RU2269190C1 - Method and device for protection of switching equipment - Google Patents

Abstract

FIELD: electrical engineering; overtemperature protection of switching equipment and threaded contact joints of current-carrying parts and power circuits responding to temperature rise.

SUBSTANCE: proposed method for protection of switching equipment and threaded contact joints of current-carrying parts includes checkup of switching equipment terminals for temperature deviation from normal value by installing temperature deviation checkup device in switching equipment terminal and tightening of switching equipment terminal made upon occurrence of odor field that points to inadmissible deviation of terminal temperature from normal. Device implementing this method has substrate-mounted temperature sensor incorporating air-tight spaces and at least one component made of material capable of transferring from solid to liquid phase in case of inadmissible temperature increase; novelty is that device has in addition thermoprobe mounted on other side of substrate and that temperature sensor is made in the form of container, air-tight spaces of temperature sensor being formed by partition made of material capable of transferring from solid to liquid phase in case inadmissible temperature increase and filled with materials responding to odorous gas.

EFFECT: enhanced capability of inflammation prevention due to timely delivered true data on temperature of zones most prone to inflammation.

2 cl, 4 dwg

Description

The invention relates to the field of electrical engineering, in particular to means of protection against unacceptable temperature excesses of switching equipment and contact threaded connections of live parts in power supply circuits that directly respond to unacceptable temperature excesses. It can mainly be used in power supply systems of residential, administrative and industrial facilities with a voltage of 0.4 kV.

A known method of protection against overheating of an electric heating device by connecting in series with an heating element an irreversible normally closed fuse (patent RU No. 2041573, IPC 7 N 02 N 5/04).

The known method does not allow to solve the task of protecting the switching equipment, because the heated clamp of the switching device will not be able to exert a thermal effect on the fuse that is sufficient for its operation.

The prototype is the one that is closest in terms of the problem to be solved, the achieved result and the technical essence, to the widely known method of protecting switching equipment used in the operation of consumer networks, in which they regularly tighten any connections and, in particular, tighten the contact connection of the clamp of switching devices and power wires by screwing clamp screws of the switching apparatus (Installation Guide for Electrical Installations of Industrial Enterprises (in two books) edited by V.V.Belotserkovets , B. A. Delibasha. Second edition, revised and enlarged. Book One, Moscow: Energy, 1976, p. 161, chap. 4-24). The tightening of the clamps is a sign of the analogue, coinciding with the essential sign of the proposed method. Such an operation in the prototype method for a certain period of time after its implementation allows to provide a strong, reliable connection between the power wire of the network and the terminal of the switching device.

If the connection between the power wire and the terminal of the switching device loosens over time, resistance increases, the terminal of the switching device is heated and the power wire is locally heated, that part of the wire that is in contact with the terminal of the switching device, which can cause a fire.

The known method does not guarantee the prevention of fires of the contact connection of the switching equipment due to the lack of information about the temperature of the areas subject to fire in the intervals between preventive maintenance of the equipment by tightening the contacts.

A protective device of switching equipment is known, for example, a device for protective shutdown of leakage currents for a circuit breaker (Nomenclature catalog 1-2003 of the Divnogorsk low-voltage equipment plant. Circuit breakers of the BA 61-29 series. Technical description, p.7).

The protective device provides protection against fires in case of violation of the insulation of networks of industrial and residential buildings and does not prevent contact overheating.

As a prototype of the claimed device, a functionally closer protection circuit of the semiconductor element from temperature extremes of a certain magnitude is adopted, including current-carrying parts of the circuit, a semiconductor element, sealed cavities filled with a material with volume expansion and passing from solid to liquid phase with increasing temperature, for example paraffin ( JP patent No. 32479997132, IPC 7 H 02 H 5/04, H 01 H 37/76, published in the collection "Inventions of the World", issue 107, No. 2/2003).

Signs of the prototype that coincide with the essential features of the claimed device are: a temperature sensor located on a substrate with sealed cavities and with one element made of a material having the ability to transfer from solid to liquid phase at an unacceptable temperature rise.

The disadvantage of the prototype device is the inability to prevent ignition of switching equipment due to the fact that the material with which the sealed cavities are filled does not create the forces necessary for breaking the power wire.

The invention is aimed at preventing fires from fire in electrical wiring of power supply systems of residential, administrative and industrial facilities with a voltage of 0.4 kV, distributed from the clamps of switching equipment.

