阅读说明：本技术 适于便于修理螺栓电连接的接触装置 (Contact device adapted to facilitate repair of bolted electrical connections ) 是由 米歇尔·皮耶 于 2018-11-13 设计创作，主要内容包括：一种接触装置(10、20、30、40、50),其适于插入在电连接的具有至少一个螺栓(37、38、39)的两个导体(32和34)的两个接触表面之间,所述装置由金属泡沫板(11)形成,以便减小所述连接的电阻。根据本发明的主要特征,-所述金属泡沫板的表面积至少等于与所述两个导体接触的表面积,所述金属泡沫板的厚度大约是1到2mm；-且所述金属泡沫板包括旨在含有所述螺栓的至少一个圆形开口(12)和位于所述开口与所述接触装置的外边缘之间的至少一个第一预切口(18、28),所述预切口通过在所述泡沫板的厚度的一部分上切割所述泡沫板来制成,以便所述泡沫板可易于沿所述预切口破裂,所述预切口允许所述螺栓在安装所述接触装置期间穿过所述预切口。(A contact device (10, 20, 30, 40, 50) adapted to be inserted between two contact surfaces of two conductors (32 and 34) electrically connected with at least one bolt (37, 38, 39), said device being formed by a metal foam plate (11) in order to reduce the electrical resistance of said connection. According to a main characteristic of the invention, -the surface area of the metal foam plate is at least equal to the surface area in contact with the two conductors, the thickness of the metal foam plate being approximately 1 to 2 mm; -and the metal foam plate comprises at least one circular opening (12) intended to contain the bolt and at least one first pre-cut (18, 28) between the opening and the outer edge of the contact device, the pre-cut being made by cutting the foam plate on a portion of its thickness so that the foam plate can be easily broken along the pre-cut, the pre-cut allowing the bolt to pass through the pre-cut during the installation of the contact device.)

1. A contact device (10, 20, 30, 40, 50) adapted to be inserted between two contact surfaces of two conductors (32 and 34) with at least one bolt (37, 38, 39) of an electrical connection, said device consisting of a metal foam plate (11) with high porosity and deformability, so as to reduce the electrical resistance of said connection.

The method is characterized in that:

the surface area of the metal foam sheet is at least equal to the contact surface area of the two conductors,

the metal foam plate comprises at least one circular opening (12) intended to contain the bolt and at least one first pre-cut (18, 28) between the opening and the outer edge of the contact device, made by cutting the foam plate on a portion of its thickness, so as to weaken the foam plate and make it liable to be fragile along the pre-cut, which allows the bolt to pass through the pre-cut during the installation of the contact device between the two contact surfaces of the two conductors.

2. Contact device (10, 20, 30, 40, 50) according to claim 1, comprising a gripping member (21, 31) located outside the surface of the foam board (11), the gripping member (21, 31) being intended to contact the contact surfaces of the two conductors.

3. Contact device (20, 40) according to claim 1 or 2, comprising two pre-cuts (28, 29), each forming a straight section, a first end of the straight section is located on an edge of the opening (12) and a second end of the straight section is located on an outer edge of the foam board, the pre-cuts (28, 29) being spaced apart by a distance equal to the diameter of the opening, a portion of the foam panel being delimited by the two pre-cuts (28, 29), a portion of the edge of the opening (12) and a portion of the edge of the foam panel form a piece of removable foam (23), each of the pre-cuts being made by cutting the foam sheet over a portion of its thickness so as to weaken the foam sheet and make it susceptible to being frangible along the pre-cut.

4. The contact device (50) according to any one of claims 1 or 2, comprising a second pre-cut (19) in extension of the first pre-cut (18), the pre-cut (19) being a straight section, the first end of the straight section being located on the edge of the opening (12) and the second end of the straight section being located on an upper outer edge of the foam board (11), the pre-cut (19) being made by cutting the foam sheet over a portion of its thickness so as to weaken the foam sheet and make it easily breakable along the pre-cut (19).

5. The contact device (50) according to claim 2 or 4, comprising two pieces of foam (111 and 112) held together by the gripping member (31) after the foam board (11) has been cut along the two pre-cuts (18 and 19).

6. Contact device (50) according to claim 5, wherein the gripping member (31) is made of a resilient and preferably non-conductive material, such as rubber.

7. Contact device (50) according to claim 4, 5 or 6, wherein the foam sheet comprises an additional pre-cut (16), the additional pre-cut (16) being parallel to the edge carrying the gripping member (31) and being close to the gripping member (31) in order to further facilitate the insertion of the foam sheet between the two contact surfaces of the two conductors.

8. Contact arrangement (10, 20, 30, 40, 50) according to any of claims 2 to 7, wherein the gripping member (21, 31) is a member for giving information about the electrical connection with the contact arrangement.

