SU1151232A1 - Device for emergency de-energization of multisupport sprinkler - Google Patents

Abstract

An EMERGENCY DISCONNECTION DEVICE FROM THE POWER OF THE NETWORK BY THE MULTI-POROUS REFRIGERANT MMMNA, containing a shut-off valve with a drive, installed on the discharge pipe in front of the machine, emergency drain valves on each trolley, successively connected by an emergency shutdown tube, in order to improve the reliability of the equipment, to improve the safety and health, safety and safety, safety and reliability, safety and reliability, safety, reliability and safety, safety, reliability and safety, reliability and safety, safety, reliability and safety, reliability and safety, reliability and safety, reliability and safety, reliability and safety, reliability and safety, reliability and safety and reliability, health and safety, health and safety, health and safety, reliability and safety, reliability and safety, reliability and safety, reliability and safety; a water pressure sensor with a microswitch mounted on the end of the emergency shutdown tube, a programmer having toggle switches and remote control and, a short-time relay, a starting and an intermediate relay, a pressure sensor receptacle, a button, a relay temporarily closing circuit and a remote switch, and the actuator of the locking member are electromagnetically connected, the parallel-connected capacitor and the resistance winding of the short-time relay are connected to the power bus, serially connected closing contact of the microswitch of the pressure sensor and the winding of the relay-repeater of the pressure sensor, connected in parallel to the closure contacts of short-time and start relays, connected in series through 1 "the hinge contacts of the repeater of the pressure sensor and remote switch, winding of the starting relay, in series Connected disconnection of the contact of the repeater of the pressure sensor, short-circuited contact of the intermediate relay and winding of the time relay, parallel-connected contact loops contacts of the repeater of the pressure sensor and the intermediate relay, in series with which the intermediate relay coil is connected, in series the included time relay contact and the first winding of the remote switch, the button in antiphase with the second winding of the remote switch, the parallel-connected closing contacts of the start relay and the re-. N3 lever repeater of pressure sensor,: KD, in series with which the electromagnetic drive winding is connected, other leads of all windings are connected to each other and through series-connected toggle switches of local and remote control are connected to the second power supply cable, and the first terminals of the windings of the starting relay and time relay are connected through diode.

Description

The invention relates to the control and protection of multi-support sprinkler machines and can be used in agriculture for remote control of machines Frigate with hydraulic protection. The closest in technical essence to the invention is an emergency disconnect device from a power supply network of a multi-support sprinkler, containing a shut-off valve with a drive, installed on the discharge pipe in front of the machine, emergency drain valves on each trolley connected in series with an emergency disconnect pipe l. A disadvantage of this device is the low reliability of the emergency protection. The aim of the invention is to increase the reliability of emergency protection. The goal is achieved by the fact that the device is equipped with a water pressure sensor with a microswitch installed at the end of the emergency shutdown tube, a programmer having local and remote control toggle switches, a red time switch, a starting and intermediate relay, a repeater pressure sensor, a button, a relay a time delay and a remote switch, and the drive of the closure member is made electro- mated, while the power bus is connected via a parallel connected capacitor and short-term relay coil resistance, serially connected closing contact of the microswitch of the pressure sensor and winding of the follower relay of the pressure sensor, parallel connected closing contacts of the short-acting relay and starting relay, series-connected disconnecting contacts of the repeater of the pressure sensor and remote switch, winding of the starting relay, series-connected disconnecting contact of the relay of the pressure sensor, closing contact intermediate relay and winding of the time relay, parallel-connected contact contacts of the pressure sensor relay and intermediate relay, in series with which the intermediate relay winding is connected, in series, closing the time relay contact and first remote switch, the button in antiphase with the second winding of the remote switch, in parallel connected closing contacts of the starting relay and the repeater relay of the pressure sensor, in series with which the electromagnetic winding is connected rivoda, the other terminals of all windings are connected together and through a series-connected toggle local and remote control are connected to the second power bus, and first terminals of the windings and the starting relay time switch are connected through the diode. FIG. Figure 1 shows an emergency disconnect device from the power supply network of a multi-support sprinkler, Fig. 2, an electrical schematic diagram of the device. The proposed emergency shutdown device contains the actuator 1 of the distributor 2 of the actuator 3 of the shut-off valve D installed on the discharge pipe 5 in front of the sprinkler 6, drain valves 7 mounted on the sprinkler carts and connected by the connecting tube 8 of the emergency shutdown, at the end of which a sensor 9 is installed water pressure with a microswitch 10. at the output, the programmer 11, which includes a winding 12 of a relatively short time action, connected in series with a capacitor 13, to which resistance 14 is connected in parallel, the short-time relay has a closing contact 15, the winding 16 of the pressure sensor repeater connected via the closing contact 10 of the microswitch of the pressure sensor 9 to the power supply buses, the winding of the starting relay 15 which is connected to the short-time relay and contact 18 of the starting relay, is connected in series: the opening contact 19 of the pressure sensor repeater and the opening contact 20 of the remote switch are e is connected to power buses, time relay coil 21 connected to the power bus via

A series-connected disconnecting contact 22 of the repeater of the pressure sensor and the closing contact 23 of the intermediate relay, a diode 24 connecting the winding 17 and 21 on the side of contacts 20 and 23 and passing current on the side of contact 20, the coil 25 of the intermediate relay connected to the power pin through parallel connected make contact 26 of the follower relay of the pressure sensor and contact 27 of the intermediate relay, two windings 28 of the remote switch, one of which is connected via the closing contact 29 of the time switch to the power bus, and An oracle is out of phase through the short-circuiting button 30, which serves to reset the remote switch to its initial state, the winding 31 of the actuator 1, which is connected via parallel connected closing contacts 32 of the starting relay and contact 33 of the pressure sensor repeater to the power bus.

