RU2021540C1 - Device for automatic discharge and charge of group of cells - Google Patents

Abstract

FIELD: mining electric engineering. SUBSTANCE: device has series-connected transformer, switching point, rectifier and current regulator whose output is connected via series-connected electronic timer and logic element with cell switching point. Additionally device is provided with protection member, starting button, monitoring and control unit, load group, additional rectifier, stand-by power source, automatic switch and circuit breaker. All units and members are electrically connected to one another with new couplings which form charging, discharging, supplying and control circuits. EFFECT: increased service life of cells due to exclusion of their polarity reversal and noncontrolled charge. 1 dwg

Description

 The invention relates to mining electrical engineering and automation, in particular for the discharge and charge of sealed batteries of portable mine equipment and devices.

 A number of devices for discharging and charging batteries are known in domestic and foreign practice.

 A similar technical solution is the method for ed. N 1450041, containing a transformer, two rectifiers, a stabilizer, a start circuit, a time sensor and a block of logic elements.

 The disadvantages of this device include the possibility of deep discharging and reloading of individual batteries, which leads to their premature failure.

 Closest to the proposed invention in terms of technical nature and the achieved result is a device according to auth. N 465683, comprising a transformer, a rectifier, a switching unit, a current stabilizer and a logic element with inputs connected to the battery terminals and a control panel and an output with a switching unit.

 The disadvantages of this device is the abnormal charge of any battery, since the charge is controlled only by the voltage reached on it, which also leads to premature failure of the batteries, especially sealed ones.

 The purpose of the invention is to increase the service life of the batteries by eliminating the possibility of their overloading during discharge and their abnormal charge.

 This goal is achieved in that the electrical circuit of the device for automatically discharging and charging a group of batteries is equipped with an electronic time switch, a protection element, a start button, a control and control unit, a load group, an additional rectifier, a backup power source, an automatic switch and a switch, and a logic element made with an additional switching node, while the first and second outputs of the backup power source are connected respectively to the second and third inputs eating, and the first two outputs of the switch, one through a transformer, a switching unit, a rectifier and a current stabilizer, and the other through an automatic switch are connected to the first input of an electronic time relay, the first output of which is connected through a logic element to the input of a group of series-connected terminals, while the first the inputs of the control and management unit are connected to each of them and the inputs of each of the loads are connected to them through a logic element, the second input of the time relay is connected to the output of the start button through the protection element , a control and control unit and a logic element, the other two outputs of the time relay are connected one to the second input of the protection element, the other to the first input of the control panel, the second input of which is connected to the output of the logic element, and the second output of the control unit is connected to the second input of the first switching unit and the output of the control panel, the input of the additional rectifier is connected to the second output of the transformer, the third output of which is connected to the third input of the switch, where the output of the additional rectifier and the second output are switched STUDIO connected to the remote control inputs, control unit start button and the time relay and the second input switch is connected to a third output switch.

 A device for automatically discharging and charging a group of batteries, the structural diagram of which is shown in the drawing, consists of a backup power source 1, switch 2, automatic switch 3, additional rectifier 4, transformer 5 with several outputs of the secondary windings, switching unit 6, rectifier 7, current stabilizer 8, an electronic time relay 9, a logic element 10 that also performs the function of an additional switching unit, a group of terminals 11 with batteries, a start button 12 (the entire discharge-charge cycle ), protection element 13, control and management unit 14, load group 15, respectively, to the number of batteries and control panel 16, which also has sound and light signaling devices. In this case, the first output of switch 2, the first group of outputs of transformer 5, switching unit 6, rectifier 7, current regulator 8 and the first output of backup power supply 1, the second output of switch 2, and the first output of automatic switch 3 are connecting connections in the form of two parallel charging chains, the outputs of which are connected to the first input of the electronic time relay 9, the first output of which is connected through a logic element 10 to the input of a group of series-connected terminals 11 with a battery mi, and one output of each of them is connected to the control and control unit 14, and the other through the logic element 10 with the corresponding load 15, the output of the start button 12, the protection element 13, the control and control unit 14, the logical element 10 are connecting connections in the form of a control chain that is connected to the second input of the electronic time switch 9, the other two outputs of which are connected: one with the input of the protection element 13, and the other with the first input of the control panel 16, the second input of which is connected logically element 10, and the second output of the control unit 14 and the output of the control panel 16 are connected to the second input of the first switching unit 6, the input of the additional rectifier 4 is connected to the second output of the transformer 5, the third output of which is connected to the third input of the automatic switch 3, where the output of the additional rectifier 4 and the second output of the automatic switch 3 are connected to the inputs of the remote control 16, the control and control unit 14, the start button 12 and the electronic time relay 9, and the second input of the automatic switch 3 is connected via a third switch output 2 to the second output backup power supply 1.

