SU1113571A1 - Explosion-proof combination power supply source - Google Patents

Abstract

SEARCH VOSL11 and PNKN} 1Y11 COMPUTER POWER SUPPLY, contains external and internal enclosures with covers, a network source installed in the external case, an independent source installed in the internal case, disconnector connected by means of a blocking device with external device crimp and network source, and additional (means in levies, the fact that, with the improvement of the conditions of service and maintainability, the disconnector is provided with an additional contact, and the additional means The protection is made in the form of a switching element with a closure (it has a contact, for example, a relay located in an internal housing made in the RP design, the switching element through an additional7, the disconnector contact is connected to an independent source, to the output of which the switching contact of the ion cell is sequentially connected .

Description

The invention relates to apparatuses for powering apparatus operating in an explosive environment and can be applied in coal mines, including hazardous in gas, dust and sudden emissions, as well as in chemical, oil and gas industries in gas appliances. protection, warning signaling and emergency communication, etc., which should work in case of accidental or emergency shutdown of the external network. An explosion-proof self-contained power source is known, containing a battery, enclosed in a non-separable unit from a thermosetting compound and placed in an explosion-proof case, a closing magnetically controlled contact, a permanent magnet and a mechanical interlock, while the magnetically controlled contact is placed inside the non-separable unit and connected in series with a battery with the ability to interact with a permanent magnet attached to the mechanical interlock; a known power source has a limited domain applications, since it can not be used to power equipment handsfree, alarm, etc., i.e., This equipment, which is powered from the network during normal operation, and in the event of an emergency shutdown of the network, is powered from the battery. The use of a power source in conjunction with a networked source necessitates a double lock to disconnect the network source and the autonomous one. The use of a mechanical-magnetic blocking at the source complicates the design considerably. In addition, taking into account that the operation of the magnetic control of its & gx contacts is critical to the distance between the magnet and the contact, it is necessary to increase the manufacturing accuracy of this interlock. The complexity of the design and low-tech manufacturing indicated source foot is also determined by the presence of magnetic and non-magnetic materials and higher requirements for their installation. A significant disadvantage of the known source is that the autonomous source is filled with a thermosetting compound. Replacing batteries of chemical sources leads to a reduction in their service life, makes repairs difficult, and also increases the weight of the equipment, which complicates its transportation. The known power source cannot be applied to power energy-intensive loads, since the current of the source is limited by the current passing through the magnetically controlled contact. An explosion-proof combined power source is also known. It contains an external and internal enclosures with clamps, an external source installed in the external enclosure, an independent source installed in the internal enclosure, an isolator connected with an interlocking device with the external enclosure lid and a network source, and additional explosion protection made in the form of a block of nekrozaschity and execution of the internal case with the level of explosion protection RV G23. The implementation of the internal enclosure with the level of explosion protection of the PB, as compared with the normal version, requires an increased wall thickness, the use of special flanges and an increased surface finish that regulates the gaps of these flanges, which leads to an increase in the size and weight of the equipment. The complexity of service and low maintainability are due to the need to place additional explosion protection means in the inner case and, accordingly, to increase the size and weight of the inner case and the complexity of the autonomous power source. Since the inner case containing the battery is forbidden to open in an explosive environment, it is necessary to transport this case to a safe area for maintenance and repair, which is difficult due to its large size and weight. The purpose of the invention is to improve the conditions of maintenance and maintainability of the source by reducing dimensions and weight, as well as a reduction in the cost of production. This goal is achieved by the fact that in an explosion-proof combined power source containing external and internal enclosures with clamps, installed in the external enclosure of a power supply source, installed So an internal enclosure autonomous switch disconnector, connected to the source, using a locking device with a cover of the external enclosure and network source , and additional means of explosion protection, the disconnector is provided with an additional contact, and additional means of explosion protection are made in the form of a switching element A contact with a closing contact, for example, a relay located in an internal housing, is a complete RP version, the switching element is connected via an additional disconnector contact to an independent source, to the output of which the closing contact of the switching element is connected in series. The drawing is a diagram of an explosion of a combined combined power source. The explosion-proof combined power source contains an external explosion-proof case 1, inside of which is placed the internal case 2. In case 2, an independent power source 3 (battery) is installed, and in case 1 of the network power source 4 (step-down transformer) connected by means of a disconnector 5 s the input circuit of the source. Outside the explosion-proof housing 1, a locking device 6 is installed, which is connected to the cover 7 of the external housing. Additional means of explosion-proofs are made in the form of a switching element, for example, a relay 8, placed in the inner case 2. Performing the case 2 with the level of explosion protection RP structurally means that in this case normally sparking contacts are equipped with explosion protection means, no means of explosion protection in the form of explosion-proof enclosures are required. Relay 8 is connected in parallel to an autonomous power source 3, and the closing contact 9 of this relay is connected in series to the output circuits of the source. Relay 8 with normally sparking contacts is filled with a thermosetting compound. Filling of relay 8 ensures the explosion protection of normally sparking contacts, i.e. (according to GOST 22782 78) contacts of switching devices not provided with additional means of explosion 1 cites. The disconnector is equipped with an additional contact 10, which is connected in series with the relay coil 8. 1 The source operates as follows. t During normal operation (with the lid 7 closed and the network turned on), the voltage is supplied to the mains supply 4 via the disconnector 5. With the same disconnector 5, the relay 8 connects to the autonomous power supply 3. Relay 8 with its contact 9 connects the output circuit of the autonomous source 3 to the load. When opening the keypads 7, the locking device 6 acts on the disconnector 5, which de-energizes the input circuits of the network source 4 and the winding of the relay 8. When the relay 8 is disconnected by its contact 9 located in the housing 2, the circuit of the independent source 3 is disconnected. Thus, when opening the cover 7, an explosion of the combined source is ensured due to the disconnection of both the input circuits of the network source 4 and the output circuits of the autonomous source 3 located in the explosion-proof casing 2. housing 2 with a level of explosion protection of increased reliability (RP). Since a case with an autonomous power source is placed in an explosion-proof case, the combined power source has a particularly explosion-proof level of explosion protection PO, which is provided by duplicating means of explosion protection. Thus, the service conditions are improved and the maintainability of the source is increased, since the explosion protection of the autonomous power source 3 is provided by disconnecting its output circuits inside the explosion-proof housing 2, which eliminates the spark protection unit. Filling the relay with a thermosetting compound allows you to replace the inner casing with the protection level of the PE to the casing with the level of explosion protection of the RP and consequently reduce the size and weight of the internal casing 2, and hence the entire combined source. Eliminating the sparking unit simplifies the independent power supply. AT

511135716

as a result of the reduction in size, which greatly simplifies the sagging of the body of an autonomous source, the maintenance of its maintenance increases its transport and repair.

Claims (1)

EXPLOSION-PROOF COMBINED POWER SUPPLY, containing the external and internal cases with covers, the network source installed in the external case, the autonomous source installed in the internal case, a disconnector connected with the blocking device to the cover of the external case and the network source, and additional explosion protection devices, And especially with the fact that, in order to improve the conditions of service and maintainability, the disconnector is equipped with an additional contact, and additional means of explosion the protection is made in the form of a switching element with a closing contact, for example, a relay located in an internal housing made in the form of a switchgear, and the switching element through an additional contact of the disconnector is connected to an autonomous source, to the output of which the closing contact of the switching