RU180981U1 - HIGH VOLTAGE PROTECTIVE DEVICE IN MODULAR DESIGN - Google Patents

Abstract

High voltage protective device in a modular design, characterized in that it consists of an electromechanical device that includes a housing (4) with at least one protective element (3), at least one replaceable module (5) with an ignition circuit (6) and at least one main connecting system (7) of the ignition circuit (6), consisting of a multipolar group of contacts (8) and corresponding opposite contacts (9) of the ignition circuit (6), while the contacts (8), preferably in a three-pole metal structures are placed on the bottom surface (18) of the replaceable module (5), while corresponding opposite contacts (9), preferably in a three-pole metal structure, are placed on the upper part (19) of the housing (4), and at the same time each protective element (3 ) is connected by one of its poles to at least one corresponding first contact clamp (1) located on one side of the housing (4), and its second pole is connected to at least one corresponding second contact clamp (2) located on opposites side of the body (4).

Description

Technical field

The utility model relates to protective devices against high voltage in a modular design, which is part of the field of electrical protective devices with at least one protective element, the correct operation of which requires an ignition circuit, and is intended for personal protection of people, devices and devices, machinery and metal structures from hazardous contact voltage, high voltage, or exposure to stray electric current.

State of the art

The currently known high voltage protection constructions mainly include a first contact terminal, a second contact terminal and a protective element, usually a spark gap and an ignition circuit, which are connected in one module. This is a compact and irreplaceable design for individual circuit components. Its disadvantage is that in case of damage to the ignition circuit, the entire device must be replaced. Another disadvantage of this design is the difficult inspection of the device - protection against high voltage must be turned off. Such a design, for example, is presented in documents WO2007065997 “DEVICE FOR PROTECTION AGAINST HIGH VOLTAGES WITH HIGH SAFETY AND APPROPRIATE METHOD FOR ITS PRODUCTION” and DE102007012760 “A pulse arrester with symmetry relative to the structure of the enclosure, insulated circuits, inside the set, insulated groups contact clamps connected to the arresters by means of wiring. ”

The above disadvantages are partially eliminated in another known construction in which the first contact clamp and the second contact clamp are located in the housing, while the protective element, the ignition circuit and the signaling of the operating state of the ignition circuit are located in a replaceable module connected to the housing by means of a connecting system. In this design, inspection is easy by removing the replaceable module. However, an expensive protective element must be replaced together with a damaged ignition circuit, so that the disadvantage remains. Another technical drawback is the strict requirements for the connecting system between the housing and the replaceable module, which must transmit a large voltage from the pulse currents. Examples of this design are shown in documents EP1900072 and DE202004006227.

Another example of the modular principle of a high voltage protection device is shown in DE102008031200. The design provides for a simple increase in the number of secure switching channels or lines. The housing has a part attached to the lower part of the profiled strip, the upper part of the housing is modified to connect replaceable modules, which contain a protective device against high voltages and other connecting parts. This allows you to connect more than one replaceable module on top of each other, while the last top replaceable module contains optical signaling of the operating state of the high voltage protection devices, including the possibility of remote signaling of the working state of the high voltage protection devices. This solution is primarily intended to protect against high voltages of switching channels or lines, therefore, it does not use a power protection element such as a spark gap, which requires an ignition circuit to function.

An example of devices containing more than one protective element with an appropriate ignition circuit is available in documents DE10058977 and DE10125941. The main problem, namely, the ignition circuit cannot be separated from the corresponding protective element, also remains unresolved in these designs, thus, the replacement of a damaged ignition circuit cannot be carried out without simultaneously replacing the intact protective element.

Utility Model Essence

The above disadvantages are largely eliminated by the high voltage protection device in a modular design in accordance with this utility model by an electromechanical device that includes a housing with at least one protective element and at least one replaceable module with an ignition circuit, and at least one main the ignition circuit connecting system, consisting of a multipolar group of contacts and corresponding opposite contacts of the ignition circuit genium, while the contacts, preferably in a three-pole metal structure, are located on the lower surface of the module to be replaced, while the corresponding opposite contacts, preferably in a three-pole metal structure, are located on the upper part of the housing, and at the same time each protective element is connected by one of its poles to at least at least one corresponding first contact clamp located on one side of the housing, and its second pole is connected to at least one corresponding second terminal a clamp located on the opposite side of the housing.

