RU2343606C1 - Electric wire connector - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention can be used to connect conductors in direct- and (or) alternating current electric circuits as electric units, multipliers, adapters. In electric wire connector, each of connected conductors is fitted between one of the split cones pivotally attached to free end of coiled torsion spring and common conductive path. Conductive path and split cones comprise clamp located in the body made of electric insulating material. The body consists of two reflection symmetric interconnected halves and has the shape of multipoint e.g. three-point star.

EFFECT: application field widening and improvement of electric wire connection reliability.

4 cl, 23 dwg

Description

The invention relates to the field of electrical engineering and can be most effectively used to connect the conductors of electrical circuits of direct and (or) alternating current.

The invention relates to a connection clamp for electrical conductors.

A known connector of electrical wires [1], comprising a housing made of an insulating material, and a twisted contact torsion spring located in its internal cavity, a conductive jumper and crackers. In the inner cavity of the housing there is a recess for the conductive jumper, a limiter for the electric wire, guide tabs for the contact spring. The case consists of left and right mirror symmetric halves. The free ends of the contact spring form the shoulders, levers perpendicular to its longitudinal axis. Each shoulder-lever of the contact spring has a horizontal section perpendicular to it, which is parallel to the longitudinal axis of the contact spring. The horizontal section of each shoulder-lever is located in the hole of the cracker. Contact spring, crackers and conductive jumper form clamps.

The main disadvantage of this electrical wire connector is its limited scope.

Known electric wire connector [2], containing a twisted torsion spring, the free ends of which form large and small shoulders. The large shoulders are perpendicular to the axis of the spring, and the small shoulders are perpendicular to the large shoulders and parallel to the axis of the spring, directed towards the spring and located in the cracker hole. Hole cracker perpendicular to its side faces. The axis of the spring is perpendicular to the conductive jumper, in the center of the lower edge of which a cylindrical groove is made to fix the spring, while the spring, the conductive jumper and crackers form a clamp and are pressed against each other with a force determined by the spring parameters. The clamp is located in a housing made of insulating material. A rectangular groove is made in the base of the housing, in which a conductive jumper is placed. Below the groove is a figured nest for a twisted torsion spring. On the wide side faces of the base of the housing, recesses are made in which the large shoulders of the spring are located. Holes are made in the narrow side faces of the base of the housing, into which the ends of the connected electrical conductors are inserted. The base of the casing is covered by a lid. Along the perimeter of the lid, collars are made, with the help of which it rests on the side faces of the housing base. A rectangular protrusion is made in the center of the lid, fixing the clamp at the base of the case. The main disadvantages of this connector of electrical wires are the complexity of the design of the hull parts, the high costs in the manufacture of hull parts, the incomplete use of the possibility of contact springs and the material of the conductive bridge, limited scope.

Also known is a connector for electrical wires [3], comprising a housing of electrical insulation material and a spring clip. The clamp is located in the body of the electrical wire connector and consists of: a conductive jumper, two rectangular closed frames, a pressure bar and three twisted compression springs. The ends of the conductive wires stripped from electrical insulation are sandwiched between the lower edge of the conductive bridge and the inner edge of the lower wall of the rectangular frame. This connector of electrical wires provides the simultaneous connection to one conductive jumper no more than two electrical wires having different cross-sections of the conductive core.

The main disadvantages of this connector are: design complexity, the use of a large number of springs, the incomplete use of contact springs. Due to the use of three springs, uncertainty arises in the distribution of contact pressure. Limited scope.

In terms of the essential features, the closest to the proposed device is the device [1] (prototype).

The aim of this invention is to expand the scope of connectors of electric wires, reducing their material consumption. Reducing the cost of manufacturing and operating electrical wire connectors.

The essence of the invention lies in the fact that in order to expand the scope, reduce material consumption and costs in the manufacture of the body is made in the form of a multi-beam, for example, three-beam, star; the internal cavity in which there is a recess for the conductive jumper, the conductive jumper, the limiter for the electric wire, the guiding protrusions for the contact spring, the contact spring with crackers on the horizontal sections of its arm arms are located in each pair of adjacent halves of the adjacent beams of the housing; in the middle of each beam of the body is a partition; partitions intersect in the middle of each half of the body; the partition, like the case, has the form of a multipath, for example, a three-beam, star; at the point of intersection of the rays of the partition on each half of the body made central cylindrical mounting protrusions; on one of the halves of the body, for example, the left, in the middle of the Central cylindrical mounting protrusion, made a cylindrical mounting recess; on the other half of the body, for example, the right, in the middle of the Central cylindrical mounting protrusion made mounting protrusion located in a cylindrical mounting recess; on one of the halves of the casing, for example the left, from the central mounting protrusion along the center line of each beam of the partition made a rectangular mounting groove; on the other half of the housing, for example, the right, from the central mounting protrusion along the center line of each beam of the partition made a rectangular mounting protrusion; in the inner cavity of both halves of the housing, from the inner edge of one of the narrow short walls of the beam of the housing, to the inner edge of the narrow short wall of the adjacent beam of the housing, a recess is made for the conductive jumper; in the inner cavity of both halves of the housing, above the middle of the recess for the conductive jumper, there is a limiter for electrical wires; each contact spring is mounted on a guide protrusion located in the inner cavity of both halves of the housing, above each stop; on one of the halves of the housing, for example the left, in the center of each guide protrusion for the contact spring, a cylindrical recess is made; on the other half of the housing, for example, the right, in the center of each guide protrusion for the contact spring made mounting protrusion located in the mounting recess; on the narrow short walls of each beam of the left and right halves of the housing are located half of the inlets for the electric wire; on the narrow short walls of each beam of one of the halves of the housing, for example the left, between the inlet openings for the electric wire and the wide wall of the housing, a rectangular hole is made for a pusher designed to interact with horizontal sections of the lever arms of the contact spring; along the entire outer perimeter of the narrow walls of one of the halves of the body, for example the left, a rectangular recess is made; along the outer perimeter of the narrow walls of the other of the halves of the body, for example the right, a rectangular protrusion is placed in a rectangular recess; on the outside of the narrow long walls of each beam, perpendicular to them, both halves of the body are made figured grooves for nameplates; along the perimeter of the inner face of the wide wall of each beam of one of the halves of the body, for example the left, there are mounting holes; on the perimeter of the inner face of the wide wall of each beam of the other half of the housing, for example the right, there are mounting pins.

