RU2508588C1 - Blocking device of power circuit built into equipment - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: blocking device of a power circuit built into equipment refers to electric engineering and can be used in automatic protection schemes of electric lines built into racks, frames, housings, etc. of technical systems, equipment and actuated in case of unallowable deviations from normal working modes, and namely to prevent the possibility of actuation in case the same actuation can lead to undesirable electric modes or dangerous consequences for operating personnel. The device includes a power circuit disconnection scheme with a switching element and a connector, the contacts of which are connected by means of jumpers; with that, the disconnection scheme is made without any break in the form of an additional power circuit outline. The switching element has a power communication to a disconnected part of equipment, thus providing break of the power circuit at disconnection of its parts from each other; besides, in addition, the connection is provided with contactors-simulators made on both mating parts of the connector and connected with jumpers simulating the sections of the power circuit.

EFFECT: enlarging the possibility and range of application by improving blocking reliability, and thus the protection level of the equipment power circuit.

3 cl, 1 dwg

Description

The invention relates to electrical engineering and can be used in circuits for the automatic protection of electric lines built into racks, frames, housings, etc. technical systems, equipment, etc., and triggered in the event of unacceptable deviations from normal operating modes, in particular to prevent the possibility of switching on if unintended electrical modes or dangerous consequences for the operating personnel can occur as a result of this switching on.

One of the main tasks in this field of technology is to ensure reliable protection of electric lines from erroneous or any other unauthorized switching on using blocking devices.

The closest in technical essence and purpose to the claimed invention is a device for blocking the inclusion of a power circuit that is built into electronic equipment, in particular, a power supply unit (patent RU 2007008, published on 01/30/1994), containing a circuit for disconnecting the power circuit with a switching element and its control circuit, a power circuit connector, the contacts of both mating parts of which are connected by jumpers, while the contacts of one of the parts of the connector are connected by an address jumper, and the contacts of the other are interlocking. The disconnection circuit is made with a break in the electric circuit and includes a prohibition circuit for switching on the switching element. When the circuit of the switching-on inhibit circuit of the switching element is open, the switching-on inhibit signal does not pass and the switching element is controlled by the corresponding signal of the control circuit of the switching element, and this state of the circuit of the inhibit circuit occurs when the counterparts of the connector are correctly connected to each other without matching jumpers of the counterparts. The locking device prevents equipment failure if it is improperly connected to a power source.

However, when using equipment of increased danger located in opened housings or rooms, for example, high-voltage or explosive equipment, this level of protection is insufficient, it is necessary to exclude with high reliability unauthorized operation of the equipment. A disadvantage of the known solution is that it does not protect the equipment from tripping, for example, when electric signals from extraneous power sources get into its circuit, which is in the open state, when it is accessible, for example, during maintenance.

The technical result of the claimed invention is to expand the capabilities and scope by increasing the reliability of the lock and, thus, the level of security of the equipment power circuit.

The specified technical result is achieved due to the fact that in the device blocking the power circuit, which is built into the equipment, containing a circuit for disconnecting the power circuit with a switching element and a connector, the contacts of which are connected by jumpers, the disconnecting circuit is made without interruption in the form of an additional circuit of the power circuit, while switching the element has a power connection with the undocked part of the equipment, providing a break in the power circuit when undocking its parts from each other, and the connector is additionally equipped with a circuit Tami-imitators performed on both mating connector and connected by a bridge, imitating sections supply chain.

One contact of one of the mating parts of the connector can be equipped with an elastic conductive element, one end of which is fixed in the connector, and the other closes the power circuit, with the possibility of its movement with opening and shunting the circuit when disconnecting the mating parts of the connector from each other.

At least one switching element can be additionally connected in series to the power circuit disconnection circuit, while the portion of the power circuit connecting the switching elements to each other is solid and non-extended or integral and extended to the connector, with a jumper made between the contacts its mate.

The implementation of the shutdown circuit without a gap has a minimal impact on the performance of the assembled equipment and provides a long warranty period.

The implementation of the shutdown circuit in the form of an additional power supply circuit allows us to provide the equipment in which it is located and which is opened, a long warranty period without the use of complex code devices, and, at the same time, to provide automatic blocking of the power supply circuit by breaking it when the equipment is opened .

The power connection of the switching element with the undocked part of the equipment is necessary to ensure an instantaneous change in the state of the switching element and the break of the power circuit when disassembling the equipment with undocking of its parts from each other, which protects the equipment from possible erroneous switching-ons and allows safe maintenance. Disconnected during disassembly of the equipment additional circuit is the first level of blocking of the claimed device.

The implementation of the connector with additional contacts-simulators connected by jumpers that simulate sections of the power circuit allows you to strengthen the degree of protection of the power circuit by additional protection of the equipment from intentional switching, if there will be testing of the contacts of the connector and the search for a working pair. And so that the resistance of the closed circuit of the pairs of contacts - simulators is equal to the resistance of the circuit measured between the working pair, for this the contact-simulators are closed by jumpers with equivalent resistance.

