RU2773306C1 - Clamp for connecting external conductors - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: clamp for connecting external conductors includes a clamp base in the form of a rectangular-section chute with beveled sidewalls with inwardly curved edges forming slots, an L-shaped conductive bar with a hole on the short side, with the long side thereof in the clamp base, a wedge-shaped hold-down clamp in the form of a chute with beveled sidewalls and a flat base and a back wall with a threaded hole, a bolt set in the hole of the conductive bar and screwed into the threaded hole of the back wall of the wedge-shaped hold-down clamp, moving along the conductive bar when the bolt is screwed, clamping the external conductor inserted between the bottom of the clamp base and the conductive bar.

EFFECT: ensured strong connection of external conductors to electrical devices on passage of high currents.

3 cl, 5 dwg

Description

The invention relates to the field of electrical engineering and is intended for connecting external conductors to electrical devices.

Widely known and used are contact screw clamps specified in GOST 25034-85. This standard applies to screw terminals for rated current up to 63 A and it sets the following terminal designs depending on the method of connection with conductors: screw to flat terminal (with mounting head, with mounting nut, with clamping plate, for cable lugs); screw to the female terminal (end, cap) intended for connection of conductors: from copper, aluminum-copper, aluminum, aluminum alloys. These designs are not universal and are used for connection to a rated current of not more than 63 A.

A clamp clamp is known (Pat. RU2480873 (C2), IPC H01R 4/36, publ. 27.04.2013, Bull. No. 12) with a profile U-shaped clamp having first and second side sections containing windows coinciding in the center with each other and a jumper connecting them, provided with a threaded hole for tightening the screw, which presses the electrical busbar to the external conductor passed through the windows.

The disadvantage of this clamp is that it does not provide uniform pressing of the busbar and the outer conductor, which limits its use at high rated current.

A known clamp for connecting external conductors (Pat. RU181878 (U1), IPC H01R 4/36, publ. 07/26/2018, Bull. No. 21) intended for use in the field of electrical equipment and containing a metal block, in the upper part of which a threaded hole is made, designed for the through passage of the clamping screw, which is spring-loaded with a washer, and the lower part of the screw, located inside the metal block, at the place where the pressure contact plate is fastened by flaring, is elongated in the form of a pin with a diameter less than the diameter of the clamping screw, while on the clamping contact plate, a flat contact the output and the lower part of the block are made through holes of the appropriate diameter to interact with the pin with the possibility of connecting an external conductor with an annular cable lug.

The disadvantage of this clamp is that it has a limited clamp area, which limits its use at high rated current.

Known clamp with a screw connection for electrical connection of an electrical conductor and busbar, has a stop, concave to the ends, so that the wire and busbar are attached between the stop extension and the clamp body (Pat. DE102011050212 (A1), IPC H01R 4/36, H01R 4/38 , Priority 05/09/2011, Published 11/15/2012 - Screw connection clamp for electrically interconnecting electrical conductor and bus bar, has thrust piece concavely bent towards ends such that conductor and bus bar are fastened between extension of thrust piece and clamp body) containing casing of the clamp, in which the external electrical wire and the bus are located, the spring-loaded clamping element is made in the form of a loop spring or a leaf spring from a spring-metal tape and exerts pressure on the external conductor and the bus with the help of a clamping screw screwed into the threaded hole of the clamp body.

The disadvantage of this clamp is that the direct clamping is carried out by a spring, which heats up and weakens at high currents, which leads to a weakening of the contact.

A common disadvantage of the above clamps, which limits their use for connecting external conductors to electrical devices, is that, due to the perpendicular position of the clamping screw and clamping its external conductor, it is impossible to place in the same plane (for example, on the front panel of an electrical device) the head of the clamping screw and the insertion point of the external conductor.

Known connecting clamp for electrical conductors (Pat. RU2467437 (C1), IPC H01R 4/38, H01R 4/50, publ. 20.11.2012, Bull. No. 32) containing a metal case and clamping elements in the form of two oppositely directed clamping wedges, separated by a corrugated conductive contact partition with a specific electrical resistance of the material, less than the specific electrical resistance of the connected conductors, while the clamping wedges are made with a sharpening angle, less than the angle of their friction against the clamp body, and are equipped with clamping screws installed in the body with the ability to maintain the direction of the axis of their movement when screwing parallel to the direction of movement of the clamping wedges.