9. Contact arrangement (10, 20, 30, 40, 50) according to claim 8, wherein the grip member (21, 31) has a temperature indicator in order to provide an indication of the temperature reached in the electrical connection.

Technical Field

The present invention relates to the technical field of electrical connections and devices making it possible to increase the electrical conductivity through these connections, and in particular to a contact device suitable for facilitating the repair of bolted electrical connections.

Background

In the field of electrical engineering, electrical connections are subjected to high currents and high temperatures. When the contact surface deteriorates due to corrosion or oxidation, the electrical contact heats up and electrical losses increase over time. Trimming thereof is essential. Generally, it is also necessary to maintain all electrical connections to which metal parts are in contact, and not only connections through which large currents flow. The contact devices described in the applications WO2004049515 and WO2012007701 make it possible to increase the electrical conductivity of the electrical connection and to slow down the deterioration of the contact surface. In order to be as efficient as possible, the contact surface of the contact device must be the same size as the contact surface of the electrical connection. In the case of a bolted electrical connection, the contact means has a circular opening for the bolt to pass through the contact means. Therefore, mounting the contact device requires complete disassembly of the bolted connection. Also, in the case of conventional routine maintenance operations, such as re-machining the contact surfaces, the contacts must be completely disassembled.

When these connections are placed high on the transformer outlet or in difficult to access locations, the risk of losing nuts, washers or bolts increases. Furthermore, wearing mandatory safety equipment (e.g., gloves and protective straps) limits the manual capabilities of the operator. It is estimated that the proportion of sites affected by the harm of a dropped clamping element is between 10% and 20%. Furthermore, a clamping element falling into the electrical system can cause a short circuit, requiring an interruption of the installation in order to search for and remove the clamping element. The loss of time and the resulting production downtime can be very significant and costly. Furthermore, the widespread use of non-magnetic aluminum or stainless steel bolts to limit overheating in alternating current applications prevents the use of magnets to remove the bolts from inaccessible locations, further complicating the removal operation. This risk of dropping is so great that routine maintenance actions are handled for electrical connections heated to 100 ℃ and higher, and routine maintenance actions are postponed for other electrical connections. Therefore, the average temperature of the circuit is higher, which reduces the electrical efficiency due to the 40% increase in the resistance of copper or aluminum at 100 ℃. The high temperature of the circuit causes degradation of the electrical contacts, greatly reducing safety, and results in a self-degrading system.

Furthermore, when placing a metal foam conductive element between two contact surfaces of a faulty electrical connection, the operator must also loosen and remove the bolts at the risk of losing the contact element. Furthermore, the cables and poles carried by the connection may be heavy, and holding them during a complete disconnection may require great effort and bulky handling equipment in areas that are often difficult to access.

Disclosure of Invention

This is why the object of the invention is to provide a contact arrangement for improving the bolted electrical connection and reducing its temperature, the mounting of which does not require the complete dismantling of the contacts.

The object of the present invention is therefore a contact device suitable for being inserted between two contact surfaces of two conductors of an electrical connection having at least one bolt, said device being formed by a highly porous and deformable metal foam plate, in order to reduce the electrical resistance of said connection. According to a general feature of the invention:

the surface area of the metal foam sheet is at least equal to the contact surface area of the two conductors,

the metal foam plate comprises at least one circular opening intended to contain a bolt and at least one first pre-cut located between the opening and the outer edge of the contact device, said pre-cut being made by cutting the foam plate over a portion of its thickness so as to weaken the foam plate and make it liable to be fragile along said pre-cut, said pre-cut allowing a bolt to pass through said pre-cut during the installation of the contact device between the two contact surfaces of the two conductors.

Drawings

The objects, objects and features of the present invention will become more apparent from the following description when taken in conjunction with the accompanying drawings, in which:

figure 1 shows a device according to the invention according to a first preferred embodiment,

figure 2 shows a device according to the invention according to a second embodiment,

figure 3 shows the mounting of a device according to the invention in a bolted electrical connection according to a second embodiment,

figure 4 shows a bolted electrical connection with a device according to the invention according to a second embodiment,

figure 5 shows a device according to the invention according to a variant of the first embodiment,

figure 6 shows a device according to the invention according to a variant of the second embodiment,

figure 7 shows the mounting of a device according to the invention according to a first embodiment in an electrical connection with three bolts,

figure 8 shows a device according to the invention according to a third embodiment,

figure 9 shows the mounting of a device according to the invention in a bolted connection according to a third embodiment,

Detailed Description

Referring to fig. 1, the device according to the invention is a contact device 10 consisting of a circular shaped metal foam plate 11 known by the name ecoco contact (registered trademark). The metal foam plate 11 comprises an opening 12 and at least one first pre-cut 18. The pre-cut 18 forms a straight section with a first end on the edge of the opening 12 and a second end on the lower outer edge of the foam board 11. Gripping members 21 located outside the circular surface and along the outer edges of the foam boards 11 allow the element 10 to be held in the hand.