Equipping at least one contact of one of the counterparts of the connector with an elastic conductive element that closes the power circuit, with the possibility of moving it and opening the circuit and bridging it to the case when disconnecting the counterparts of the connector from each other, is necessary for additional protection of the equipment power circuit.

T.O. the elements provided for in the connector: disconnecting, shunting and simulating the power circuit when it is undocked, are the second blocking level of the claimed device.

Connecting to the power circuit additionally in series, at least one more switching element, in which the part of the power circuit connecting the switching elements to each other is made integral and non-extended or integral and extended to the connector, with a jumper made between the contacts of its mating part, allows for multiple openings of the power circuit, increasing the requirements for the density of the assembly joint of the equipment to ensure the closure of the power circuit and ensuring protection of the power circuit i. This increases the reliability of opening in case of incomplete opening of the equipment.

Figure 1 shows one of the variants of the electrical circuit and the power connections of the device blocking the power circuit of the switch of high-voltage equipment, for example, an accelerator.

The payload 1 of the power circuit in the form of an electromagnetic switch actuator is conventionally depicted by the active resistance. The payload 1, the mating parts 2, 3 of the connector, the switching elements 4 and the power source 5 are located in the stationary part 6 of the equipment and are closed by its undocking part 7.

In the mating part 2 of the connector, eight switching switching elements (PCE) are placed, each of which consists of a contact 8, an elastic element 9, a shunting contact 10 on the connector housing and a contact 11.

Contacts 11 of two of the SCE, which are working, are connected to the inputs of the payload 1.

Contacts 11 of the rest of the SCE, which are simulating, in a certain order are pairwise closed by simulating jumpers 12, 13 and the working jumper 14.

Jumpers 12 and 13 contain simulated resistances 15 and 16.

In the mating part 3 of the connector there are eight pins 17 and eight protrusions 18.

One pair of contacts 17 is closed by a simulating jumper 19.

Shutdown circuit 20 in the form of an additional circuit connects the counterpart 3 of the connector with the switching elements 4 and the power source 5.

The detachable part 7 of the equipment has projections 21.

The locking device of the power circuit built into the equipment operates as follows.

In the assembled equipment, a power circuit blocking device integrated in the stationary part 6 of the equipment with the docked mating parts 2 and 3 of the connector connects the controlled power supply 5 and payload 1 and does not interfere with the supply of power to the payload.

When opening with the removal of the detachable part 7 of the equipment, each of the protrusions 21 stops the power interaction with the switch of the corresponding switching element 4, which opens the circuit disconnection 20 of the power circuit, preventing unauthorized operation of the payload from the power source 5.

With a further undocking of the mating part 3 and the mating part 2 of the connector, the protrusions 18 stop the force interaction with the elastic elements 9, which open the chain section between the contacts 8 and 11, but close the chain section from the contacts 8 through the shunt contacts 10. Moreover, despite opened access to contacts 8, a random electric charge, for example, from a portable power source, cannot get into the circuit of the protected payload 1 and drains to the body. This prevents unauthorized operation of the payload from an external power source.

In the event of an attempt to intentionally unauthorized connection of the payload to an external power source by supplying an electric charge to the working contacts of the mating part 2 of the connector, this is prevented with a certain probability by the presence of a plurality of simulating contacts next to two workers. For the same purpose, pairs of simulated contacts are bridged with jumpers 12 and 13 containing resistances 15 and 16, which simulate the payload resistance, which prevents the search for working contacts by testing. For this, in the counterpart 3, a pair of contacts 17 is bridged by a jumper 19.

An attempt to intentionally unauthorized recovery of the shutdown circuit 20 is impeded by the implementation of its sections between the switching elements, composite and extended to the docked connector in which they are connected by jumper 14.

Jumpers 12, 13, 14, 19 can be installed in the mating parts of the connector during manufacture, if the connector housing is non-open, or removable to change their position if necessary. The order of selection of working contacts and installation of jumpers can be individual in each connector, which also increases the security of the equipment.

Thus, the claimed device is easy to use, reliable, does not contain electronic devices, provides multi-level protection of the power circuit of the opened equipment and prevents the operation of equipment that is dangerous for the operating personnel during, for example, maintenance.

Claims (3)

1. The locking device of the power circuit, which is built into the equipment containing a circuit for disconnecting the power circuit with a switching element and a connector, the contacts of which are connected by jumpers, characterized in that the disconnecting circuit is made without interruption in the form of an additional circuit of the power circuit, while the switching element has a power connection with a detachable part of the equipment, providing a break in the power circuit when undocking its parts from each other, and the connector is additionally equipped with contact-simulators made on both mating parts of the connector and connected jumpers that simulate sections of the power circuit. 2. The device according to claim 1, characterized in that at least one contact of one of the mating parts of the connector is equipped with an elastic conductive element, one end of which is fixed in the connector, and the other closes the power circuit, with the possibility of its movement with opening and bypass circuit when disconnecting the mating parts of the connector from each other. 3. The device according to claim 1, characterized in that at least one switching element is additionally connected in series to the disconnecting circuit of the power circuit, while the portion of the power circuit connecting the switching elements to each other is made integral and non-extended or composite and extended to the connector, with a jumper shorted between the contacts of its counterpart.