DE3508403C2 - - Google Patents

Description

The invention is based on an intrinsically safe current supply system for telecontrol devices with the The preamble of the features specified. they concerns the field of automation and telecontrol technology and particularly refers to systems for centralized Power supply for monitoring and control objects in Operated with an explosive medium.

The invention can be most effective for feeding the monitored points of telecontrol systems and monitoring Safety and control objects with intrinsically safe voltage in Operated with explosive medium and for security reduced energy consumption from the chip source and increased system reliability and the intrinsically safe power of the voltage source will.

The centralized supply of the monitored points of Telecontrol systems and monitoring and control objects, such as donors, actuators and. a., with intrinsically safe voltage in Operated with explosive medium, e.g. B. in coals digging poses considerable difficulties, such as that guaranteeing operational safety at a an interruption or short circuit in the connection line occurring discharge, as doing so in the discharge one in the distributed inductance and capacitance stored energy and an energy from the voltage source arrives so that an explosion of the medium can occur.  

Currently, the power sources with spark protection units that discharge the circuit from the Energy of the voltage source in the event of a short circuit or one Interruption in the cable connection line isolated. Each however, these measures are not sufficient since the ver shared inductance and capacitance of the cable connection stored energy an explosion of the medium in the pipe In the event of an interruption or a short circuit in the ver binding line even when the voltage source is switched off through the spark protection unit.

The security difficulties mentioned with the electricity supply of the monitored points of telecontrol systems and of the monitoring and control objects via a branched Connect  Cable management has recently been reduced as a result be that the cable connection line by side conclusions (for example by diode bridges). This ge allows the intrinsically safe power of the power source increase, because at the interruption or short-circuit point of the Circuit only those in the distributed inductance and Ka capacity stored energy of the unbranched section the connecting line arrives. The distributed in the Induk activity and capacity of the branches stored energy not to the unloading point, but is bridged.

The intrinsically safe power supply from telecontrol has extensive use in telecontrol systems Monitoring and control of underground objects in coal found pits. For example, with a telecontrol system for monitoring and controlling the workflow, the in the booklet "Dispatcher tax and connection systems in the coal mines of the capitalist countries "(Central economic institute for express information, Moscow 1982, Edition 4, p. 10), all functional units the monitored body from one in each monitored body provided voltage stabilizer.

The mentioned telecontrol system contains on the control panel a power supply part that branches over a tree-like te cable connection line with the individual monitored positions len is connected. Each monitored location comprises in series switches a voltage stabilizer and a unit of Function modules.

However, in this system they are in the waiting state voltage stabilizers of the monitored points low efficiency, and since at any time only one monitored point is in the working state; so this does not allow the scope of the system without additional intermediate amplification of the signals.

When switching on the power supply part at the wheel all monitored points are fed simultaneously. Upon arrival of the code that the address of the monitored Contains an exchange of information between the Tax office and the monitored body instead. At the same time  reduces the supply of all monitored points from the control center the scope of this system. For the increase in the effective range is an additional one Intermediate amplification of the signals required. Furthermore makes a break or a short in everyone dear point of the connecting line the system completely ar unable to work. Because there are no elements in this system are that bridge the interruption or short-circuit points or isolate it from the rest of the system such a system is not very safe.

The generic intrinsically safe is free from this lack Remote power supply system after the SU-PS 9 69 911. It contains a power supply power supply, consisting of a series connection of a Ge bers for the start of discharge, a spark protection element and one Voltage source whose output is connected to the input of the encoder for Ent loading is started, a tree-like branched connection line that crosses the branch points and branch lines Power supply section with the individual monitored points (Consumers) connects, each of which has a span voltage stabilizer, whose input with the branch device and its output with the inputs of an address decoder and a functional unit is connected.

In the aforementioned power supply system, the voltage from the power supply via a branched connection line tion to the individual monitored points. The in the Branch points existing shunts allow the in the distributed capacitance and inductance stored energy to separate from the interruption or short-circuit point.

However, in this system, the voltage of the current ver source of supply simultaneously over all branches all ver fed to users. When the voltage source is switched off charging of the total distributed capacity and inductors the branched connecting line and the consumer. The large charging current calls the dynamic spark to respond protection element, which indicates a reduction in current and the voltage of the source and consequently a decrease in the  intrinsically safe performance is necessary.

In addition, the diminished in all branches of the branched connecting line existing voltage the Reliability of the system because a short circuit of the ver tie line in any branch to the failure of the entire system due to the shutdown of the voltage source the same leads.

Through DE 26 44 767 A1 and DE 28 31 771 B2 ripple control receivers are known which have a voltage stabilizer, a decoder and a switch for that Switching an electrical load at the end of the branch tion, but not at the branch point.

The invention has for its object an own safe power supply system for telecontrol devices to create the type described above, which a improved security against sparking, in particular based on short circuits in the area of the individual over woke up spots, offers and decreased idle has performance.

This task is performed by the in the characterizing part of the features specified solved.  

This allows the faulty section with the Un break or short circuit from the remaining part of the Isolate system and thus its partial function ability to maintain, which makes the function effective speed of the telecontrol systems is significantly increased since their Area of effectiveness and functional reliability increases significantly.

An embodiment of the invention is as follows with reference to which is a block diagram of the system illustrative drawing explained in more detail.

