RU126209U1 - POWER CONTROL BOARD - Google Patents

Abstract

1. A power control panel, comprising a network parameter monitoring unit, three inputs of which are connected to an industrial network and two power units, a network switching unit with 220 V indicating elements, a fourth input of which is connected to a fourth output of a network parameter monitoring unit, a consumer protection and connection unit with 220 V indication elements, the input of which is connected to the output of the network switching unit, and the outputs - with six consumer lines, the protection and connection unit is secondary with 27 V indication elements, the outputs of which are connected They are equipped with six consumer lines, a voltage control unit with a control, monitoring, signaling board and 27 V indication elements, characterized in that it additionally contains a protection unit, five inputs of which are connected to three outputs of the network parameters control unit, with ground circuits and the second output of the unit network switching, three outputs are connected to three inputs of a network switching unit, and the fourth is connected to the fourth input of a network parameters control unit, a protection and control unit, three inputs of which are connected to two voltage sources 27 V and a battery, a switching unit with indication elements 27 V, two outputs of which are connected to two inputs of the protection unit and connecting a secondary, the first three inputs are connected to the first three outputs of the protection and control unit, the second three inputs are connected to the second three outputs of the protection unit and control and three inputs of the voltage control unit, a lighting connection and control unit with 27 V display elements, two inputs of which are connected to two outputs of the switching unit, and the outputs - with two lines of lighting circuits. 2. Shield by

Description

The utility model relates to the field of conversion and distribution of electrical energy and can be used in mobile automated control systems.

Known for the technical essence closest to the claimed utility model is a power control panel containing a network switching unit, a primary network control unit and a phase sequence unit (corresponding to the network parameter control unit of the proposed utility model), a consumer connection unit (corresponding to the protection and consumer connection unit of the proposed useful models), a secondary voltage switching unit (corresponds to a secondary protection and connection unit), a secondary network control unit and a charge control unit a accumulator (correspond to the voltage control block of the proposed utility model), a control and signaling board (corresponds to the control, control, and alarm board of the proposed utility model), indicator elements (correspond to the indication elements of the proposed utility model). The disadvantage of the prototype is the lack of functionality of the device, limiting its operational characteristics (lack of a protection system for inputs of 380/220 V, a protection system, control and switching for inputs of 27 V, battery (battery) and a connection system, lighting control does not allow the use of the shield in products that are not equipped with these systems).

The technical task of the utility model is to create a device with advanced functional and operational capabilities.

The problem is solved with the following technical results:

- protection of 380/220 V AC electric power sources against overcurrent, protection of personnel from electric shock;

- protection of electric power sources of 27 V and the battery against overcurrent and protection of voltage switching;

- voltage switching from 27 V power sources and battery is provided;

- Provided connection and lighting control.

To achieve these technical results, the claimed power control panel, comprising a network parameter monitoring unit, three inputs of which are connected to an industrial network and two electrical units, a network switching unit with 220 V indication elements, a fourth input of which is connected to a fourth output of a network parameter monitoring unit, a protection unit and consumer connections with 220 V indication elements, the input of which is connected to the output of the network switching unit, and the outputs - with six consumer lines, a protection and connection unit secondary with 27 V indication elements, the outputs of which are connected to six consumer lines, the voltage control unit with a control, control, signaling board and 27 V indication elements, additionally contains a protection unit, five inputs of which are connected to three outputs of the network parameters control unit, with circuits grounding and the second output of the network switching unit, three outputs are connected to three inputs of the network switching unit, and the fourth is connected to the fourth input of the network parameter monitoring unit, the protection and control unit, the three inputs of which are dined with two 27 V voltage sources and a battery, a switching unit with 27 V indication elements, two outputs of which are connected to two inputs of the protection and secondary connections, the first three inputs are connected to the first three outputs of the protection and control unit, the second three inputs are connected to the second three outputs of the protection and control unit and three inputs of the voltage control unit, a lighting connection and control unit with 27 V indication elements, two inputs of which are connected to two outputs of the switching unit, and the outputs - with two circuit lines svescheniya.

