric vehicles need to be checked. This control relates in particular to the internal temperature. This is particularly the case, although not limiting, of batteries with electrochemical cells, such as for example those of the lithium-ion (or Li-ion) type.

An existing solution, known for example from document EP2649701B1, for measuring the temperature of the battery consists of placing one or more temperature sensors on a battery module. This thermal sensor can be a thermocouple. These thermal sensors are located above the module. The temperatures are therefore measured at the module level instead of the cells. Due to the thermal resistance of the battery, the measured temperatures are much lower than the internal temperature of the cells.

For example, in winter, during battery charging or discharging, the temperature inside the battery is higher than that measured on the module and the measured temperature imposes a higher current limitation than necessary. In an opposite case in summer, the temperature inside the battery is higher than that measured, and a stronger limitation must be imposed to protect the battery.

The term battery will be understood throughout the text of this document to mean an assembly comprising at least one battery module itself containing at least one electrochemical cell. When there are several modules, they are generally grouped together in a tray or casing and then form a battery block. example of the lithium-ion (or Li-ion) type, of the Ni-Mh, or Ni-Cd or lead type.

Due to the difference between the measured temperature and the maximum temperature in the battery, it is not possible to precisely define the protection strategy for the battery, i.e. the law for the reduction of power depending on the battery temperature. If this limitation is too high, the maximum power of the battery cannot be used. If this limitation is not high enough, the battery life is penalized.

The invention aims to solve this problem. To achieve this objective, a battery module is provided according to the invention comprising two adjacent electrochemical cells each comprising a facing wall and a temperature sensor, in which the temperature sensor is arranged between the walls of the electrochemical cells.

The technical effect is to allow the measurement of a temperature which is much closer to the actual temperature inside the electrochemical cells.

Various additional features may be provided, alone or in combination:

According to one embodiment, the battery module comprises a thermal insulation slice sandwiched between the facing walls of the two electrochemical cells, the temperature sensor being placed between one of the walls and the thermal insulation slice.

According to one embodiment, each wall is covered with an outer layer of electrical insulation, the temperature sensor being placed between the outer layer of electrical insulation of this one of the walls and the slice of thermal insulation.

According to one embodiment, the external electrical insulation layer and/or the thermal insulation slice is made of PET plastic.

According to one embodiment, the temperature sensor comprises a thermocouple as sensitive element.

According to another embodiment, the temperature sensor comprises a film as sensitive element.

According to another embodiment, the temperature sensor comprises as sensitive element a coating deposited on the outer layer of electrical insulation.

The invention also relates to a battery characterized in that it comprises a battery module according to one of the previously described variants.

The invention also relates to a motor vehicle comprising an electric traction motor comprising such a battery for supplying the electric traction motor.

Other features and advantages will appear on reading the description below of a particular, non-limiting embodiment of the invention, made with reference to the figures in which:

: There schematically represents in cross section a battery module according to the invention.

Measurement of the internal battery temperature is critical in the construction of the battery module. The internal temperature of the battery provides a basis for the limitation of the battery power, which serves to guarantee the life of the battery at one side, and at the other side to maximize the use of electrical performance drums.

There schematically shows part of the battery module 1. This battery module comprises two adjacent electrochemical cells 1a, 1b. The electrochemical cells 1a, 1b each comprise a wall, respectively 4a, 4b facing one another.

In accordance with the invention, a temperature sensor 2 is arranged between the walls 4a, 4b of the electrochemical cells 1a, 1b. In other words, the sensor is sandwiched between the walls 4a, 4b of the electrochemical cells 1a, 1b. The temperature sensor 2 is connected to an electronic measurement unit, not shown.

Each cell 1a and 1b is covered with an outer layer 3a, 3b of electrical insulation. Each wall 4a, 4b is therefore covered with this layer 3a, 3b of electrical insulation. This layer 3a, 3b of electrical insulation is thin, of the order of 0.1 mm. This electrical insulation layer can be made of PET (polyethylene terephthalate) plastic.

