PL106542B1 - PROTECTIVE BARRIER OF AN INCREDIBLE TRANSMISSION LINE - Google Patents

Description

The subject of the invention is a spark protection barrier safe transmission line, made in the form of a uniform of this block provided with input terminals for the terminal connecting non-intrinsically safe transmission and output lines terminals for connecting the intrinsically safe line.

In the underground workings of every mining plant what the alarm signaling is used for quick and reliable transfer of the report to the disposal a track with an existing threat in underground workings, transmission of a contractual alarm signal by the dispatcher track to the endangered workings or area of the main plant and communication with the crew of the endangered workings.

Until now, it is used for non-methane mines alarm signaling of flameproof construction, and for buildings of methane-fired fireplaces, fire alarms explosive, flameproof or intrinsically safe construction.

Flameproof construction alarm signals are used in methane fields of I, II and III meta-hazard categories new, while in the fields of the IV hazard category only alarm signaling of intrinsically safe construction or special cial.

Non-methane and methane mines with the degree of danger lower than category IV have an alarm signaling in flameproof design, and starting operation fields of the IV category of methane hazard are facing a proposal the problem of the necessity to use an alarm signal in these fields. These mines are therefore confronted with necessity purchase of intrinsically safe alarm signals nym. It then becomes necessary to replace the existing one alarm signaling o2iio3Zczeln? j ni sygailizicje intrinsically safe alarm. It is connected with the reconstruction and replacement of not only signaling devices but also the entire cable network of intrinsically safe alarm signaling on or with the operation of two signaling systems simultaneously.

Simultaneous operation of two alarm signaling systems from an operational and maintenance point of view and for security reasons, this is a disadvantage. Do¬ There is an additional disadvantage of intrinsically safe alarm signaling the necessity of using in each acoustic signaling device a separate, battery-operated power supply. This makes it necessary Replace these batteries frequently and in some cases failure of the alarm signaling.

The object of the invention is to provide such a barrier to turn on the alarm indicator intrinsically safe speech installed in workings mining area in the IV category of methane hazard to the existing downstream flammable signaling network alarm non-sparking. " This goal was achieved by applying the barrier according to of the invention, made in the form of a unitary block of compound looking at the input terminals for non-spark connection safe transmission line and output terminals for connection of an intrinsically safe line. These are barriers two parallel branches of stabilistors connected between input terminals 1 output terminals. The first branch is separated from the second branch, connected in the same way, with arm, and both poles of the other branch are connected to the clamps output via tandem resistors. Each of the two parallel branches consist of two groups in series with * 106 542 106 542 3 combined stabilistors, these groups in each) parallel branches are interconnected by each other.

Use of a protective barrier according to the invention makes it possible to separate the acoustic signaling device by intrinsically safe from a non-intrinsically safe trans line mission and dispatching device. As resistors, line resistance can be used as a safety input transmission, assuming that the minimum length of this lines from the surface to the field boundary of hazard category IV methane gas is 800 m.

The subject matter of the invention is shown by way of example to the embodiment in which fig. 1 shows internal layout of individual elements a protective barrier, a'fit 2 - an example of barrier application protective. * The protective barrier is made in a uniform form block 1 made of a hardenable synthetic resin.

Block * 1 has na-teipwgap five terminals. Input terminals 2 and 3 are used to teach a non-insecure double wire transmission line 4 with a resistance 5 of a single wire.

Terminal 6 is connected to ground and to the center of the first; branches 7 stabilizers. Output terminals 8 and 9 are used for connection of intrinsically safe line 10. Terminals 8 and 9 are mixed connected on the opposite side of block 1 with respect to enclosure buttons 2, 3 and 6. The protective barrier consists of two parallel branches 7 and 12 stabilistors separated in both poles in series with resistors 11 and connected in tandem limiting resistors 12 and 13. In each branches there are two groups of linked stabistors in tandem, with these groups being linked to each other like that. A protective barrier or several barriers are placed in "housing 14, built in the immediate vicinity the boundary of 16 field IV of the methane hazard category and for 4 via line 10 connected to an intrinsically safe signaling device track 15.

According to the invention, the protective barrier is two-level with my symmetrical alternating voltage limiter him. Two double clipping circuits are used, from the top and from the bottom and resistors 13 limit the output current- barriers to the value of intrinsically safe current, so in the norm minimal and emergency operating states of signal systems emergency operation. With a gradual increase in overvoltage voltage at the barrier input, input terminals 2 and 3, current the output is limited by: resistors 13, 11 and 5 resistors 13, the first double termination circuit resistors 11, 5 and stabilistors 12; resistors 13, the first double cutter and the second double cutter non-clipping, consisting of 5 resistors and 7 stabilistors.

Claims (2)

Patent claims 1. The protective barrier of the intrinsically safe transmission line, made in the form of a unitary block equipped with 20 input terminals for connecting the non-intrinsically safe transmission line and output terminals for connecting the intrinsically safe line, characterized by the fact that it consists of two parallel branches (7 and 12) of stabilistors connected between the input terminals (2 and 3) and output terminals 25 (8,9) of the barrier, of which the first branch (7) is separated from the second branch (12) with resistors (11) connected in sequence, and both poles of the second branch (12) are connected to the With the output terminals (8 and 9) through separate resistors (13). 2. The barrier according to claim The method of claim 1, characterized in that each of the two parallel branches (7 and 12) consists of two groups of serially connected stabilistors, the groups in each parallel branch being opposed to each other. / 106 542 8 10 ng. and Fig. 2.