At the same time, the network parameters control unit contains three voltage indicators and three relays for monitoring the presence and phase rotation; the protection unit contains a differential switch for inputting the NETWORK, three circuit breakers with three independent releases, three relays, a protective disconnecting device containing a safety relay, a transformer, a button and a socket for grounding circuits; the network switching unit contains three voltage switching paths, one terminal of the contactor winding is connected to the phase of the corresponding channel, and the second through normally closed contacts of two other contactors to the network parameter monitoring unit, the inputs of the contactors are connected to the corresponding outputs of the protection unit, and the outputs are combined and connected to the inputs of the block of protection and connection of consumers; the protection and control unit contains three current sensors connected by inputs and outputs to the control, monitoring, signaling board, display elements> In 27 V1,> In 27 V2, In battery, <27 V,> 27 V, = 27 V, connected to corresponding outputs of the control, control, alarm board, battery connection (disconnect) toggle switch, reset button; the switching unit contains three 27 V voltage switching paths, each of which consists of a contactor and an indication element, the terminals of the contactor windings are connected to the terminals of the control, monitoring, and alarm boards, the inputs of the contactors are connected to the corresponding outputs of the protection and control unit, and the outputs are 27 V1 and the battery combined; the lighting connection and control unit contains two circuit breakers, a contactor, two relays, a toggle switch for selecting the lighting mode and six display elements of 27 V; the control, monitoring, and alarm board contains three 27 V voltage control paths, three 27 V2, 27 V1 voltage control paths, a battery consisting of each of a comparator, logic elements, a power switch, three current sensor output voltage control paths with memory elements, a path of formation time delay, consisting of logic elements, binary counter, resistors, capacitor, voltage source +/- 15 V; the 27 V indication element consists of a series-connected resistor and an LED; The 220 V indication element consists of a series-connected resistor, diode and LED, in parallel with which a second diode is connected in reverse polarity.

The protection unit provides protection of 380/220 V AC power sources against overcurrent, protection of personnel from electric shock when dangerous voltages appear on the case, as well as with a protective shutdown device.

The protection and control unit protects the 27 V power sources and the battery against current overload and provides voltage switching control.

The switching unit provides voltage switching from 27 V power sources and batteries to consumers.

The lighting connection and control unit provides connection and control of lighting modes.

The utility model is presented in the drawings:

figure 1 is a structural diagram of a shield,

figure 2 is an electrical schematic diagram of a unit for monitoring network parameters,

figure 3 - electric circuit diagram of the block of protection,

figure 4 - electric circuit diagram of the block switching networks,

5 is a schematic diagram of a circuit diagram of a consumer protection and connection unit,

6 is a schematic circuit diagram of the protection and control unit and the voltage control unit,

Fig.7 is an electrical schematic diagram of a switching unit,

Fig. 8 is an electrical schematic diagram of a protection and secondary connection unit,

Fig.9 is an electrical schematic diagram of a unit for connecting and controlling lighting,

figure 10 - electric circuit diagram of the control board, control, alarm,

11 is an electrical schematic diagram of an indication element 220 V,

12 is a schematic diagram of an electrical circuit of an indication element 27 V.

The power control panel contains:

block 1 control network parameters (BKPS), block 2 protection (BZ), block 3 switching networks (BKS), block 4 protection and connection of consumers (BZPP), block 5 protection and control (BZU), block 6 switching (BC), voltage control unit 7 (BKN), secondary protection and connection unit 8 (BZPV), lighting connection and control unit 9 (BPUO), as well as input and output circuits: 10 - connection of a protective disconnecting device, 11 - connection of an industrial network and two electrical units 12 - connecting a voltage source of 27 V2, 13 - connecting a voltage source of 27 V1, 14 - connecting battery, 15 - output voltage 380/220 V to line 1 - line 6, 16 - output voltage 27 V to line 7 - line 12, 17 - the first output of the lighting circuits, 18 - the second output of the lighting circuits, control board 19, control alarm (PUKS).