The battery module 1 further comprises a slice 5 of thermal insulation sandwiched between the walls 4a and 4b of the battery cells 1a, 1b. This slice 5 of thermal insulation serves to prevent thermal runaway of the battery module 1. This slice 5 of thermal insulation is thicker than the electrical insulation layer, for example by about 1.5 mm. This slice 5 of thermal insulation can be made of plastic, also of PET (Polyethylene terephthalate).

In this embodiment, the temperature sensor 2 is arranged between the slice 5 of thermal insulation and the layer 3a of electrical insulation of one of the two electrochemical cells.

According to one embodiment, the temperature sensor 2 can be a temperature sensor whose sensitive element is a fine thermocouple, placed between the slice 5 of thermal insulation and the layer 3a of electrical insulation. This embodiment has the advantage of the low cost of the thermocouple and ease of supplying them, but requires a modification of the shape of the electrical insulation layer 3a and/or of the slice 5 of thermal insulation to allow the insertion of the sensitive element, and the addition of this modification step in the manufacturing process.

According to another embodiment, the temperature sensor 2 can be a temperature sensor, the sensitive element of which is a thin film, the film being placed between the slice 5 of thermal insulation and the layer 3a of electrical insulation. This embodiment also has the advantage of the low cost of the sensor and ease of supply, but also the disadvantage of requiring a modification of the shape of the electrical insulation layer 3a and/or of the slice 5 of thermal insulation to allow the insertion of the sensitive element, with a possible enlargement of the distance between cells and the addition of this modification step in the manufacturing process.

According to another embodiment, the temperature sensor 2 can be a temperature sensor whose sensitive element is deposited as a coating, for example by vapor phase deposition technology, PVD (for "Physical Vapor Deposition" in English) on the layer 3a of electrical insulation or the slice 5 of thermal insulation. This embodiment does not require modification of the shape of the electrical insulation layer 3a and/or of the slice 5 of thermal insulation to allow the insertion of the sensitive element because the coating obtained by PVD has conventionally a thickness of a few microns, which is less than the flatness tolerance (a few tens of microns) of the surface of the cells. The PVD coating is done later on the electrical insulation layer 3a or the thermal insulation slice 5 before the assembly of the cells. The disadvantages are the higher price of the sensor and its industrial supply.

Such a battery module 1 can form part of a traction battery fitted to a motor vehicle comprising an electric traction motor. This vehicle can for example be an electric vehicle or an electric thermal hybrid vehicle.

The invention allows a measurement of the temperature inside the battery module which is much closer to the maximum temperature inside the cells.

Claims (9)

Battery module (1) comprising two adjacent electrochemical cells (1a, 1b) each comprising a facing wall (4a, 4b) and a temperature sensor (2), characterized in that the temperature sensor (2) is arranged between the walls (4a, 4b) of the electrochemical cells (1a, 1b). Module according to Claim 1, characterized in that it comprises a slice (5) of thermal insulation sandwiched between the walls (4a, 4b) facing the two electrochemical cells (1a, 1b), the sensor (2) temperature being disposed between one of the walls (4a) and the slice (5) of thermal insulation. Module according to Claim 2, characterized in that each wall (4a, 4b) is covered with an external layer (3a, 3b) of electrical insulation, the temperature sensor (2) being placed between the layer (3a, 3b) ) external electrical insulation of this one of the walls (4a) and the edge (5) of thermal insulation. Module according to Claim 3, characterized in that the outer layer (3a, 3b) of electrical insulation and/or the edge (5) of thermal insulation is made of PET plastic. Module according to any one of the preceding claims, characterized in that the temperature sensor (2) comprises a thermocouple as sensitive element. Module according to Claims 1 to 4, characterized in that the temperature sensor (2) comprises a film as sensitive element. Module according to claim 3 or claim 4, characterized in that the temperature sensor (2) comprises as sensitive element a coating deposited on the outer layer (3a, 3b) of electrical insulation. Battery characterized in that it comprises a battery module (1) according to one of the preceding claims. Motor vehicle comprising an electric traction motor, characterized in that it comprises a battery according to the preceding claim for supplying the electric traction motor.