The advantage of this design is that in case of damage to the ignition circuit due to high voltage, the operation of the protective device against high voltage can be restored by replacing the replaceable module with the ignition circuit without having to replace the protective element located in the housing. The housing in general may contain more than one protective element and allows you to connect more than one replaceable module with the ignition circuit.

This protective device against high voltage in a modular design in this preferred embodiment has an optical indicator of the state of the working state of the ignition circuit, located on the replaceable module, preferably on its upper surface.

The optical indicator of the state of the working state of the ignition circuit is used for visual inspection and quick identification of the module being replaced with an inoperative ignition circuit or an ignition circuit damaged due to high voltage.

This protective device against high voltage in a modular design in this preferred embodiment has at least one connecting signaling system of the operating state, on the side of the replaceable module connected to the main part of the signaling of the working state of the ignition circuit, on the side of the casing connecting to the secondary part of the signaling of the working state, connected with the connection point of the signaling of the operating state, preferably in a bipolar or three-pole design, is located on one side of the housing, wherein the operating condition signaling connecting system has operating condition signaling contact elements, preferably in a bipolar or triple-pole design, located on the bottom surface of the module to be replaced, and corresponding opposite operating condition signaling contact elements, preferably in a bipolar or three-pole design, located on the top of the case.

This design relates to the remote signaling of the operating state of the ignition circuit and allows a replaceable module with an inoperative ignition circuit or ignition circuit damaged due to high voltage to be detected without the presence of maintenance personnel at the place where the protective device against high voltage is installed in a modular design. If the housing is equipped with more than one protective element and is modified to connect with more than one replaceable module with an ignition circuit, a remote signaling of the working state of the ignition circuit may be available for each replaceable module, or only for some of them.

The preferred design of this protective device against high voltage in a modular design has the following device, namely, the contacts of the ignition circuit and / or contact elements of the signaling of the operating state are the guiding contacts or spring-loaded contacts, and the opposite contacts of the ignition circuit and / or opposite contact elements of the signaling of the working state formed by forks or contact surfaces.

In this solution, in an alternative design, the contacts and opposite contacts of the ignition circuit and / or contact elements and opposite contact elements of the operating state signal are arranged in such a way as to ensure reliable operation of the main connecting system of the electrical circuit of the ignition and / or the connecting system of the operating state alarm.

This protective device against high voltage in a modular design is arranged so that the protective element is preferably formed by a spark gap with symmetrically or asymmetrically arranged electrodes, or a multi-spark gap having at least two spark gap connected in series, or at least two gas dischargers located sequentially.

This design is an alternative to the protective element located in the housing.

This protective device against high voltage in a modular design is designed so that the housing is attached to the profiled lower part using an oppositely profiled fastener located on the lower side of the housing, or the housing is fixed to a flat surface using a plate with holes, or the housing is installed into a holder, the shape, size and bearing capacity of which is suitable for the housing.

This installation of the housing in a preferred design allows you to attach the housing to a profiled or flat bottom surface, or the housing is mounted in a holder with minimal installation requirements.

The replaceable module of this high voltage protection device in a modular design is attached to the housing in the connected position by means of a plug-in connection or a fixing system or mechanical interlock.

Such a device is suitable for a situation in which spring-loaded contacts and contact surfaces form the main connecting system of the ignition circuit and / or the connecting signaling system of the operating state.

Brief Description of the Drawings

This utility model is explained in detail in the drawings, where FIG. 1 is a block diagram of the electromechanical system of this protective device against high voltage in a modular design with an alarm state.

FIG. 2 represents this high voltage protection device in a modular design with a disconnected and remote replaceable module, a main ignition circuit connecting system having three pairs of contacts and opposite contacts of the ignition circuit, and an operational state alarm connecting system containing three pairs of signaling contact elements and opposite contact elements of the alarm state.

FIG. 3 shows a housing of a protective device against high voltage in a modular design with a main ignition circuit connecting system containing three opposite contacts of the ignition circuit, without a working state alarm connecting system.

FIG. 4 shows a high voltage protection device in a modular design with a replaceable module connected in position from the side of the first contact terminal.

FIG. 5 shows a high voltage protection device in a modular design with a connected replaceable module on the side of the second contact terminal.