Fig. 2 illustrates a second embodiment of the device according to the invention. The device according to the invention is a contact device 20 consisting of a metal foam plate 11 of rectangular shape. The metal foam plate 11 comprises a circular opening 12, a first precut 28 and a second precut 29. The two pre-cuts 28 and 29 form two sections, the first end of which is located on the edge of the opening 12 and the second end of which is located on the lower outer edge of the foam board 11. Furthermore, the precuts 28 and 29 are parallel and separated by a distance preferably equal to the diameter of the opening 12. A gripping member 21 located outside the rectangular surface and along the upper edge of the foam board 11 allows the element 20 to be held in the hand.

In both of the embodiments described above and in the following description, making the pre-cut consists in cutting the foam over a portion of its thickness, so as to weaken it and make it easily breakable along the pre-cut. The pre-cuts are made by laser, pressing, punching or any other means.

In the second embodiment the detachable foam sheet 23 is formed by two pre-cuts 28 and 29, the part of the foam board delimited by a part of the edge of the opening 12 and by a part of the lower edge of the foam board.

As can be seen in fig. 3, the contact device 20 is designed to be inserted between two conductors 32 and 34 electrically connected by tight contact by means of a tightening member, for example a tightening bolt 37 passing through the two conductors and the foam plate 11 via the opening 12. The shape of the foam sheet corresponds to the shape of the contact surfaces of the two conductors. Thus, for each bolted electrical connection, the foam board is sized and shaped to fit the contact surface of the electrical connection. The gripping member 21 is of any shape, provided that it protrudes from the electrical connection when the contact device is inserted between the contact surfaces of the electrical connection. Thus, for all the embodiments described, the gripping member is located outside the surface of the foam board 11, intended to contact the contact surfaces of the two conductors of the electrical connection.

To insert the contact device 20 between the two conductors 32 and 34, the bolts have been loosened to move the conductors apart by a distance at least equal to the thickness of the foam, and the removable foam sheet 23 has been removed from the foam board 11. To install the contact device 20 between two conductors, an operator holds the contact device 20 by means of the holding device 21 of the contact device 20 and inserts the contact device 20 straddling the bolt 37 until the bolt is positioned in the opening 12. The operator can also insert the sheet 23 in the remaining space between the pre-cuts 28 and 29 and tighten the bolts 37. Once these operations have been carried out, only the gripping means 21 of the contact means 20 protrude from the electrical connection, as can be seen in fig. 4.

Fig. 5 shows an alternative embodiment of the first embodiment of the contact surface intended for an electrical connection with several bolts. In the example shown, the device according to the invention is a contact device 30 consisting of a metal foam plate 11 of rectangular shape. The metal foam plate 11 comprises three openings 12 and at least one first precut 18 per opening. Each pre-cut 18 is a straight section with a first end located on the edge of one of the openings 12 and a second end located on the outer edge of the foam board 11. A precut 18 is connected to each opening. Grip members 21 located outside the rectangular surface of foam board 11 allow element 30 to be held in the hand. Along the pre-cut 18 and on the side of its second end, the foam board may also have two rounded corners, as shown in fig. 5.

Likewise, fig. 6 shows an alternative embodiment of the second embodiment of the contact surface intended for an electrical connection with several bolts. The device according to the invention is a contact device 40 consisting of a metal foam plate 11 of rectangular shape. The metal foam plate 11 comprises three circular openings 12 and at least one first pre-cut 28 and second pre-cut 29 per opening 12. For each opening 12, the two pre-cuts 28 and 29 are straight sections with a first end on the edge of the opening 12 and a second end on the lower edge of the foam board 11. The precuts 28 and 29 are parallel and separated by a distance preferably equal to the diameter of the opening 12. The contact device 40 also comprises a grip element 21.

Fig. 7 shows the installation of the device according to the invention according to the first embodiment shown in fig. 5 in an electrical connection with three bolts, according to fig. 7, the contact device 30 being inserted between two conductors 32 and 34. To this end, the bolts 37, 38 and 39 are loosened so as to move the conductor by a distance at least equal to the thickness of the foam, and the foam slab is cut along each pre-cut 18 over its entire thickness. To install the contact device 30 between two conductors, the operator removes the two portions of foam and slightly bends them on either side of each old pre-cut 18 in order to remove their edges so that a bolt can pass between them. The operator grasps the contact device 30 by the gripping device 21 of the contact device 30 and inserts it between the two conductive elements 32 and 34, each opening 12 straddling a bolt 37, 38 and 39. The contact means are mounted when each bolt is placed in the opening 12. The operator then tightens the bolts and, while the two contact surfaces of the conductors 32 and 34 are getting closer together, the foam board 11 is flattened and the slightly curved edges of the parts on either side of each old pre-cut 18 are also flattened and cover the whole contact surface of the connection. Once these operations have been carried out, only the gripping means 21 of the contact means 30 protrude from the electrical connection.