In order to expand the scope, reduce material consumption and reduce manufacturing costs, adjacent internal cavities and adjacent conductive jumpers of each beam of the housing, from the ends adjacent to the inner faces of the vertices of the rays of the housing to the limiters, are combined.

In order to significantly expand the scope, reduce manufacturing costs, the housing is made in the form of a three-beam star and consists of two mirror-symmetric halves and a module. The module, as a structural element, is facing each other with wide external faces and tightly pressed to each other the left and right halves of the case, so that they make up a single whole. The combined wide walls of the body halves form the internal partition of the module. A contact spring with crackers on the horizontal sections of its arm-levers, a limiter for the electric wire, are located in the inner cavity of adjacent halves of any one pair of adjacent beams of the housing. The guide protrusions for the contact springs are located in the inner cavity of each pair of adjacent halves of adjacent beams of the housing. Recesses for conductive jumpers are combined. The conductive jumper is a three-beam star. One of the beams of the conductive jumper is extended and extends beyond the housing through a hole made in a narrow short wall of the housing and has the dimensions of a standard plug of an electric plug. In the inner planes located on both sides of the beam of the conductive jumper extending beyond the housing, partitions are made from the side facing the conductive jumper. A fixing rectangular groove is made in the center of the partition, on one of the halves of the case, for example, on the left. In the center of another partition, for example, on the right half of the case, a fixing rectangular protrusion is made.

In order to significantly expand the scope, reduce costs in the manufacture of the body is made in the form of a multi-beam, containing an even number, but more than two rays, such as four-beam, star. The housing consists of left and right mirror symmetric halves and a module. The module, as a structural element, represents the left and right halves of the case facing each other with wide external faces and tightly pressed against each other, so that they form a single whole. The combined wide walls of the body halves form the internal partition of the module. In the module, the guiding protrusions for contact springs, the inlet halves, the limiters for the electric wires are located symmetrically with respect to the partition thus obtained. A contact spring with crackers on the horizontal sections of its arm-levers and a limiter for the electric wire are located in the inner cavity of each even (or each odd) pair of adjacent halves of the adjacent rays of the star of the casing. The guide protrusions for the contact springs are located in the inner cavity of each pair of adjacent halves of adjacent beams of the housing. Conducting jumpers and recesses for them are combined. The conductive jumper is a multi-beam, containing an even number, but more than two rays, for example, a four-beam star. One of the beams of the conductive jumper is extended and extends beyond the housing through a hole made in a narrow short wall of the housing and has the dimensions of a standard plug of an electric plug. In the inner planes located on both sides of the beam of the conductive jumper extending beyond the housing, a partition is made from the side facing the conductive jumper. A fixing rectangular groove is made in the center of the partition, on one of the halves of the case, for example, on the left. In the center of another partition, for example, on the right half of the case, a fixing rectangular protrusion is made.