FIG. 6 shows a high voltage protective device in a modular design with a disconnected and separated replaceable module, a main ignition circuit connecting system containing three pairs of contacts and opposite contacts of the ignition circuit, and an operational state alarm connecting system containing an alarm contact element connected to the opposite contact element signaling the operating state by means of a mechanical clutch.

FIG. 7 represents a replaceable module of a protective device against high voltage in a modular design, connected to the housing, with the main connection system of the ignition circuit, containing three contacts of the ignition circuit, without a connection signaling system of the operating state.

FIG. 8 represents a replaceable module of a protective device against high voltage in a modular design with its bottom surface facing upward containing the main connection system of the ignition circuit having three contacts of the ignition circuit, without an operation signaling connection system.

FIG. 9 represents a replaceable module of a protective device against high voltage in a modular design with its bottom surface facing upward containing the main connection system of the ignition circuit having three contacts of the ignition circuit, with the connection signaling system of the operating state containing three contact elements of the working state alarm.

Utility Model Technical Examples

The high voltage protection device in a modular design in accordance with FIG. 1 and 2 is an electromechanical device comprising a housing 4 with a protective element 3, a replaceable module 5 with an ignition circuit 6, and a main connection system 7 of the ignition circuit 6, consisting of a multipolar group of contacts 8 and corresponding opposite contacts 9 of the ignition circuit 6, while the contacts 8, preferably in a three-pole metal structure, are located on the bottom surface 18 of the replaceable module 5, with corresponding opposing contacts 9, preferably in a three-pole metal structure are located on the upper part 19 of the housing 4, and at the same time, the protective element 3 is connected with at least one first contact terminal 1 located on one side of the housing 4, and its second pole connected to at least at least one second contact clip 2 located on the opposite side of the housing 4.

The three-pole design of the contacts 8 and the opposite contacts 9 corresponds to the situation when the protective element 3 is a spark gap with three symmetrically or asymmetrically located electrodes. The housing 4 can be equipped with a large number of first contact clips 1 and second contact clips 2 to facilitate the connection of conductors.

The housing 4 can preferably be equipped with a large number of protective elements 3 and the first contact clips 1 corresponding to each of them, and the second contact clips 2. One main connecting system 7 of the ignition circuit 6 and one replaceable module 5 with the ignition circuit 6 then correspond to each protective element 3.

The high voltage protection device in a modular design in accordance with FIG. 1, 2, 4, 5, 6, 7 in a preferred design comprises an optical indicator of the state 10 of the working state of the ignition circuit 6, located on the replaceable module 5, preferably located on its upper surface 17.

An optical status indicator 10 is used to determine the operating state of the ignition circuit 6 and to alert workers to the need to replace the replaceable module 5 if it is inoperative or damaged due to high voltage.

The high voltage protection device in a modular design in accordance with FIG. 1 and 2, in a preferred design, is equipped with a working state alarm connecting system 13, which is connected to the main part 11 on the side of the replaceable working state signaling module 5 of the ignition circuit 6, on the housing side 4 communicating with the secondary working state signaling part 12 connected to the connection point 16 signaling the operating state, preferably in a two-pole or three-pole design, located on one side of the housing 4, while the connecting system 13 signaling p working condition is equipped with contact elements 14 signaling the operating state, preferably in a bipolar or triple pole design located on the lower surface 18 of the replaceable module 5, and the corresponding opposite contact elements 15 signaling the working state, preferably in a bipolar or triple pole design located on the upper part 19 of the housing 4 The connecting system 13 signaling the operating state is used to transmit information about the operating status of the circuit ignition 6 from the replaceable module 5 to the connection point 16 of the operating state alarm on the housing 4. It can be equipped with contact elements 14 and opposite contact elements 15 of the operational state signaling in a metal structure in accordance with FIG. 2, or in a mechanical construction in accordance with FIG. 6.