According to fig. 8 showing a third embodiment of the invention, the contact device 50 consists of a metal foam plate 11 of rectangular shape. The metal foam plate 11 comprises an opening 12, a first precut 18 and at least one second precut 19. The pre-cut 18 is a straight section with a first end located on the edge of the opening 12 and a second end located on the lower outer edge of the foam board 11. The precut 19 is positioned in the extension of the precut 18. The pre-cut 19 is a straight section with a first end on the edge of the opening 12 and a second end on the upper outer edge of the foam board 11. The gripping member 31, which is located outside the rectangular surface of the foam board 11, allows the element 50 to be held in the hand. Furthermore, the gripping member 31 is located on the upper outer edge of the contact device 50 and holds the foam board even when it is cut over the entire length of the pre-cuts 18 and 19. The foam board may also comprise an additional pre-cut 16 parallel to the edge of the load-bearing gripping member 31 and close to the former. This precut 16 is preferably perpendicular to the precut 19.

Referring to fig. 9, a contact device 50 is interposed between the two conductors 32 and 34. To this end, the bolts 37 have been loosened so as to move the conductor away by a distance at least equal to the thickness of the foam. The foam sheet 11 has been cut along the pre-cuts 18 and 19 over its entire thickness and comprises two portions of foam 111 and 112 held together by the gripping member 31. The gripping member 31 is also a member for hinging the two portions of foam 111 and 112 relative to each other and for moving the two portions of foam 111 and 112 away from each other to insert them between the conductors straddling the bolt 37. This embodiment is particularly suitable and advantageous when the spacing between the two surfaces of the electrical connection cannot be made larger than the thickness of the foam without the risk of losing the nut. The gripping member functions as a hinge and is made of a resilient and preferably non-conductive material, such as rubber. If necessary, the foam sheet may also be cut along its additional pre-cut 16 in order to further facilitate the insertion of the foam sheet between the two contact surfaces of the two conductors. Regardless of the embodiment of the invention, the gripping members 21 and 31 protrude from the electrical connection when the contact device is inserted between the contact surfaces of the electrical connection. Therefore, the grip members 21 and 31 are members for visually recognizing the electrical connection with the metal foam. Further, the holding members 21 and 31 can be used as reference members by inputting therein a lot number, a date, or a reference to another reference. The gripping member 21, 31 may also have a temperature indicator in order to provide an indication of the temperature reached in the electrical connection, and in particular when a maximum allowable temperature is reached in the electrical connection. The temperature indicator may be a strip that changes color depending on the temperature.

The metal foam of the contact means 10, 20, 30, 40 and 50 is an open-cell foam consisting of a metal foam skeleton selected from the group consisting of iron, cobalt, nickel and alloys thereof, which is directly coated with at least one metal coating, for example a coating of one of tin, indium or an alloy thereof. The foam is obtained according to the production method described in application WO 2012007701. The structure of the foam 10 thus obtained is porous and its physical properties are mainly high porosity and deformability, which has the effect of reducing the electrical resistance of the connection, and about 400g/m²The effect of low density. The thickness of the metal foam plate of the device according to the invention is about 1 to 2 mm.

One of the advantages of the device according to the invention is that it permanently reduces the temperature of the electrical connection. The result is improved electrical efficiency, reduced circuit degradation, and improved safety.

Furthermore, the contact arrangement according to the invention has the advantage of providing the user with a choice of his use. In fact, the contact device according to the invention consists of a foam plate with a three-in-one function, since the user can choose between three alternatives:

cutting the foam board along the pre-cuts and thus obtaining a foam board with suitable cuts to enable introduction of the device without completely unscrewing the bolted connection,

cutting the foam board along the intervening cut if necessary and thus obtaining a foam board with a suitable cut in order to introduce the device into the bolt connection that is not completely unscrewed,

the foam board is not cut along the pre-cuts and therefore the entire foam board is used, while benefiting from a foam board whose electrical conductivity is not interrupted by cuts.

A simple cut instead of a pre-cut would not allow these alternatives. Furthermore, if the pre-cuts of the embodiments of fig. 2, 3, 5 and 6 are replaced by cut-outs (cutouts), the result will no longer be one-piece contact devices but contact devices made of several pieces, which results in the disadvantage that: risk of loss and incomplete contact means not covering the entire surface of the connection.