 The device operates as follows. When the switch 2 is turned on, the mains voltage is supplied to the transformer 5, to the two secondary windings of which the automatic switch 3 and the additional rectifier 4 are constantly connected. The first automatic disconnects the device’s electrical circuit from the backup power supply circuit 1, and the second rectified voltage supplies the electronic circuit power circuit : control panel 16, control and control unit 14, time relay 9 and start button input 12. In the absence of supply voltage, switch 3 is turned off and automatically connects the circuits of these circuits to the backup power source 1 through a closed switch 2.

 Further, initially, all terminal pairs 11 ("+" and "-") are constantly bridged, and the absence of a minimum discharge voltage on them, which is controlled by block 14, forces the logic element 10 to connect them together in series, disconnecting at the same time each of its load 15. Thus Thus, the logic element 10 also performs the function of an additional switching node.

 When the battery is connected to the terminal pair 11 with a voltage lower than the minimum and installed in its corresponding cell, the jumper of the block 14, "+" and "-" of the terminal pair 11 is opened and at the same time, using the switching unit 6, switching one or another secondary winding of the transformer 5, and therefore, voltage, depending on the charging load (one or more rechargeable batteries). Thus, all discharged to the required battery level are interconnected in series, and the terminals in the cells where they are not installed are bridged, thereby forming a continuous closed charge circuit through cell 10. At the same time, it turns out to be closed through the logic element 10 and the control circuit of the time relay 9, thus preparing the device for the battery charge cycle, which is also reflected using light signaling devices in the form of individual LEDs and a common display on the control panel 16. If necessary, the secondary windings of the transformer 5 can be connected manually from the remote control 16. The time relay 9 is activated and starts counting the charging time by connecting the batteries to a constant charging current, the required parameters obtained using a rectifier 7 and a current stabilizer 8. At the same time, through the closed start button 12, it is connected to the supply voltage and the protection element 13 is self-locking, which disconnects the discharge voltage control in the battery unit 14 of the circuit for the duration of the charge, thereby eliminating their self-discharge in the event of an emergency shutdown of the main power supply in the cycle and also eliminating the ability to turn off the time relay 9. The charge mode is terminated and the battery group is turned off when the charge time is equal to a fixed, while the remote control 16 turns on sound signal. Spontaneous discharge of the batteries is excluded, since the protection element 13 continues to be turned on by self-locking.

 Moreover, each time before the start of the next discharge-charge cycle, it is necessary to press the start button 12, disconnecting the protection element 13 from the power circuit and connecting to the terminals 11 the voltage control circuits in unit 14. Moreover, if at least one battery is not discharged to a voltage below the minimum value, in his control circuit, a threshold control element (relay) is triggered, which instructs the logic element 10 to connect this battery to the corresponding load 15, turning it on from the common charge circuit. At the same time, the logic element 10 breaks the control circuit connected to one of the inputs of the time relay 9, which excludes its inclusion and the supply of charging current to the batteries. This lasts until all connected batteries are discharged, and then automatically turn on in the charging circuit of the above-described charge mode.

 Thus, the advantage of the proposed technical solution is to increase the service life of the batteries by eliminating the possibility of their recharging during discharge and their unnormalized charge, which is achieved by introducing the above additional components and elements with their new relationships into the device, and this allows to obtain a significant economic effect.

Claims (1)

 A DEVICE FOR AUTOMATIC DISCHARGE AND CHARGE OF A BATTERY GROUP, containing a transformer, which is connected through a series-connected switching unit and rectifier to a current stabilizer, a logic element, a group of terminals for batteries and a control panel, characterized in that it is equipped with an electronic time switch, a protection element, a button start-up, control and management unit, group of loads, additional rectifier, redundant power supply, automatic switch and switch, with the first and volts The outputs of the backup power supply are connected respectively to the first and second inputs of the switch, and the first output of the switch is connected to the input of the transformer, the second output of the switch through the automatic switch is connected to the output of the current stabilizer and to the first input of the electronic time relay, the first output of which is connected via a logic element to the input of a group of series-connected terminals, each of which is connected directly to the first inputs of the control and control unit, and through the logic element, to the input each load, the second output of the electronic time relay is connected to the input of the protection element, and the third to the first input of the control panel, the second input of which is connected to the output of the control and control unit, and the third to the output of the logic element, the second output of the control and control unit and the output of the control panel is connected to the second input of the switching unit, and the input of the additional rectifier is connected to the second output of the transformer, the third output of which is connected to the third input of the automatic switch, the output of the additional rectifier and the second output of the automatic switch are connected to the inputs of the control panel, control unit and electronic time relay and through the start button to the input of the protection element, and the second input of the automatic switch is connected to the third output of the switch, the third input of the electronic time relay is connected through a logic element with the output of the control and management unit, the third input of which is connected with the output of the protection element.

Images