The operation signaling connecting system 13 according to FIG. 1 as a whole can also be non-contact or wireless, with the transmission of information by means of an electromagnetic field of short radius. The main part 11 of the operating signaling acts as a transmitter and / or receiver of the carrier frequency, the contact element 14 operates as a transmitting and / or receiving antenna, the secondary part 12 of the signaling of the working state acts as a receiver and / or transmitter of the carrier frequency, and the opposite contact Element 15 operates as a receiving and / or transmitting antenna. You can also consider the use of short-range radio chips based on radio frequency identification technology, or the so-called NFC short-range radio standard, or transmission technologies using the optical or infrared part of the electromagnetic spectrum. Thanks to the radio frequency identification (RFID) technology and the near radio standard (NFC), the chips can be installed both in the active design, which has its own power supply, and in the passive design, without its own power supply, that is, suitable for installation in replaceable module 5. Both of these technologies make it possible at least one-way data exchange between terminal equipment, which is sufficient for certain purposes.

The bipolar design of the metal contact elements 14 and the opposite contact elements 15 allows signaling only basic information about the working state of the ignition circuit 6 in the event of a galvanic connection, that is, is it in working or malfunctioning state; also occurs in mechanical construction. The transfer of more advanced status information can be used in a three-pole design of metal contact elements 14 and opposite contact elements 15 when they are galvanically connected, or when using radio chip technology.

If the housing 4 has more protective elements 3 and is modified to connect the required number of replaceable modules 5 with ignition circuits 6, all replaceable modules 5 or only some of them can be equipped with the main parts 11 for signaling the working state of the ignition circuit 6 and connecting systems 13 for signaling the working state related to them. On the side of the housing 4, each operating condition signaling connection system 13 may be connected to its own secondary operating status signaling part 12 on the housing side 4, or one common secondary operating status signaling part 12 may be installed for all operating signaling connecting systems 13. With regard to the structure used, the connection point 16 of the signaling of the operating state can be individual, that is, intended for a specific replaceable module 5, or common to a whole group of replaceable modules 5.

The high voltage protection device in a modular design in accordance with FIG. 1, 2, 3, 7, 8, 9, in a preferred design, contains contacts 8 of the ignition circuit 6 and / or contact elements 14 of the operating state alarm, which are directing contacts or flexible spring-loaded contacts and opposite contacts 9 of the ignition circuit 6, and / or opposite contact elements 15 signaling the operating state in the form of plugs or contact surfaces.

The main connection system 7 of the ignition circuit 6 and / or the connection system 13 for signaling the operating state may comprise guide contacts and corresponding plugs as shown in FIG. 2, 3, 7, 8, 9 and / or spring-loaded contacts and their corresponding contact surfaces.

The high voltage protection device in a modular design in accordance with FIG. 1, contains a protective element 3, which is preferably formed by a spark gap with symmetrically or asymmetrically arranged electrodes, or a multi-spark gap containing at least two spark gap connected in series, or at least two gas dischargers arranged in series.

The protective element 3 contains one or more electronic elements characterized by an ignition circuit 6, which is necessary for proper operation.

In a high voltage protective device in a modular design in accordance with FIG. 2-6, the housing 4 is attached to the profiled surface using an oppositely profiled fastener 20 located on the lower side of the housing 4, or the housing 4 is attached to a flat surface using a plate with holes, or the housing 4 is installed in the holder, shape, size and carrier whose ability corresponds to the hull 4.

In the basic design, a high voltage protection device is installed by shifting the housing 4 onto a profile of a corresponding shape, usually a mounting strip. If the bottom surface is flat, the housing 4 is attached to it using detachable connections, for example, screws or bolts inserted into holes in the plate located on the lower side of the housing 4. The lower side of the housing 4 may have blades designed to be inserted into the blade-shaped lower part. The holder may also have a U-shape, the flexible edges of which cover the sides of the housing 4 and fasten it in the closed position by means of a mutual coupling.

In the protective device against high voltage in a modular design, in the preferred embodiment, the fastening of the replaceable module 5 to the housing 4 in the connected position is a detachable connection or a fastening system, or a mechanical lock.

The fastening of the replaceable module 5 to the housing 4 in the connected position is necessary in particular in situations where the main connecting system 7 of the ignition circuit 6 and at the same time the connecting system 13 for signaling the operating state are spring-loaded contacts and corresponding contact surfaces. In this case, the replaceable module 5 is pushed away from the housing 4. A similar situation occurs if the spring-loaded contacts are in one of the connecting systems, and the second connecting system has guide contacts. Flexible contacts push the replaceable module 5 away from the housing 4, which can lead to mechanical damage or deformation of the guide contacts.