Figure 2-9 introduced the following notation:

C1, C2 - capacitors; DA1 - stabilizer chip; DA2-DA6 - comparator microcircuits; DD1 - 2I-NOT chip; DD2, DD6 - inverters; DD3 - triggers; DD4 - binary counter; DD5, DD9 - 2I microcircuit; DD7, DD8 - power keys; UZ - voltage source +/- 15 V; RP1-RP6 - potentiometers; R1-R29 - resistors; VD1-VD4 - diodes; BF1 - sound alarm element; I220 V1-I220 V9 - display elements 220 V; I27 V1-I27 V23 - display elements 27 V; KM1-KM7 - contactors; RT1 - operating hours counter; QF1 - differential switch; QF2-QF18 - circuit breakers; SA1, SA2 - toggle switches; SB1 - button; ХР1-ХР6 - forks; XS1-XS14 - sockets; ХТ1-ХТ21 - terminals.

The power control panel operates as follows.

The voltage from one, two or three power sources of three-phase alternating current 380/220 V is supplied to input (s) ХР1, ХР2, ХР3 БКПС 1, while the voltage indicators indicate the phase voltages of the source (s) - NETWORK, E / UNIT 1 , E / UNIT 2, and on the relay for monitoring the presence and alternation of phases with the correct phase rotation the green indicator of a single will glow, the executive contacts of the relay will be closed, through which the neutral of the selected voltage source when the corresponding circuit breaker is turned on (by input the NETWORK - and the differential switch) БЗ 2 will be connected to the winding of the contactor BKS 3, switching the voltage of the selected source through the normally closed contacts of other contactors, which blocks the simultaneous inclusion of several contactors. If there is a voltage of 380/220 V, the output of BCS 3 (input BZPP 4) will glow the display element KMS (or) KMA1, (or) KMA2.

Circuit breakers QF5-QF7 BZPP 4 switch three-phase voltage on lines 1-3, respectively, for connecting consumers using XS2-XS4 outlets, circuit breakers QF8-QF10 switch single-phase voltage on lines 4-6, respectively, for connecting consumers using sockets XS5-XS7. The presence of voltage on the lines causes the glow of the corresponding display elements.

Through plugs ХР4-ХР6 and current sensors БЗУ 5 voltage from voltage sources 27 V and battery, which is a source of constant voltage 24 V for short-term power supply of consumers 27 V, are supplied to terminals ХТ1-ХТ3 ПУКС 19 for analysis and are transmitted to BC 6. From terminals ХТ8, ХТ9 ПУКС 19 voltage +/- 15 V is supplied to the sensors, and the outputs of the sensors are connected to the terminals ХТ5-ХТ7. The minus conclusions of voltage sources 27 V and battery are combined and connected to terminal ХТ4 ПУКС 19 and are transmitted to BC 6. Results of analysis of voltage of sources and batteries, output parameters of current sensors are displayed using indication elements BZU 5 and BC 6. In the presence of voltages, signals are generated for switching on of the corresponding contactors of BC 6. When an overload of sources or batteries occurs, the output signal (s) of the sensors exceeds (are) the set threshold and the signal (s) of switching on the corresponding contactor (s) of BC 6 is removed (shrunk) Re-enable the disconnected source or battery - after pressing the RESET BZU 5. The operating time counter works when there is voltage (s) at the inputs of the PUKS 19.

BK 6 switches the voltage from 27 V sources and the battery voltage in two directions. In one direction - the voltage of one source is 27 V and the battery voltage, in the other - the voltage of the second source is 27 V. The constant voltage from each of the outputs of the BC 6 is supplied to three circuit breakers QF11-QF13, QF14-QF16 BZPV 8 and two circuit breakers QF17 , QF18 BPOO 9, respectively.