The technical result of the invention is to increase the ability to prevent ignition of the contact compound by increasing the efficiency and reliability of information about the thermal state of the most exposed areas of fire. In cases where the building is noisy, the use of an odor field in solving the problem of protecting switching equipment is more appropriate than using, for example, an audio signal.

The technical result is achieved in that in a method for protecting switching equipment and contact threaded connections of live parts, including maintaining the temperature of the terminals of the switching equipment within acceptable limits by tightening the clamps, according to the invention, the deviation from the normal temperature of the terminals of the switching equipment is monitored by installing a device for control deviations from normal temperature of contact live parts, and tightening and switching equipment is carried out at occurrence of olfactory field on which is judged inappropriate clamping deviation temperature from normal temperature.

The technical result is achieved in that a device for monitoring deviations from normal temperature of contact current-carrying parts, comprising a temperature sensor located on a substrate with sealed cavities and at least one element made of a material having the ability to transfer from solid to liquid phase when unacceptable exceeding the temperature, according to the invention further comprises a temperature probe mounted on the other side of the substrate, and the temperature sensor is made in the form of a container, wherein The cavities of the temperature sensor are formed by a partition made of a material with the ability to transfer from solid to liquid phase at an unacceptable temperature rise and filled with substances whose interaction product is a pungent gas.

The difference of the proposed method from the prototype method is to monitor deviations from the normal temperature of the clamps of the switching equipment by installing a device in the clamp of the switching equipment of the device to control the deviation from the normal temperature of the contact current-carrying parts, tightening the clamp of the switching equipment when an odor field appears, by which an unacceptable deviation is judged clamp temperature from normal temperature.

This proves the conformity of the proposed method to the criterion of "novelty."

It is known from the prior art to monitor the temperature state of zones of possible overheating of various equipment, for example contact joints, rubbing parts, parts subject to heat from external sources, using an infrared camera, for example, the Fur Systems compact infrared camera ThermaCAM E2 (http: // www. pergam.ru/e2.htm).

Monitoring the thermal state of heat-affected zones using infrared cameras involves periodic monitoring and does not provide operational information about the thermal state of the zones being monitored at the time of overheating, which could cause equipment fire.

In the inventive method, monitoring deviations from the normal temperature of the clamps of the switching equipment by installing devices in its clamps to control deviations from the normal temperature of the contact live parts allows you to obtain not only reliable, but also operational information about the temperature of the zones most exposed to fire when the odor field appears This makes it possible to prevent ignition of the contact joint and the spread of ignition.

Thus, the known solution does not ensure the achievement of the technical result of the claimed invention. In addition, the prior art did not reveal solutions in which the installation of a device for controlling deviations from the normal temperature of live contact live parts would be known, which proves the compliance of the method with the inventive step.

The difference between the claimed device from the prototype device, confirming its novelty, is that it additionally contains a temperature sensor, which is equipped with a container and a probe, the temperature sensor container is mounted on the substrate on one side and is separated by a material with the ability to transfer from solid to liquid phase if the temperature is unacceptable, the probe is installed in the substrate on the other hand, the airtight cavities of the container are filled with substances, as a result of the interaction of which with a pungent odor.

It is known from the prior art to use thermal probes to monitor the thermal state of microcircuits, for example, the use of a Stainless Steel Temperature Probe thermal probe in a standard external temperature sensor, Standard External Temperature Sensor, in a P2T - Cable overheat protection device manufactured by ASUS (http: //catalog.f-centre .ru / Out.phtml? l = asus mb & 2 = ASUS P2T cable 3800).

In a known solution, the thermal probe, in order to preserve the microcircuit from thermal damage, is in contact with the microcircuit body, which is not a current-carrying part.

The inventive device provides prompt and reliable information and the possibility of preventing fire due to the installation of a thermal probe in the contact current-carrying part of the switching apparatus.