Figure 1-6 shows a General view, assembly, some sections, individual parts of the connector of the electric wires, in which the housing is made in the form of a multi-beam, for example, three-beam, star; the internal cavity in which there is a recess for the conductive jumper, the conductive jumper, the limiter for the electric wire, the guiding protrusions for the contact spring, the contact spring with crackers on the horizontal sections of its arm-arms, is located in each pair of adjacent halves of the adjacent beams of the housing; in the middle of each beam of the body is a partition; partitions intersect in the middle of each half of the body; the partition, like the case, has the form of a multipath, for example, a three-beam, star; at the point of intersection of the rays of the partition on each half of the body made central cylindrical mounting protrusions; on one of the halves of the body, for example, the left, in the middle of the Central cylindrical mounting protrusion, made a cylindrical mounting recess; on the other half of the body, for example, the right, in the middle of the Central cylindrical mounting protrusion made mounting protrusion located in a cylindrical mounting recess; on one of the halves of the casing, for example the left, from the central mounting protrusion along the center line of each beam of the partition made a rectangular mounting groove; on the other half of the housing, for example, the right, from the central mounting protrusion along the center line of each beam of the partition made a rectangular mounting protrusion; in the inner cavity of both halves of the housing, from the inner edge of one of the narrow short walls of the beam of the housing, to the inner edge of the narrow short wall of the adjacent beam of the housing, a recess is made for the conductive jumper; in the inner cavity of both halves of the housing, above the middle of the recess for the conductive jumper, there is a limiter for electrical wires; each contact spring is mounted on a guide protrusion located in the inner cavity of both halves of the housing, above each stop; on one of the halves of the housing, for example the left, in the center of each guide protrusion for the contact spring, a cylindrical recess is made; on the other half of the housing, for example, the right, in the center of each guide protrusion for the contact spring made mounting protrusion located in the mounting recess; on the narrow short walls of each beam of the left and right halves of the housing are located half of the inlets for the electric wire; on the narrow short walls of each beam of one of the halves of the housing, for example the left, between the inlet openings for the electric wire and the wide wall of the housing, a rectangular hole is made for a pusher designed to interact with horizontal sections of the lever arms of the contact spring; along the entire outer perimeter of the narrow walls of one of the halves of the body, for example the left, a rectangular recess is made; along the outer perimeter of the narrow walls of the other of the halves of the body, for example the right, a rectangular protrusion is placed in a rectangular recess; on the outside of the narrow long walls of each beam, perpendicular to them, both halves of the body are made figured grooves for nameplates; along the perimeter of the inner face of the wide wall of each beam of one of the halves of the body, for example the left, there are mounting holes; along the perimeter of the inner face of the wide wall of each beam of the other half of the body, for example the right, fixing pins are located; figure 1 shows a General view of the proposed connector of electrical wires without connecting wires; figure 2 shows the assembly of the proposed connector of electric wires without connecting wires and without the right half of the housing; figure 3 shows a General view of the proposed connector of electric wires with connected wires; figure 4 shows the assembly of the proposed connector of electric wires with connected wires and without the right half of the housing; figure 5 shows the left half of the housing of the proposed connector of electrical wires; figure 6 shows the right half of the housing of the proposed connector of electrical wires.

Figures 7-13 show a general view, assembly, some sections, individual parts of an electric wire connector, in which adjacent internal cavities and adjacent conductive jumpers of each beam of the housing, from the ends adjacent to the inner faces of the vertices of the rays of the housing to the limiters, are combined; figure 7 shows a General view of the proposed connector of electric wires without connecting wires; on Fig depicts the assembly of the proposed connector of electric wires without connected wires and without the right half of the housing; figure 9 shows a General view of the proposed connector of electric wires with connected wires; figure 10 shows the assembly of the proposed connector of electric wires with connected wires and without the right half of the housing; figure 11 shows the left half of the housing of the proposed connector of electrical wires; on Fig shows the right half of the housing of the proposed connector of electrical wires; in Fig.13 shows a jumper of the proposed connector of electrical wires.

On Fig-18 shows a General view, assembly, some sections, individual nodes of the connector of the electric wires, in which the housing is made in the form of a three-beam star and consists of two mirror-symmetric halves and a module; the module, as a structural element, is facing each other with wide external faces and tightly pressed to each other the left and right halves of the body in such a way that they form a single whole; the combined wide walls of the halves of the housing form the internal partition of the module; a contact spring with crackers on horizontal sections of its arm-levers, a limiter for the electric wire are located in the inner cavity of adjacent halves of any one pair of adjacent beams of the housing; recesses for conductive jumpers are combined; the conductive jumper is a three-beam star; one of the beams of the conductive jumper is extended and extends beyond the housing, through an opening made in a narrow short wall of the housing, and has the dimensions of a standard plug of an electric plug; in internal planes located on both sides of the beam of the conductive jumper extending outside the housing, partitions are made from the side facing the conductive jumper; in the center of the partition, on one of the halves of the case, for example on the left, a fixing rectangular groove is made; in the center of another partition, for example, on the right half of the case, a fixing rectangular protrusion is made; on Fig depicts a General view of the proposed connector of electrical wires; on Fig shows a module with clamps and with current-carrying wires; in Fig.16 shows the left half of the housing of the proposed connector of electrical wires; on Fig shows the right half of the housing of the proposed connector of electrical wires; Fig. 18 shows a clip with current-carrying wires.

On Fig-23 shows a General view, assembly, some sections, individual nodes of the connector of the electric wires, in which the housing is made in the form of a multi-beam, containing an even number, but more than two rays, such as four-beam, star; the case consists of left and right mirror symmetric halves and a module; the module, as a structural element, is facing each other with wide external faces and tightly pressed to each other the left and right halves of the body in such a way that they form a single whole; the combined wide walls of the halves of the housing form the internal partition of the module; in the module, guiding protrusions for contact springs, inlet halves, limiters for electrical wires are located symmetrically with respect to the partition thus obtained; a contact spring with crackers on horizontal sections of its arm-levers and a limiter for the electric wire are located in the inner cavity of each even (or each odd) pair of adjacent halves of the adjacent rays of the star of the casing; guide projections for contact springs are located in the inner cavity of each pair of adjacent halves of adjacent beams of the housing; conductive jumpers and recesses for them are combined; the conductive jumper is a multi-beam, containing an even number, but more than two rays, for example a four-beam star; one of the beams of the conductive jumper is extended and extends beyond the housing, through an opening made in a narrow short wall of the housing, and has the dimensions of a standard plug of an electric plug; in the inner planes located on both sides of the beam of the conductive jumper extending beyond the housing, a partition is made from the side facing the conductive jumper; in the center of the partition, on one of the halves of the case, for example on the left, a fixing rectangular groove is made; in the center of another partition, for example, on the right half of the case, a fixing rectangular protrusion is made; on Fig shows a General view of the proposed connector of electric wires; in Fig.20 shows a module with clamps and with conductive wires; on Fig shows the left half of the housing of the proposed connector of electrical wires; on Fig shows the right half of the housing of the proposed connector of electrical wires; Fig.23 shows a clip with current-carrying wires.