XS8-XS10 sockets (“LINE 7” - “LINE 9”) and corresponding indication elements are connected to the outputs of the QF11-QF13 BZPV 8 circuit breakers and the corresponding display elements, and XS11-XS13 sockets (“LINE 10” - “are connected to the outputs of the QF14 – QF16 circuit breakers” LINE 12 ") and corresponding display elements.

The voltage supplied through the circuit breaker QF17 BPOO 9 provides the work of emergency and camouflage lighting. When you turn on the toggle switch LIGHTING in the position GENERAL, the windings of the relays KV5, KV6 are de-energized and, through the normally closed contacts of these relays, the voltage is connected to the emergency lighting circuits. When the toggle switch is ON, the LIGHTING is in the MACK position and if there is no 0 V at the inputs Blocked. 1, Block. 2 sockets XS14, XS15 (door switch contacts open) voltage is connected to the emergency lighting circuits. If there is 0 V at the inputs Blocked. 1, Block. 2 sockets XS14, XS15 (door switch contacts closed) relays KV5, KV6 turn on and the voltage is connected to the camouflage lighting circuits.

The voltage supplied through the circuit breaker QF18 BPOO 9, provides the work of general lighting. When you turn on the toggle switch LIGHTING to the position GENERAL, the coil of the contactor KM7 is de-energized and through normally closed contacts of the contactor the voltage is connected to the general lighting circuits. When the LIGHT switch is turned on in the MACK position, the KM7 contactor turns on and the voltage is disconnected from the general lighting circuits. The presence of voltage in the lighting circuits causes the glow of the corresponding display element.

PUKS 19 controls the voltage and currents of the load of 27 V sources, the voltage and current of the battery load and generates the on / off signals of the corresponding contactors, BC 6, converts 27 V to +/- 15 V for current sensors, +9 V for power chip PUKS 19, forms a time delay before disconnecting the battery contactor when the battery discharge reaches the limit value.

Voltages from voltage sources 27 V and battery through the terminals ХТ1-ХТ4, voltage dividers RP1, RP5, RP6 are supplied to the inverted inputs of the comparators DA5.2, DA6. Comparators DA5.2, DA6.1 control the voltage of voltage sources 27 V 1 and 27 V2, and DA6.2 - the battery voltage, for which their non-inverse inputs through dividers R13, R19; R14, R20; R15, R21 reference voltages are applied. Variable resistors allow you to adjust the threshold of the comparator. When the voltage of the voltage sources is 27 V below 25 V and the battery voltage is lower than 20.5 V, the comparators are switched to the state of a logical unit, which leads to the disconnection of the switching signals of the contactors of the voltage sources of 27 V and the appearance of a signal on the terminal ХТ20 (Battery R) for a certain period of time from two to five minutes, formed by the counter DD4 using microcircuits DD1.3, DD1.4, DD2.4 and a generator on microcircuits DD1.1, DD1.2, capacitor C2, resistors R5, R6 before removing the signal to turn on the battery contactor.

Voltages from 27 V voltage sources and batteries through VD4-VD6 diodes also go to the inverted inputs of the comparators DA4.1, DA4.2, DA5.1, and to their non-inverted inputs through dividers R10, R16; R11, R17; R12, R18, reference voltages are supplied, providing control of the voltage value <26.7 V,> 27.6 V, = 27-27.4 V. The outputs of the comparators through inverters DD2.5, DD2.6, DD4.1 are connected to the terminals XT11-XT13.

The outputs of the 27 V current sensors and the battery through the ХТ1-ХТ4 terminals are connected to the load resistors R1-R3 and through the VD1-VD3 diodes are fed to the non-inverse inputs of the comparators DA2.1, DA2.2, DA3.1, and to their inverse inputs through voltage dividers RP2-RP6 reference voltages are applied.

The circuit is powered from +27 V (inputs ХТ1 and ХТ2) and from +24 V (input ХТ3) via VD4-VD6 diodes using a quenching resistor R4 and a chip DA1. A voltage source +/- 15 V is installed on PUKS 19 to power current sensors. The audible alarm is activated when the battery is discharged, and the battery is considered discharged when the voltage drops to 20.5 V.

