RU29408U1 - Accumulator battery - Google Patents

Description

ACCUMULATOR BATTERY

The utility model relates to electrical engineering and can be used in the manufacture of batteries intended for use in low temperature conditions.

Of the known rechargeable batteries (AB), the closest in the set of essential features and the achieved technical result is an AB containing a housing with heaters located in the partitions between the batteries and a temperature sensor (see RF patent 2136085, class HO1M 10/50, 1999).

The disadvantage of this battery is the lack of regulation and maintenance in the optimal temperature range of the battery.

The objective of the utility model is to create a battery, the temperature of which is regulated during operation. This technical result is achieved due to the fact that the battery is equipped with a switchboard with a control unit installed in the battery charge circuit, which allows the heating element to be connected to the charger when the battery temperature is less than the minimum value for this type of battery at a given charge current and the charge circuit is connected to AB in case of exceeding the AB temperature of the minimum permissible value. The presence of a control unit and a switch provide optimal operating conditions for the battery.

It is advisable that the switch with a rise in temperature AB provides a gradual increase in the charging current, limiting the value of the charging current to the maximum permissible charge currents for this type of battery at a given temperature. An increase in the charging current as the battery warms up reduces the charge time.

HOIM 10/50

It is advisable that the heating element was made in the form of a thermocouple, which would provide a cooling mode when exceeding the limit temperature AB, permissible when charging this type of battery.

It is advisable that when the temperature of the battery is reduced to the value set for this type of battery, the switch will ensure that the cooling thermocouple is disconnected from the charger. Using a thermocouple as a heating element allows one device to both heat and cool the battery if necessary.

It is advisable that the thermocouple was made of two independent parts, one of which works in heating mode, and the second in cooling mode. This embodiment of the thermocouple extends the functionality of using the battery.

The analysis of the prior art showed that the claimed combination of essential features set forth in the formula of the utility model is unknown. This allows us to conclude that it meets the criterion of novelty.

The essence of the utility model is illustrated in the drawing and description of the battery.

Figure 1 shows a top view of the AB. Figure 2 shows a section of AB along the line AA. In Fig. 3 shows a section of AB along the line BB

The battery includes batteries 2 located in the housing 1, a heating element 3, connectors 4 with output terminals 7, a temperature sensor 5, a switch with a control unit 6, output terminals 7, connectors 8 with heating elements 3.

AB works as follows. When the battery is charged below a permissible temperature, the control unit switch 6 connects the heating elements 3 through connectors 4 to the output terminals

7 AB and further to the charger, which is not shown in the figures, because it is an external device for the battery and is not part of the battery. The stand out in the heating elements 3 is used to warm up the batteries 1. When the temperature of the batteries reaches the minimum permissible value, the control unit switch 6 connects the charger to the output terminals 7 of the battery and ensures its charge. As the temperature of the battery controlled by the temperature sensor 5 rises, to accelerate the charging process, the value of the charging current is gradually increased within the range of values allowed for current temperature

The above description of the design and operation of the claimed battery shows that this battery can be implemented in practice with the achievement of the claimed technical result. Therefore, the claimed utility model meets the criterion of industrial applicability.

Claims (5)

1. A storage battery containing at least one battery, a housing with a heating element and a temperature sensor, characterized in that it is equipped with a switch with a control unit installed in the battery charge circuit, providing the connection of the heating element to the charger when the temperature is battery the battery is less than the minimum value for this type of battery at a given charge current and connecting the charge circuit to the battery when the battery temperature is exceeded Low battery. 2. The battery according to claim 1, characterized in that the switch, with increasing temperature of the battery, provides a gradual increase in the charging current, limiting the magnitude of the charging current to the maximum allowable charge currents for a given type of battery at a given temperature. 3. The battery according to claim 1, characterized in that the heating element is made in the form of a thermocouple, which provides a cooling mode when exceeding the limit temperature of the battery, permissible when charging this type of battery. 4. The battery according to claim 3, characterized in that when the battery temperature is reduced to a value set for this type of battery, the switch disconnects the cooling thermocouple from the charger. 5. The battery according to claim 3, characterized in that the thermocouple can be made of two independent parts, one of which works in heating mode, and the second in cooling mode.