The electrical wire connector shown in FIGS. 1-6 comprises: jumpers (3), crackers (5), torsion contact coil springs (4) and a housing (1.1-2.1). The free ends of the contact springs (4) form the lever arms, left (4.2) and right (4.3), perpendicular to the longitudinal axis of the contact spring (4). Each shoulder-lever has a horizontal section perpendicular to it, respectively, the left (4.2.1) and right (4.3.1), which are parallel to the longitudinal axis of the contact spring (4). The housing (1.1-2.1) made of electrical insulating material is a three-beam star. In the particular case under consideration, the housing (1.1-2.1) is located in such a way that one of its rays (1.1.1-2.1.1) is horizontal and directed to the left, one beam (1.1.2-2.1.2) is directed to the right and one beam ( 1.1.3-2.1.3) is directed down. The housing (1.1-2.1) consists of the left (1.1) and right (2.1) mirror-symmetric halves.

The internal cavity (1.2-2.2), in which there is a recess (1.4-2.4) for the conductive jumper (3), the conductive jumper, the limiter (1.3-2.3) for the electric wire (6.1), the guiding protrusions (1.5-2.5) for the contact spring (4), a contact spring (4) with crackers (5) in the horizontal sections (4.2.1-4.3.1) of its shoulder arms (4.2-4.3), is located in each pair of adjacent halves of the adjacent rays of the housing (1.1-2.1) .

The recess (1.4-2.4) for the conductive jumper (3) is made in each inner cavity (1.2-2.2) of both halves (1.1-2.1) of the housing from the inner edge of one of the narrow short walls of the housing, to the inner edge of the opposite narrow narrow wall of the housing (1.1 -2.1). The limiters (1.3-2.3) for the electric wire (6.1) are located in the internal cavities (1.2-2.2) of both halves (1.1-2.1) of the housing, above the recesses (1.4-2.4) for the conductive jumper (3). The guide protrusions (1.5-2.5) are located in the internal cavities (1.2-2.2) of both halves (1.1-2.1) of the housing, above the limiter (1.3-2.3). Contact springs (4) are mounted on the guide protrusions (1.5-2.5). On one of the halves of the housing, for example, the left (1.1), a cylindrical recess (1.5.1) is made in the center of each guide protrusion (1.5) for the contact spring (4). And on the other, for example, the right (2.1), in the center of each guide protrusion (2.5) for the contact spring (4), a fastening protrusion (2.5.1) is located in the mounting recess (1.5.1).

The horizontal section (4.2.1) of the shoulder-lever (4.2) and the horizontal section (4.3.1) of the shoulder-lever (4.3) of each contact spring (4) are located in the hole (5.3) of crackers (5) forming with working faces (3.1 ) jumpers (3) clamps for electric wires (6.1).

Between two adjacent internal cavities (1.2-2.2) of each beam of the casing (1.1-2.1) there is a beam of the partition (1.9-2.8). The partition (1.9-2.8), like the case (1.1-2.1), has the shape of a three-beam star. At the point of intersection of the rays of the partition (1.9-2.8) on each half of the body (1.1-2.1), central cylindrical mounting protrusions (1.9.2-2.8.2) are made. On one of the halves of the housing, for example, the left (1.1), in the middle of the central cylindrical mounting protrusion (1.9.2), a cylindrical mounting recess (1.9.2.1) is made. And on the other half of the case, for example, the right (2.1), in the middle of the central cylindrical mounting protrusion (2.8.2), a mounting protrusion (2.8.2.1) is located in the cylindrical mounting recess (1.9.2.1).

A rectangular mounting groove (1.9.1) is made on one of the halves of the body, for example, the left (1.1), from the central mounting protrusion (1.9.2) along the center line of each beam of the partition (1.9). On the other half of the body, for example, the right (2.1), from the central mounting protrusion (2.8.2) along the center line of each beam of the partition (2.8), a rectangular mounting protrusion (2.8.1) is made.

On the narrow short walls of one of the halves of the housing, for example the left (1.1), are located the halves of the inlets (1.8) for the electric wire (6). And on the narrow short walls of the other half of the case, for example, the right (2.1), there are halves of the inlets (2.7) for the electric wire (6.1). On the narrow short walls of one of the halves of the casing, for example, the left (1.1), between the inlet openings (1.8) for the electric wires (6) and the wide wall of the casing, a rectangular hole (1.7) is made for the pusher intended for interaction with horizontal sections (4.2. 1-4.3.1) of the arm-levers (4.2-4.3) of the contact spring (4).