The inventive power control panel is a multifunctional device with enhanced operational capabilities and is used mainly in mobile products that are not equipped with power supply, protection and lighting systems. In addition, the shield has acceptable dimensions and weight.

The source of information.

Patent RU 2406201 C2; IPC Н02В 15/00; 2010 (prototype).

Claims (10)

1. A power control panel, comprising a network parameter monitoring unit, three inputs of which are connected to an industrial network and two power units, a network switching unit with 220 V indicating elements, a fourth input of which is connected to a fourth output of a network parameter monitoring unit, a consumer protection and connection unit with 220 V indication elements, the input of which is connected to the output of the network switching unit, and the outputs - with six consumer lines, the protection and connection unit is secondary with 27 V indication elements, the outputs of which are connected They are equipped with six consumer lines, a voltage control unit with a control, monitoring, signaling board and 27 V indication elements, characterized in that it additionally contains a protection unit, five inputs of which are connected to three outputs of the network parameters control unit, with ground circuits and the second output of the unit network switching, three outputs are connected to three inputs of a network switching unit, and the fourth is connected to the fourth input of a network parameters control unit, a protection and control unit, three inputs of which are connected to two voltage sources 27 V and a battery, a switching unit with indication elements 27 V, two outputs of which are connected to two inputs of the protection unit and connecting a secondary, the first three inputs are connected to the first three outputs of the protection and control unit, the second three inputs are connected to the second three outputs of the protection unit and control and three inputs of the voltage control unit, a lighting connection and control unit with 27 V display elements, two inputs of which are connected to two outputs of the switching unit, and the outputs - with two lines of lighting circuits. 2. The shield according to claim 1, characterized in that the unit for monitoring the parameters of the networks contains three voltage indicators and three relays for monitoring the presence and phase rotation. 3. The shield according to claim 1, characterized in that the protection unit comprises a differential switch for inputting the NETWORK, three circuit breakers with three independent releases, three relays, a protective disconnecting device containing a safety relay, a transformer, a button and an outlet for grounding circuits. 4. The shield according to claim 1, characterized in that the network switching unit contains three voltage switching paths, one terminal of the contactor winding is connected to the phase of the corresponding channel, and the second through normally closed contacts of two other contactors to the network parameter monitoring unit, the contactor inputs are connected to the corresponding outputs of the protection unit, and the outputs are combined and connected to the inputs of the protection unit and consumers. 5. The shield according to claim 1, characterized in that the protection and control unit contains three current sensors connected by inputs and outputs to the control, monitoring, signaling board, display elements> In 27 V1,> In 27 B2,> In battery, < 27 V,> 27 V, = 27 V, connected to the corresponding outputs of the control, monitoring, alarm boards, toggle switch for connecting / disconnecting the battery, reset button. 6. The shield according to claim 1, characterized in that the switching unit contains three 27 V voltage switching paths, each of which consists of a contactor and an indication element, the terminals of the contactor windings are connected to the terminals of the control, monitoring, signaling board, the inputs of the contactors are connected to the corresponding the outputs of the protection and control unit, and the outputs 27 V1 and the battery are combined. 7. The shield according to claim 1, characterized in that the lighting connection and control unit comprises two circuit breakers, a contactor, two relays, a toggle switch for lighting mode selection and six display elements of 27 V. 8. The shield according to claim 1, characterized in that the control, monitoring, signaling board contains three 27 V voltage control paths, three 27 V2, 27 V1 voltage control paths, a battery, each consisting of a comparator, logic elements, a power switch, three a path for monitoring the output voltage of current sensors with memory elements, a path for generating a time delay consisting of logic elements, a binary counter, resistors, a capacitor, a voltage source of +/- 15 V. 9. The shield according to claim 1, characterized in that the indication element 27 V consists of a series-connected resistor and an LED. 10. The shield according to claim 1, characterized in that the 220 V indication element consists of a series-connected resistor, diode and LED, in parallel with which a second diode is connected in reverse polarity.

Images