Moreover, in this case a time delay relay is used, a remote switch RPS 20 can be used as a remote switch, and an electrohydraulic valve KEG 16 L consisting of an electromagnet driven by drive 1 and a hydraulic distributor 2 can be used as a drive and distributor. The device also comprises a local control tumbler 34 and a remote power tumbler 35.

Emergency shutdown device

works in the following way.

In remote control mode, the toggle switch 34 is closed. When the remote control toggle switch 35 is closed, the voltage from the power source is applied to the capacitor 13, which is gradually charged. His for-; A short-term current turns on the winding 12 of the short-time relay, which closes for a short period of time (not more than 1 s) pin 15, which connects the power supply circuit of the winding 17 of the starting relay via the disconnecting contact 19 of the pressure sensor's repeater and the disconnecting contact 20 of the remote switch. Contact 18 of the starting relay blocks contact 15, and contact 32 of the starting relay closes the supply circuit of the winding 31 of the actuator 1, which switches the distributor 2, which opens through the actuator 3 a locking member 4 on the pressure pipe 5; Water is pumped into machine 6 and it starts working. The water pressure at closed heavy valves 7 is transmitted through the connecting pipe 8 to. sensitive element of pressure sensor 9. Through the contact of the microswitch 10 of the pressure sensor, a voltage is applied to the winding 16 of the follower relay of the pressure sensor. The windings 17 of the starting relay are de-energized, contact 18 of the starting relay is opened. The power supply circuit of the driver-1 LSI 31 of the drive 1 is made through the closing contact 33 of the pressure sensor follower. The machine works until we open the power supply circuit with the toggle switch of the remote 35 or local control 34.

In the event of an emergency protection operation, when the pipeline of the sprinkler machine 6 begins to bend, the valve 7 releases the water pressure in the connecting tube 8, and the sensitive element of the water pressure sensor 9 brings the contacts of the microswitch 10 to the initial state. The circuit of the winding 16 of the follower relay of the pressure sensor opens, which leads to the removal of voltage on the winding 31 of the actuator 1 and closing of the locking member 4, and therefore to the deviation of the sprinkler 6. In this case, after a certain period of time (about 2-4 minutes ) the time relay is activated through the opening contact 22 of the de-energized repeater relay, the closing contact 23 of the intermediate relay. The intermediate relay is activated at the beginning of the normal start-up via the closing contact 26 of the pressure sensor repeater when the pressure in the machine is nominal and then locks its contact 27. The closing contact 29 of the time switch turns on the first winding 28 of the remote switch. The remote switch by the opening contact 20 opens the power supply circuit of the winding 17 of the starting relay. When the voltage is removed, the remote switch remains in the same position, i.e. re-enable

five

And by turning off the toggle switch 35 of the remote control, the starting relay is no longer turned on, the machine does not work until the alarm is eliminated and briefly presses button 30, When pressed, voltage is applied to the second winding 28 of the remote switch. It returns to its original state, its contact 20 is closed. The circuit is ready for normal start of the machine by turning off and turning on the toggle switch 3.4 or 35.

If an emergency situation occurred at the beginning of the start, then after starting the circuit and turning on the winding 31 of the electromagnet of the drive 1, the water pressure in the connecting tube 8 does not increase to the required value and the contact of the microswitch 10 cannot close.

In this case, after a specified time interval, the relay is triggered.

312326

iienH, contact1, (15, 18, 19, 20 - diode 2A - winding 21, since contact 19 is a repeater of the pressure sensor in this case

5 is always closed. The remote switch is activated, the power supply circuit of the start-up relay, the time relay and the winding 31 of the drive 1 is broken. The shut-off element closes and the machine stops. A restart is also excluded, since the remote switch has been activated. To start the machine, you need to eliminate the accident and press .button 30, and then

5 turn off and turn on the tumblers 34 and 35. The toggle switch 34 serves for local switching, the toggle switch 35 for remote or telemechanical. And one of the toggle switches should always be in the on state.

Thus, the reliability of the emergency protection is compromised.

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14

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Claims (1)

EMERGENCY DISCONNECT DEVICE FOR THE MULTI-SUPPORT RAINING MACHINE, containing a shut-off element with a drive installed on the discharge pipe in front of the machine, emergency drain valves on each truck, connected in series by the emergency shutdown pipe, characterized in that it is equipped with the aim of increasing the reliability of emergency protection water pressure sensor with a microswitch installed on the end of the emergency shutdown tube, a programmer with local and remote control toggle switches, rel e short-time action, start-up and intermediate relays, pressure sensor repeater, button, time relay with a delay for closing and a remote switch, and the shut-off element actuator is electromagnetic, while the short-circuit relay coil is connected through a parallel-connected capacitor and resistance, in series connected make contact of the pressure sensor microswitch and winding of the pressure sensor follower relay, parallel connected make contacts of the relay short-time action and a start relay, series-connected solenoid contacts of the repeater relay of the pressure sensor and the remote switch, the winding of the start relay, series-connected disconnect contact of the relay-repeater of the pressure sensor, the make contact of the intermediate relay and the windings of the time relay, the parallel contacts of the relay of the repeater sensor pressure and the intermediate relay, in series with which the winding of the intermediate relay is connected, the closing circuit is connected in series The contact of the time relay and the first winding of the remote switch, the button in antiphase with the second winding of the remote switch, the parallel contacts of the start relay and the relay of the pressure sensor repeater, in series with which the coil of the electromagnetic drive is connected, the other leads of all windings are connected to each other and through series-connected toggle switches local and remote control are connected to the second power bus, and the first conclusions of the windings of the start relay and time relay are connected through diode 1 1151232