SU1402713A1 - Forcing compressor plant - Google Patents

Abstract

The invention relates to booster compressor units with a controlled capacity, which are operated mainly under conditions of increased explosion hazard. The purpose of the invention is to increase the explosion safety of the installation. Intrinsically safe power supply 12 is connected to the mains through the auxiliary contact 11 of the device 6 including the NIN of the electric motor 5. The drive of the bypass device 7 is designed as an electropneumatic valve 13 electrically connected via a contactor 9 to the output of the source 12, pneumatically by the input to the line 2 suction and exit to the cavity 8 of the control device 7 connected by the inlet to the discharge line 4, and exit to the supply line 1 behind the insertion point of the suction line 2 along the gas, which eliminates it o hit into the compressor 3 Yiwu t.Obr. gas overheating during compression above the permissible value. 1 il.

Description

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The invention relates to compressor building and is related to booster compressor units with a controlled capacity, which is operated mainly under conditions of heightened explosion hazard.

The aim of the invention is to increase the explosion hazard of the compressor unit. The figure shows a schematic diagram of the proposed installation.

The booster compressor installation mainly for explosion-hazardous production contains a pneumatic line 1 and a suction compressor 3 connected to it by suction line 2, equipped with an injection line 4 and: an electric motor 5 with a device 6 for turning it on, a bypass device 7 with a control cavity 8 and with -: with its input 5 connected to the discharge line 4, the contactor 9 and the pressure sensor 10, which is pneumatically connected to the line via its input: 4 discharge, and the outputs - to the contactor 9..The installation also contains the block-pin 11 of the device 6 including An electric motor 5 and an intrinsically de-energized power supply 12, by its (input connected to the power supply | |) network via auxiliary contact 11 The drive of the bypass device 7 is electropneumatic (slide 13, electrically connected fo through the contactor 9 to the output the spark-safe power source 12, by its inevitably its input to the suction line, and the output to the control cavity of the bypass device ij. the output of the latter is connected to the pit of the pneumo line 1 behind the place of the inlet of the suction line 2 along it; The block contact 11 has contacts 14-16 enable the electric motor 5 and the contact 17 enable the source 12,

The booster compressor set operates as follows.

When the contacts 14-17 of the unit Kuntaast 11 of the device 6 for turning on the electric motor 5 are closed, the voltage is supplied to the intrinsically safe source 12 pits, In the compressor 3, a gas flows from the supply suction line 1 to 2 which is compressed and sent to the consumer via the discharge line 4 to the consumer.

When the discharge sensor is extended to the Linsh1 4 upper sensor installation

0 h about 5

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10, the latter closes the contactor 9 and a voltage is supplied to the electropneumatic valve 13 from the source 12. The electro-pneumatic valve 13 opens and reports the control cavity 8 of the bypass device 7 to the suction line 2. This leads to the opening of the bypass device 7 and the bypassing of gas from the injection line 4 to the supply pneumatic line 1.

When the pressure in line 4 is compressed to the bottom installation of the sensor 10, the contactor 9 is opened and the electro-pneumatic valve 13 is closed. Through the valve 13, gas is released from the cavity 8 of the device 7, which causes the latter to close and. termination of gas bypass.

Hot gas bypass from line 4 to the supply pneumatic line 1 behind the place where line 2 is tapped into it along the gas line prevents it from entering the compressor 3 and, therefore, overheating of the gas during compression above the permissible value.

The proposed installation performance contributes to its explosion-proof.

Formula inventions

The booster compressor installation is mainly for explosive production, containing a pneumatic line supplying and a suction line connected to it, a compressor equipped with a pressure line and an electric motor with a device for turning it on, a bypass device with a control cavity and a drive, a connection to the pressure line, a contactor and a pressure sensor, a pneumatic input -. mathematically connected to the discharge line, and the output to the contactor, in order to increase the explosion safety, it contains a blocking contact of the electric motor starting device and a spark-free power source, the input connected to the supply mains contact, the drive of the bypass device is made in the form of an electro-pneumatic valve electrically connected through a contactor to the output of an intrinsically safe power source, pneumatically its input to the suction line and the output to the polo Steering Control Pe314027134

starting device, the output of the latter - after the place of the inset of the suction line into it is connected to the supply pneumatic line of the van along the gas flow.

Claims (1)

Claim Booster compressor unit mainly for explosive industries, containing a supply pneumatic line and a compressor connected to it by a suction line, equipped with a discharge line and an electric motor with a switch-on device, a bypass device with a control cavity and a drive, an input to the discharge line, a contactor and a pressure sensor, an air inlet - ί matically connected to the discharge line, and output - to the contactor, characterized in that, in order to increase the explosion safety, it contains a block contact at switch-on devices of the electric motor and an intrinsically safe power source connected to the power supply network via a block contact, the bypass device drive is made in the form of an electro-pneumatic valve electrically connected through the contactor to the output of the intrinsically safe power source, pneumatically with its input to the suction line, and the output - to the control cavity of the transfer device, the output of the latter is connected to the supply pneumatic line behind the insertion point into it of the suction line along the gas.