A rectangular recess (1.12) is made along the entire outer perimeter of the narrow walls of one of the halves of the housing, for example, the left (1.1). A rectangular protrusion (2.11) located in a rectangular recess (1.12) is made along the outer perimeter of the narrow walls of the other half of the body, for example, the right (2.1). On the outside of the narrow long walls, perpendicular to them, both halves of the body (1.1-2.1), figured grooves (1.10-2.9) for the nameplates are made. Mounting holes (1.11) are located around the perimeter of the inner edge of the wide wall of one of the halves of the housing, for example, the left (1.1). Fastening pins (2.10) are located around the perimeter of the inner edge of the wide wall of the other half of the housing, for example, the right (2.1).

The clamps are inserted into the internal cavities (1.2-2.2) of the mirror-symmetric halves of the housing (1.1-2.1). The halves of the housing (1.1-2.1) are fastened to each other by means of fixing pins (2.10) inserted into the mounting holes (1.11), mounting cylindrical protrusions (2.5.1) inserted into the mounting cylindrical recesses (1.5.1), and rectangular mounting protrusions ( 2.8.1) inserted into rectangular mounting grooves (1.9.1), a central mounting protrusion (2.8.2.1) inserted into a central mounting recess (1.9.2.1). The halves of the housing (1.1-2.1) of the connector of the electric wires are tightly pressed against each other, the rectangular protrusion (2.11) is located in the rectangular recess (1.12).

The conductive core (6.2) of the electric wire (6.1) is fixed in the inner cavity (1.2-2.2) of the proposed connector of electrical occasions only when the power source is off.

The proposed connector electrical wires as follows.

To fix the conductive core (6.2) of the electric wire (6.1) on the working edge (3.1) of the conductive jumper (3), using the proposed connector of the electric wires, in one of the holes (1.7), for example, the left, insert the pusher (or screwdriver) and move him to the limit. In this case, the horizontal section (4.2.1) of the shoulder-lever (4.2) of the contact spring (4) moves upward from the working face (3.1) of the jumper (3). The cracker (5) moves together with the horizontal section (4.2.1) of the shoulder - lever (4.2) of the contact spring (4). Between the working face (3.1) of the conductive jumper (3) and cracker (5), a gap is formed in which through the inlet (1.8-2.7) the end of the conductive core (6.2) of the electric wire (6.1) stripped from electrical insulation is inserted until it stops with a stopper ( 1.3-2.3). Then the pusher is removed from the hole (1.7). In this case, the horizontal section (4.2.1) of the shoulder-lever (4.2) of the contact spring (4) moves towards the working face (3.1) of the conductive jumper (3). The end of the conductive core (6.2) of the electric wire (6.1), stripped from electrical insulation, is pressed by a cracker (5) to the working face (3.1) of the conductive jumper (3) with a force determined by the parameters of the contact spring (4).

The conductive core (6.2) of the electric wire (6.1) is fixed on the working edge (3.1) of the conductive jumper (3) through any other inlet (1.8-2.7) in the same way. The magnitude of the contact pressure at the junction, stripped of electrical insulation, the end of the conductive core (6.2) of the electric wire (6.1) with the working face (3.1) of the conductive jumper (3) is provided automatically and more contact pressure is required for the normal operation of the electrical contact connection: " conductive core (6.2) - the working face (3.1) of the conductive jumper (3). " The magnitude of the contact depression is determined in advance, by selecting the appropriate parameters of the contact spring (4), as well as the dimensions of the conductive core (6.2).

The force developed by the contact spring is perpendicular to the working face (3.1) of the jumper (3), if the clamped conductive core (6.2) of the electric wire (6.1) is designed for the maximum allowable current for which the proposed connector of electric wires is designed. The magnitude of the contact pressing in the proposed connector during operation remains almost unchanged.

The conductive core (6.2) of the electric wire (6.1) is released from under the cracker (5) with the power source turned off.

To release the conductive core (6.2) of the electric wire (6.1) from the clamp of the proposed connector of the electric wires, the pusher (or screwdriver) is inserted into one of the holes (1.7), for example the top one, and moved to the limit. In this case, the horizontal section (4.3.1) of the shoulder-lever (4.3) of the spring (4) moves from the working edge (3.1) of the jumper (3). The cracker (5) moves together with the horizontal section (4.3.1) of the lever arm (4.3) of the spring (4). A gap is formed between the conductive core (6.2) of the electric wire (6.1) and the cracker (5), the pressure on the conductive core (6.2) of the electric wire (6) becomes zero and the wire (6.1) is freely removed from the inner cavity (1.2-2.2) of the proposed electrical wire connector.

The release of the conductive core (6.2) of the electric wire (6.1) from the clamp of the proposed connector of the electric wires from any other of the inlets (1.8-2.7) occurs in a similar manner.

The proposed connector of electrical wires provides reliable simultaneous electrical connection of at least three pairs of electrical wires having, in the General case, a different cross-section of conductive conductors. It can be effectively used during electrical work.