The disadvantage of this clamp is that the clamp screws are on opposite sides of the clamp, which does not allow its use in electrical devices for connecting external conductors.

Known clamp (Pat. DE102009008934 (A1), IPC H01R 4/36, H01R 9/26, priority 02/13/2009, publ. 08/19/2010 - Electrical connecting terminal i.e. series terminal, for use as frontal terminal, has spring force element including opening via which current bar directly contacts conductor, where bar is arranged on spring force element) for use as a front clamp, has a spring force element, including an opening through which the current bar directly contacts the conductor, and the bar is located on the spring force element. The clamp has a spring force element made of a steel spring tape bent for longitudinal coverage of the outer conductor inserted between the two inner sides of the spring force element. One side of the spring power element is a support for clamping the outer conductor and has a rigid connection with the current bus. The opposite side of the spring force element is free and curved in an arc so that the free end forms a clamping leg for applying a clamping force to the outer conductor. The clamping force is regulated by a screw, which, when tightened, moves parallel to the busbar and presses tangentially on the curved side of the spring force element and presses the clamping leg against the inserted outer conductor. The whole structure is placed on a base, which has a front and side walls. There are two holes on the front wall, one next to the side wall for the outer conductor and a second threaded hole for the screw. The spring power element together with the current bus are placed in a slot-like recess in the base, along the side wall against the hole for the external conductor. To clamp the external conductor, a screw is screwed into the threaded hole, which, when tightened, presses on the curved side of the spring force element and presses the clamping leg against the inserted external conductor.

The disadvantage of this clamp is that it does not provide reliable uniform clamping of the outer conductor to the current bus, since direct clamping is carried out at one point by the clamping leg, which heats up and weakens at high currents, which leads to weakening of the contact and overheating in the area of the contact zone.

The technical objective of the invention is to create a clamp that provides a strong connection of external conductors to electrical devices during the passage of high currents, does not contain spring elements for pressing external conductors and allows the insertion of an external conductor and its tightening from one side.

The problem is solved by the fact that the clamp for connecting external conductors includes a clamp base in the form of a rectangular trough with beveled sidewalls and inwardly bent edges, forming grooves, an L-shaped conductive bar having a hole on the short side and inserted with its long side into the base of the clamp with its low side, a wedge-shaped clamp in the form of a gutter with beveled sidewalls and a flat base as wide as a conductive bar and a back wall formed by extensions of one sidewall bent together and a bent extension of the base of the clamp superimposed on it, while the rear wall has a threaded hole, a bolt inserted into the hole of the conductive bar and screwed into the threaded hole of the rear wall of the wedge-shaped clamp mounted on a conductive bar with a wedge in the direction of the bolt head, and with its sides into the grooves of the clamp base, the wedge-shaped clamp, when screwing the bolt, moves along the conductive bar inside the clamp base a, at the same time, the outer conductor is clamped, which is inserted from the side of the bolt head between the bottom of the clamp base and the conductive strip.

The novelty of the clamp for connecting external conductors lies in the fact that in order to increase the strength of the connection and increase the contact surface of the external conductor and the conductive strip, a wedge-shaped clamp is used that moves between the conductive strip and the grooves of the clamp base with a bolt and clamps the conductive strip and the external conductor with its flat base.

In addition, the conducted patent search showed that similar solutions were not found in the prior art, which also indicates the novelty of the claimed invention.

The essence of the invention is illustrated by drawings of a clamp for connecting external conductors assembled with an inserted external conductor in different angles, where in Fig. 1 shows a general view of the clamp, figure 2 shows a view from the rear side, fig. 3 is a side view, FIG. 4 shows a longitudinal section of the clamp assembly, in Fig. 5 shows an example of a possible use of the clamp.

The clamp for connecting external conductors (Fig. 1-4) includes the base of the clamp 1, in which an L-shaped conductive bar 2 is installed, on which a wedge-shaped clamp 3 is installed and along the conductive bar 2 is inserted into the base of the clamp 1, inserted into the hole of the conductive bar 2 and screwed into the threaded hole of the wedge-shaped clamp 3 bolt 4. As additional elements, there is a spring washer 6 under the bolt head and a retaining ring 5 at the end of the bolt. Outer conductor 7 is shown to illustrate the connection.