The fastening of the replaceable module 5 to the housing 4 in the connected position is, in the simplest construction, a detachable connection containing at least one screw passing through the replaceable module 5 and screwed into the housing 4. Another option is to use the fastening of the system, for example, using a flexible clamp, preferably metal. Finally, the fastening of the replaceable module 5 to the housing 4 in the connected position can be carried out using mechanical locking, which is, for example, a mutual coupling.

Industrial applicability

The protective device against high voltage in a modular design in accordance with this utility model is a device that can be used where it is necessary to protect people, equipment, mechanisms and metal structures from dangerous contact voltage, high voltage, as well as protection from the effects of electrical vagrants currents. Compared with known devices, this device allows you to replace a damaged or inoperative ignition circuit without the need to simultaneously replace the protective element.

The list of positions:

1. The first contact clamp

2. Second contact clip

3. Security element

4. Case

5. Replaceable module

6. Ignition circuit

7. The main connecting system

8. Contact

9. Opposite contact

10. Optical status indicator

11. The main part of the alarm

12. The minor part of the alarm

13. Connecting alarm system

14. Contact element of the alarm

15. Opposite signaling contact element

16. Alarm connection point

17. The upper surface

18. Bottom surface

19. The upper part

20. Fastener

Claims (7)

1. A protective device against high voltage in a modular design, characterized in that it consists of an electromechanical device that includes a housing (4) with at least one protective element (3), at least one replaceable module (5) with an ignition circuit ( 6) and at least one main connecting system (7) of the ignition circuit (6), characterized in that the main connecting system (7) consists of a multipolar group of contacts (8) and corresponding opposite contacts (9) of the ignition circuit (6), wherein the contacts (8), preferably in a three-pole metal structure, are placed on the lower surface (18) of the replaceable module (5), while the corresponding opposite contacts (9), preferably in a three-pole metal structure, are located on the upper part ( 19) of the housing (4), and at the same time each protective element (3) is connected by one of its poles to at least one corresponding first contact clamp (1) located on one side of the housing (4), and its second pole is connected to at least at least one correspondence a second contact clip (2) located on the opposite side of the housing (4). 2. The protective device against high voltage in a modular design according to claim 1, characterized in that it has an optical status indicator (10) of the working state of the ignition circuit (6), located on the replaceable module (5), preferably on its upper surface (17) . 3. The protective device against high voltage in a modular design according to claim 1 or 2, characterized in that it has at least one connecting system (13) for signaling the operating state, on the side of the replaced module (5) connected to the main part (11) of the signaling the working state of the ignition circuit (6), on the side of the housing (4) connecting to the secondary part (12) of the working state signal connected to the connection point (16) of the working state signal, preferably in a bipolar or three-pole design, laid on one side of the housing (4), while the connecting system (13) for signaling the operating state has contact elements (14) for signaling the working state, preferably in a bipolar or tripolar design, located on the lower surface (18) of the replaced module (5), and corresponding opposite contact elements (15) signaling the operating state, preferably in a bipolar or tripolar design, located on the upper part (19) of the housing (4). 4. The protective device against high voltage in a modular design according to paragraphs. 1-3, characterized in that the contacts (8) of the ignition circuit (6) and / or contact elements (14) of the operating state alarm are directing contacts or spring-loaded contacts, and the opposite contacts (9) of the ignition circuit (6) and / or Opposite contact elements (15) of the operating state signal are formed by forks or contact surfaces. 5. The protective device against high voltage in a modular design according to paragraphs. 1-4, characterized in that the protective element (3) is preferably formed by a spark gap with symmetrically or asymmetrically arranged electrodes or a multi-spark gap having at least two spark gap connected in series, or at least two gas dischargers arranged in series. 6. The protective device against high voltage in a modular design according to paragraphs. 1-5, characterized in that the mounting of the housing (4) to the strip with a profiled surface is an oppositely profiled fastener (20) located on the lower side of the housing (4), or the mounting of the housing (4) to a flat surface is carried out using a plate with holes, or the housing (4) is attached to the holder, the shape, size and bearing capacity of which is suitable for the housing (4). 7. The protective device against high voltage in a modular design according to paragraphs. 1-6, characterized in that the fastening of the replaceable module (5) to the housing (4) in the connected position is a detachable connection or a fixing system, or a mechanical lock.

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