The intrinsically safe power supply system for telecontrol devices contains a Stromver supply part 1 , the line 2 branched through a tree-like connection with the monitored points 3 ^I , 3 ^II . . . 3 ^{n is} connected. The power supply part 1 contains in series a transmitter 4 for the start of discharge, a spark protection element 5 and a voltage source 6 , the output of which is connected to the input of the sensor 4 for the start of discharge. The connec tion line 2 contains branch points 7 and branches 8 . It can have one, two or more branches (I, II, n) .

Each monitored point 3 comprises: a unit 9 which is accommodated directly in the branch point 7 of the connecting line 2 and a unit 10 which is arranged on the monitoring and control objects. The unit 9 arranged in the branching point 7 of the connecting line 2 contains:
an additional voltage stabilizer 11 which is , for example, se with field-effect transistors operated in the off state, the input of which is connected directly to the branching point 7 of the connecting line and the output of which is connected to the input of the decoder 12 for the address of the monitored point 3 ; a controlled switch 13 , which is designed, for example, with a transistor operating as a switch or with a relay with protective tube contacts, the input of which is connected directly to the stabilizer 11 and the output of which is connected to the start of branch 8 , the controlled input of the switch 13 is connected to the output of the decoder 12 for the address of the monitored point 3 . Each unit 10 of the monitored locations 3 contains a voltage stabilizer 14 connected in series, which is designed, for example, with Zener diodes and a power transistor as an output element, and a functional unit 15 , which is not included via remote measurement, remote signaling and remote control modules ) has.

The system works as follows:

When the voltage is applied from the power supply part 1 to the connecting line 2 , all decoders 12 are fed with the address of the monitored points via the additional voltage stabilizers. The supply voltage from the voltage source 6 of the power supply unit 1 does not get into the branches 8 of the connecting line 2 , since the control switches 13 of the monitored positions 3 are open. When a command for the selection of the next, monitored position, for example the monitored position 3 ^I , arrives, the decoder 12 for the address of the unit 9 brings the ge controlled switch 13 into the closed state, the unit 10 of the monitored position 3 ^I from the power supply unit 1 via the connecting line 2, the switch 13 and the branch 8 is supplied. The voltage supplied to the unit 10 of the monitored point in question brings the functional unit 15 into the working state via the voltage stabilizer 14 . The unit 10 of this monitored point begins to work in accordance with the control commands arriving from the control unit (not shown).

When a command for the selection of the next monitored location arrives, the supply voltage at the monitored location 3 ^{I is switched off} by the decoder 12 for the address of the monitored location via the switch 13 , and the monitored location 3 ^I is brought into the waiting state, whereby the branch 8 is de-energized together with the unit 10 of the monitored position 3 ^I.

All monitored positions 3 ( 3 ^I , 3 ^II ... 3 ⁿ ) work in a similar way. In the emergency state, for example at an interruption or short-circuit in the branch 8 of watched location 3 ^I or in the unit 10 of the respective watched location, the arrival of a command for selecting the watched location 3 ^I of the switch 13 is closed, and the spark protection element 5 and the encoder 4 address the start of discharge of the power supply unit 1 , which switch off the voltage of the voltage source 6 . The system is switched off. Furthermore, the system works correctly when applying the voltage from the power supply unit 1 to the connecting line 2 and when a command for the selection of the next monitored point, for example the monitored point 3 ^II , is received, since the supply voltage to the faulty branch 8 of the monitored point 3 ^I does not arrive, so that no emergency shutdown of the power supply unit 1 will take place.

The use of the intrinsically safe power supply system stems for telecontrol devices in companies with explosions endangered medium significantly reduces energy consumption from the central voltage source, allows redistribution the energy of the voltage source between the consumer objects, which offers the possibility of the maximum distance from the Control point to the monitored points without additional Si Significantly increase signal amplification. Beyond that by moving the address part of the monitored body in the unbranched section and the full shutdown of the Branches and the main parts of the monitored areas in the waiting room operated the electrical capacitance and inductance of the ver binding line is reduced, which offers the possibility of intrinsically safe power source performance and reliability increase the system because of a lock and detection the faulty branch from the control center and on normal functioning of the rest of the system light becomes.

Claims (2)

Intrinsically safe power supply system for telecontrol devices,

• - The one power supply part ( 1 ), consisting of a series connection of a sensor ( 4 ) for the start of discharge, a spark protection element ( 5 ) and a voltage source ( 6 ), the output of which is at the input of the sensor ( 4 ) for the start of discharge, and
• - Which has a tree-like branched connecting line ( 2 ) which connects the power supply part ( 1 ) to the individual monitored points ( 3 ) via branch points ( 7 ) and branch lines ( 8 ),
• - Each monitored point ( 3 ) comprises a voltage stabilizer ( 14 ), the input of which is connected to the branch line ( 8 ) and the output of which is connected to the inputs of a functional unit ( 15 ), and
• - contains a decoder ( 12 ) for the address of the monitored point ( 3 ),

characterized in that

• a) the decoder ( 12 ) is arranged in the branching point ( 7 ) of the tree-branched connecting line ( 2 ) to the monitored point ( 3 ) and is equipped with an additional voltage stabilizer ( 11 ) in the branching point ( 7 ),
• b) the input of the additional voltage stabilizer ( 11 ) is connected directly to the tree-branched connecting line ( 2 ) and its output is connected directly to the input of the decoder ( 12 ), and
• c) the decoder ( 12 ) is controlled by a switch ( 13 ), which is also arranged at the branching point ( 7 ), the input of which is connected to the tree-like connecting line ( 2 ) and the output of which is connected to the branch line ( 8 ) watch point ( 3 ) is connected.