SU562034A1 - Device for protection against accidents heat and power equipment - Google Patents

Description

The invention relates to the field of automation of heat and power equipment. The unloading or disconnection of the latter upon the occurrence of a dangerous situation, the symptom of which is an unacceptable deviation of the monitored parameter (steam temperature, vacuum in the condenser, etc.), is carried out automatically by technological protection devices. Protection requirements are high reliability, in particular the low probability of their false effect.

To ensure the required reliability, various schemes with redundant measuring circuits (1) are used. They contain two or several sensors (or one in the circuits with a unified signal), two or several analog-discrete converters with series or parallel connected output contacts and an executive relay, from the contacts of which the required technological operations are carried out. The disadvantages of such schemes are their relative complexity and unreliability.

It is also known a device for technological protection of equipment, containing a sensor of a monitored parameter, connected to analog-to-discrete signaling and protection converters, the output contacts of which connect power to, respectively, the signal panel and the winding of the operating relay (2).

The disadvantages of this scheme are the relative complexity (two analog-discrete converters), the corresponding increase in maintenance costs, and most importantly low endowment (the greater likelihood of action, in particular due to sensor faults).

To reduce the likelihood of a false action, the proposed device further comprises a time relay, the winding of which is connected to the power source via an output contact of the analog-discrete signaling converter, an intermediate relay whose winding is connected to the power source through a series disconnecting contact of the time relay and the output contact of the analog discrete converter of protection, and in series with the winding of the executive relay are included the closing contact of the time relay and the breaking contact touch relay relay.

Thus, the executive relay is controlled taking into account the moment the alarm is triggered, the measuring circuits of which duplicate the protection measuring circuits (or are common to it). Since the parameters of heat and power equipment are relatively inertial, in any dangerous situation the alarm should be triggered earlier than the protection. Simultaneous operation of protection and alarm always indicates a malfunction of the measuring circuits.

FIG. 1 shows the scheme of the described device; in fig. 2 - selection of protection settings.

The circuit contains: 1-sensor monitored parameter: 2 - analog-discrete converter signaling; 3 - output contact of the latter; 4 - signal board; 5 - analog-to-discrete protection converter; 6 - output contact of the latter; 7 - executive relay; 8 - time relay; 9- time contact opener; 10 - closing contact of the time relay; 11 - intermediate relay; 12 - break contact of the intermediate relay; 13 - the closing contact of the intermediate relay. The device works as follows. With an unacceptable deviation of the monitored parameter, the analog-discrete converter 2 will be triggered first. It will turn on time relay 8, which will start counting the given shutter speed t. When the protection is correct, the condition is always met (see Fig. 2), discrete converter from the alarm setpoint t to the protection setpoint n; then is the time of change of the monitored parameter in the above range of its values. This means that by the time the analog-to-discrete converter 5 trips, the shutter speed T is over, time relay 8 closes its contact 10 and executive relay 7 will be under current immediately after the parameter has been rejected for a valid value.

In the event of a false sensor 1, the analog-discrete converter 5 operates simultaneously with the analog-discrete converter 2, since both converters are connected in parallel. The winding of the intermediate relay AND flows through the current through the closed contacts of the converter 6 and the relay

time 9, the relay 11 is instantly triggered, becomes self-picking and opens the circuit of the executive relay 7. False equipment shutdown is prevented.

In the proposed device, instead of the analog discrete signaling converter 2, any other analog discrete converter of the monitored parameter with a setting different from the protection setting can be used. For example, an analog-to-discrete converter of the 1st stage of protection acting on equipment unloading.

Claims (2)

1. “Automation of large thermal power plants, edited by M. P. Shalman, ed. “Energy, 1974, pp. 137-140. 2. “Typical schemes of technological protection of blocks of 300 MBT, edited by I. D. Lisaisky, ed. “Energie, 1972, p. 54 (prototype). -H G2 t g 5 p. .l ° 9ig.2