In the case of the electric wire connector shown in FIGS. 7-13, the housing (7.1-8.1) made of electrical insulating material is a three-beam star. In this particular case, the casing (7.1-8.1) is located in such a way that one of its beams (7.1.1-8.1.1) is horizontal and directed to the left, one beam (7.1.2-8.1.2) is directed upward and one the beam (7.1.3-8.1.3) is directed downward to the right. The case (7.1-8.1) consists of the left (7.1) and right (8.1) mirror-symmetric halves. The internal cavity (7.3-8.3), in which there is a recess (1.4-2.4) for the conductive jumper (9), the conductive jumper (9), the limiter (1.3-2.3) for the electric wire (6.1), the guiding protrusions (1.5-2.5) for the contact spring (4), the contact spring (4) with crackers (5) in the horizontal sections (4.2.1-4.3.1) of its arm-levers (4.2-4.3), is located in each pair of adjacent halves of the adjacent body beams (7.1 -8.1). The recess (1.4-2.4) for the conductive jumper (9) is made in the internal cavities (7.3-8.3) of both halves (7.1-8.1) of the housing from the inner edge of one of the narrow short walls of the housing to the inner edge of the opposite narrow narrow short wall of the housing. The limiter (1.3-2.3) for the electric wire (6) is located in the internal cavities (7.3-8.3) of both halves (7.1-8.1) of the housing, above the recesses (1.4-2.4) for the conductive jumper (9). Adjacent internal cavities (7.3-8.3) and adjacent conductive jumpers (9) of each beam (7.1.1-8.1.1), (7.1.2-8.1.2) and (7.1.3-8.1.3) of the housing (7.1- 8.1), from the ends of the vertices of the hull rays adjacent to the inner faces (7.1-8.1) to the limiters (1.3-2.3), are combined.

The conductive jumper (9) is a three-beam star with a three-beam hole (9.4) in the center. Each beam of the conductive jumper (9) has two working faces located on narrow long faces. In this particular case, the conductive jumper (9) is located in such a way that one of its beam (9.1) with working faces (9.1.1) is horizontally and directed to the left, one beam (9.2) with working faces (9.2.1) is directed upwards to the right and one beam (9.3) with working edges (9.3.1) is directed downward to the right.

On one of the halves of the housing, for example, the left (7.1), a cylindrical recess (1.5.1) is made in the center of each guide protrusion (1.5) for the contact spring (4). And on the other, for example, the right (8.1), in the center of each guide protrusion (2.5) for the contact spring (4), a fastening protrusion (2.5.1) is located in the mounting recess (1.5.1).

Contact springs (4) are mounted on the guide protrusions (1.5-2.5) located in the internal cavities (7.3-8.3) of both halves (7.3-8.3) of the housing, above the limiter (1.3-2.3). The horizontal section (4.2.1) of the shoulder-lever (4.2) and the horizontal section (4.3.1) of the shoulder-lever (4.3) of each contact spring (4) are located in the hole (5.3) of the crackers (5) forming with working faces (9.1 .1), (9.2.1) and (9.3.1) jumpers (9) clamps for electric wires (6.1).

Between two adjacent internal cavities (7.3-8.3) of each beam (7.1.1-8.1.1), (7.1.2-8.1.2) and (7.1.3-8.1.3) of the body (7.1-8.1) there is a partition ( 7.2-8.2). At the point of intersection of the rays of the partition (7.2-8.2) on each half of the body (7.1-8.1), central cylindrical mounting protrusions (7.2.2-8.2.2) are made. On one of the halves of the housing, for example, the left (7.1), in the middle of the central cylindrical mounting protrusion (7.2.2), a cylindrical mounting recess (7.2.2.1) is made. And on the other half of the case, for example, the right (8.1), in the middle of the central cylindrical mounting protrusion (8.2.2), a mounting protrusion (8.2.2.1) is located in the cylindrical mounting recess (7.2.2.1). A rectangular mounting groove (7.2.1) is made on one of the halves of the housing, for example, the left (7.1), from the central mounting protrusion (7.2.2) along the center line of each beam of the partition (7.2). On the other half of the body, for example, the right (8.1), from the central mounting protrusion (8.2.2) along the center line of each beam of the partition (8.2), a rectangular mounting protrusion (8.2.1) is made.

On the narrow short walls of one of the halves of the housing, for example the left (7.1), are located the halves of the inlets (1.8) for the electric wire (6.1). And on the narrow short walls of the other half of the case, for example, the right (8.1), there are halves of the inlets (2.7) for the electric wire (6.1). On the narrow short walls of one of the halves of the casing, for example, the left (7.1), between the inlet openings (1.8) for electric wires (6.1) and the wide wall of the casing, a rectangular hole (1.7) is made for the pusher intended for interaction with horizontal sections (4.2. 1-4.3.1) of the arm-levers (4.2-4.3) of the contact spring (4).

A rectangular recess (1.12) is made along the entire outer perimeter of the narrow walls of one of the halves of the housing, for example, the left (7.1). A rectangular protrusion (2.11) located in a rectangular recess (1.12) is made along the outer perimeter of the narrow walls of the other half of the body, for example, the right (8.1). On the outside of the narrow long walls, perpendicular to them, both halves of the body (7.1-8.1), figured grooves (1.10-2.9) for the nameplates are made. Mounting holes (1.11) are located along the perimeter of the inner edge of the wide wall of one of the halves of the housing, for example, the left (7.1). Mounting pins (2.10) are located around the perimeter of the inner edge of the wide wall of the other half of the housing, for example, the right (8.1).