The base of the clamp 1 has the shape of a rectangular trough with beveled sidewalls and inwardly curved edges parallel to the sidewalls of the base, forming grooves that are designed to hold the wedge-shaped clamp 3. and connections to the internal circuits of the electrical device. The conductive bar 2 has a hole for the bolt 4 on its short side. The wedge-shaped clamp 3 has the shape of a trough with beveled sides with a bevel angle equal to the bevel angle of the sides of the clamp base 1 and a flat base with a width of the conductive bar and a back wall formed by extensions of one sidewall and the base of the clamp bent together. . Moreover, first the sidewall is bent so that its edge is superimposed on the end of the opposite sidewall, then it is bent by imposing on the already bent sidewall the continuation of the base of the wedge-shaped clamp 3, as shown in Fig. 2 and 3. The rear wall of the wedge-shaped clamp 3 has a threaded hole for the bolt 4. The centers of the holes in the conductive strip 2 and in the wedge-shaped clamp 3 are on the same horizontal line, as shown in FIG. 3 and 4. Clamp base 1 and wedge clamp 3 are made of sheet steel. Conductive strip 2 is made of solid copper or other metal with high electrical conductivity. Bolt 4 is made of metal. In the case of using the clamp in electrical devices subject to vibration or significant temperature changes, a standard spring washer 6 is used in the clamp to prevent weakening of the clamping force. The retaining ring 5 is designed to prevent the wedge-shaped clamp 3 from falling out of the base of the clamp 1 in case of accidental unscrewing of the bolt. The clamp assembly consists of the following steps:

в основание зажима 1 с его низкой стороны вставляется длинной стороной токопроводящая планка 2 и продвигается до упора;

a conductive strip 2 is inserted into the base of the clamp 1 from its low side with the long side and advanced until it stops;

в основание зажима 1 с его высокой стороны вставляется клиновидный прижим 3 и продвигается по токопроводящей планке 2 в пазы основание зажима 1;

a wedge-shaped clamp 3 is inserted into the base of the clamp 1 from its high side and moves along the conductive bar 2 into the grooves of the base of the clamp 1;

в отверстие токопроводящей планки 2 вставляется болт 4 и ввинчивается в резьбовое отверстие клиновидного прижима 3;

a bolt 4 is inserted into the hole of the conductive strip 2 and screwed into the threaded hole of the wedge-shaped clamp 3;

собранный зажим помещается в корпус из изолирующего материала при его наличии. На фиг. 5 приведен пример возможного использования зажима в проекте 3-фазного счетчика электроэнергии на 100А. В данном примере приводится использование зажима без корпуса. Зажим (зажимы) помещается между двумя изолирующими пластинами, в которых предусмотрены выемки для фиксации положения зажима. Дополнительный эффект от использования данного зажима проявляется еще в возможности выбора места отверстия под отвертку для зажатия внешнего проводника.

the assembled clamp is placed in a housing made of insulating material, if any. In FIG. 5 shows an example of a possible use of a clamp in a 100A 3-phase electricity meter project. This example shows the use of a clamp without a body. The clip(s) is placed between two insulating plates, which are recessed to secure the position of the clip. An additional effect of using this clamp is also manifested in the possibility of choosing the location of the hole for a screwdriver to clamp the external conductor.

Claims (3)

1. A clamp for connecting external conductors, including a clamp base in the form of a rectangular trough with partially beveled sidewalls with inwardly bent edges forming grooves, an L-shaped conductive strip having a hole on the short side and inserted with the long side into the clamp base from its low side , a wedge-shaped clamp in the form of a trough with beveled sidewalls and a flat base as wide as a conductive bar and a rear wall formed by a bent extension of one sidewall and a bent extension of the base of the clamp superimposed on it, while the rear wall has a threaded hole, a bolt inserted into the hole of the conductive bar and screwed into the threaded hole of the rear wall of the wedge-shaped clamp, installed on the conductive bar with a wedge in the direction of the bolt head and its sides in the grooves of the clamp base, the wedge-shaped clamp moves along the conductive bar inside the clamp base when the bolt is screwed. 2. A clamp for connecting external conductors according to claim 1, characterized in that a retaining ring is installed at the end of the bolt. 3. A clamp for connecting external conductors according to claim 1, characterized in that a spring washer is installed under the bolt head.

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