In the known device, the thermal probe is electrically connected to the temperature sensor, and in the inventive device, the thermal probe and the temperature sensor are mechanically connected. Moreover, in the inventive device, the temperature probe also serves as the basis for installing the temperature sensor, so that the maximum proximity of the temperature sensor to the controlled part of the protected object is achieved. This makes it possible to obtain more timely and reliable information about the temperature state of the most vulnerable part of the object of protection subject to fires. The lack of electrical connection between the temperature sensor and the probe eliminates false alarms, which increases the reliability of the information. Only in such a totality of interconnections is a technical result achieved - quick response. Thus, a comparative analysis shows that the technical result of the claimed device is achieved by a combination of distinctive features unknown from the prior art, which confirms the compliance with the criterion of inventive step.

The method is as follows.

During installation or during the operation of the switching equipment, a device is installed in the clamps to control deviations from the normal temperature of the contact current-carrying parts, namely the thermal probe, and tighten. During operation of the switching equipment, when an odor field appears due to an unacceptable deviation from the normal temperature of the clamp, this clamp is tightened, in which the triggered device is installed. It is possible to tighten both when the switchgear is turned off and when it is turned on. When tightening the clamp included in the switching device, a screwdriver with an insulated handle is used.

The invention is illustrated by drawings:

- figure 1 presents schematically the claimed device at normal temperature clamps of switching equipment or contact threaded connections of live parts;

- figure 2 presents the device with an unacceptable deviation from the normal temperature of the clamp switching equipment or contact live parts;

- figure 3 presents a schematic side view of a switching apparatus at the time of installation in its clamp of the inventive device;

- figure 4 is the same in a perspective view.

A device for monitoring deviations from the normal temperature of contacting live parts comprises a temperature sensor located on a substrate 1 made of heat-conducting material, for example copper, on one side of the substrate and on the other side of the substrate 1, made, for example, in one piece with the substrate 1. The temperature sensor is a container 3 made of a dielectric material, such as hard rubber. The sealed cavities of the temperature sensor are formed by a partition 4 made of a material having the ability to transfer from solid to liquid phase at an unacceptable temperature rise, that is, from a material with a melting temperature that allows the partition 4 to be in a solid state and to provide reliable sealing of the cavities of the container 3 with each other and atmosphere at normal temperature corresponding to the normal parameters of the switching apparatus 8. The partition 4 can be made, for example, of polyethylene. The sealed cavities of the temperature sensor are filled with substances 5 and 6, for example, quicklime CaO and ammonium chloride NH ₄ Cl, the reaction product of which is a pungent gas, for example ammonia, which can create an odor field at low concentrations within the maximum permissible concentration.

The inventive device in this embodiment will have high reliability and small overall dimensions.

The device operates as follows. In the clamp 7 of the switching apparatus 8, together with the power wire 9, the thermal probe 2 of the inventive device is clamped. Due to the weakening of the contact in the terminal 7 of the switching device 8, or due to other factors, local heating of the terminal 7 of the switching device 8 is formed, which can cause fusion or fire of the insulation of the power wire 9 and, as a consequence, an interphase short circuit. If the clamp 7 of the switching apparatus 8 is not heated properly, the probe 2 of the inventive device is heated, heating the probe 2 to the melting temperature of the partition material 4 will cause the partition 4 to melt, as a result of which parts of the container 3 with substances 5 and 6 are depressurized between themselves and the atmosphere. The reaction products of substances 5 and 6 through the hole 10 enter the atmosphere, creating an odor field, signaling an unacceptable temperature deviation of the contact live parts.

Claims (2)

1. A method of protecting switchgear and contact threaded connections of live parts, including maintaining the temperature of the clamps of the switchgear within acceptable limits by tightening the clamps, characterized in that they control the deviation from the normal temperature of the clamps of the switchgear by installing a device for monitoring the deviation from normal temperature contact live parts containing a temperature sensor with sealed cavities, to which are filled with substances, the product of the interaction of which is a gas with a pungent odor, and tightening the clamp of the switching equipment is carried out when a sharp smell appears, by which an unacceptable deviation of the clamp temperature from normal temperature is judged. 2. A device for monitoring deviations from normal temperature of contacting live parts, comprising a temperature sensor located on a substrate with sealed cavities and at least one element made of a material having the ability to transfer from solid to liquid phase at an unacceptable temperature rise, different the fact that it further comprises a temperature probe mounted on the other side of the substrate, and the temperature sensor is made in the form of a container, while the sealed cavities of the temperature sensor are formed by a partition made of a material with the ability to transition from solid to liquid phase at an unacceptable temperature rise, and filled with substances, the product of the interaction of which is a gas with a pungent odor.

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