The clamps are inserted into the internal cavities (7.3-8.3) of the mirror-symmetric halves of the housing (7.1-8.1). Between themselves, the halves of the housing (7.1-8.1) are fastened using fixing pins (2.10) inserted into the mounting holes (1.11), mounting cylindrical protrusions (2.5.1) inserted into the mounting cylindrical recesses (1.5.1), rectangular mounting protrusions ( 8.2.1) inserted into rectangular mounting grooves (7.2.1), a central mounting protrusion (8.2.2.1) inserted into a central mounting recess (7.2.2.1). The halves of the housing (7.1-8.1) of the connector of the electric wires are tightly pressed against each other, the rectangular protrusion (2.11) is located in the rectangular recess (1.12).

The conductive core (6.2) of the electric wire (6.1) is fixed in the inner cavity of the proposed connector of electric wires only when the power source is off.

The proposed connector electrical wires as follows.

To fix the conductive core (6.2) of the electric wire (6.1) on one of the working faces, for example (9.1.1), the left beam (9.1) of the conductive jumper (9), using the proposed connector of electric wires, in one of the holes (1.7) , for example, the left, insert the pusher (or screwdriver) and move it to the limit. In this case, the horizontal section (4.2.1) of the shoulder-lever (4.2) of the contact spring (4) moves upward from the working face (9.1.1) of the left beam (9.1) of the conductive jumper (9). The cracker (5) moves together with the horizontal section (4.2.1) of the lever arm (4.2) of the contact spring (4). Between the working face (9.1,1) of the left beam (9.1) of the conductive jumper (9) and the cracker (5), a gap is formed in which through the inlet (1.8-2.7) the end of the conductive core (6.2) of the electric wire (6.2), which is stripped, is inserted ( 6.1) to the stop with the limiter (1.3-2.3). Then the pusher is removed from the hole (1.7). In this case, the horizontal section (4.2.1) of the shoulder-lever (4.2) of the contact spring (4) moves towards the working face (9.1.1) of the left beam (9.1) of the conductive jumper (9). The end of the conductive core (6.2) of the electric wire (6.1), stripped from electrical insulation, is pressed by a cracker (5) to the working face (9.1.1) of the left beam (9.1) of the conductive jumper (9) with a force determined by the parameters of the contact spring (4).

The conductive core (6.2) of the electric wire (6.1) is fixed on the working edge of the conductive jumper (9) through any other inlet (1.8-2.7) in the same way.

The magnitude of the contact pressure at the junction of the end of the conductive core that is stripped from electrical insulation (6.2) of the electric wire (6.1) with the working face of the conductive jumper (9) is provided automatically and more than the contact pressure necessary for the normal operation of the electrical contact connection: “conductive core (6.2) - the working face of the conductive jumper (9). "

The magnitude of the contact depression is determined in advance, by selecting the appropriate parameters of the contact spring (4), as well as the dimensions of the conductive core (6.2).

The force developed by the contact spring is perpendicular to the working edge of the jumper (9), if the clamped conductive core (6.2) of the electric wire (6.1) is designed for the maximum allowable current for which the proposed connector of electric wires is designed.

The magnitude of the contact pressing in the proposed connector during operation remains almost unchanged.

The conductive core (6.2) of the electric wire (6.1) is released from under the cracker (5) with the power source turned off.

To release the conductive core (6.2) of the electric wire (6.1) from the clamp of the proposed connector of the electric wires, the pusher (or screwdriver) is inserted into one of the holes (1.7), for example the right one, and moved to the limit. In this case, the horizontal section (4.3.1) of the shoulder-lever (4.3) of the spring (4) moves from the working face (9.1.1) of the left beam (9.1) of the conductive jumper (9). The cracker (5) moves together with the horizontal section (4.3.1) of the lever arm (4.3) of the spring (4). A gap is formed between the conductive core (6.2) of the electric wire (6.1) and the cracker (5), the pressure on the conductive core (6.2) of the electric wire (6.1) becomes zero and the wire (6.1) is freely removed from the inner cavity (7.3-8.3) of the proposed electrical wire connector.

The release of the conductive core (6.2) of the electric wire (6.1) from the clamp of the proposed connector of the electric wires from any other of the inlets (1.8-2.7) occurs in a similar manner.

The proposed connector of electrical wires provides a reliable simultaneous electrical connection to the node of at least three pairs of electrical wires having different sections of the conductive core. It can be effectively used during electrical work.

On Fig-18 shows a connector of electric wires, in which the housing (10-12-11) is made in the form of a three-beam star and consists of two mirror-symmetric halves (10.1), (11.1) and module (12). In this particular case, the housing (10.1-12-11.1) is located in such a way that one of its beam (10.1.1-12.1-11.1.1) is horizontal and directed to the left, one beam (10.1.2-12.2-11.1.2 ) is directed upwards and one beam (10.1.3-12.3-11.1.3) is directed downwards. Module (12), as a structural element, consists of the left (10.1) and right (11.1) halves of the case facing each other with wide external faces and tightly pressed against each other, so that they form a single whole. The combined wide walls of the halves (10.1) and (11.1) form the inner partition (12.4) of the module (12). A contact spring (4) with crackers (5) in the horizontal sections (4.2.1) and (4.3.1) of its shoulder arms, respectively (4.2) and (4.3), a limiter (1.3-2.3) for the electric wire (6.1), located in the inner cavity (10.4-11.4) of the adjacent halves of any one pair of adjacent rays of the body (10.1-12-11.1). The guide protrusions (1.5-2.5) for contact springs (4) are located in the inner cavity (10.4-11.4) of each pair of adjacent halves of the adjacent housing beams (10.1-12-11.1). Recesses for conductive jumpers are combined. The conductive jumper (13) is a three-beam star. One of the beams of the conductive jumper, for example (13.1.1), is extended and extends beyond the housing (10.1-12-11.1) through an opening (10.5-11.5) made in a narrow short wall of the housing (10.1-12-11.1), and has dimensions standard plug of an electric plug.

In the inner planes (10.4-11.4) located on both sides of the beam (13.1.1) of the conductive jumper (13) that extends beyond the housing (10.1-12-11.1), partitions (10.2-11.2) are made from the side facing the conductive jumper (13). In the center of the partitions (10.2) of one of the halves of the case, for example, the left (10.1), a fixing rectangular groove (10.2.1) is made. A fixing rectangular protrusion (11.2.1) is made in the center of the partitions (11.2), another, for example, the right half of the housing (11.1).

The clamps are inserted into the internal cavities (10.4-11.4) of the module (12) and the corresponding halves of the housing (10.1-11.1). At the same time, the left (10.1) and right (11.1) halves are attached to the module (12).

Between themselves, the module (12) and the halves (10.1-11.1) of the housing are fastened with fixing pins (2.10) inserted into the mounting holes (1.11), mounting cylindrical protrusions (2.5.1) inserted into the mounting cylindrical recesses (1.5.1) , rectangular mounting tabs (11.2.1) inserted into rectangular mounting grooves (10.2.1). The halves of the housing (10.1-11.1) of the connector of the electric wires and the module (12) are tightly pressed against each other, a rectangular protrusion (2.11) is located in a rectangular recess (1.12).

The inlets (1.8-2.7) are intended for plugs of electric plugs or separate current-carrying conductors (6.1), and plugs (13.1.1) are inserted into an electrical outlet.

The proposed connector of electric wires can most effectively be used as an adapter when using electric plugs and sockets made according to various standards, which allows you to expand the scope of the proposed connectors of electric wires and create convenience in the operation of various equipment and devices.

These factors allow you to expand the scope of the proposed connectors of electrical wires.

On Fig.19-23 shows a connector of electrical wires, in which the housing (14.1-16-15.1) is made in the form of a multi-beam, containing an even number, but more than two rays, for example four-beam, star. In this particular case, the case (14.1-16-15.1) is located in such a way that one of its rays (14.1.1-16.1-15.1.1) is located horizontally and is directed to the left, one of its rays (14.1.2-16.2-15.1. 2) it is located horizontally and directed to the right, one beam (14.1.3-16.3-15.1.3) is directed upwards and one beam (14.1.4-16.4-15.1.4) is directed down. The housing (14.1-16-15.1) consists of the left (14.1) and right (15.1) mirror-symmetric halves and the module (16).

Module (16), as a structural element, consists of left (14.1) and right (15.1) halves facing each other with wide external faces and tightly pressed against each other, so that they form a single whole. The combined wide walls of the halves form the inner partition (16.5) of the module (16). In the module (16), the guide protrusions (1.5-2.5) for contact springs (4), the inlet halves (1.8-2.7), the stops (1.3-2.3) for the electric wires (6.1) are located symmetrically relative to the partition (16.5).

Contact spring (4) with crackers (5) on horizontal sections (4.2.1-4.3.1) of its arm-levers (4.2-4.3), limiter (1.3-2.3) for the electric wire (6.1), guide tabs (1.5- 2.5) for the contact spring (4) are located in the inner cavity (14.3-15.3) of each even (or each odd) pair of adjacent halves of the adjacent rays of the star of the casing (14.1-16-15.1). The guide protrusions (1.5-2.5) for contact springs (4) are located in the inner cavity (14.3-15.3) of each pair of adjacent halves of the adjacent housing beams (14.1-16-15.1).

Conducting jumpers and recesses for them are combined. The conductive jumper (17) is a multi-beam, containing an even number, but more than two rays, for example, a four-beam star (17.1-17.2-17.3-17.4). One of the rays the beam of the conductive bridge (17), for example (17.1), is extended and extends beyond the housing (14.1-16-15.1), through an opening (14.4-15.4) made in a narrow short wall of the housing (14.1-16-15.1) , and has the dimensions of a standard plug for an electrical plug.

In the inner planes (14.3-15.3) located on both sides of the beam (17.1) of the conductive jumper (17) that extends beyond the housing (14.1-16-15.1), partitions (14.2-15.2) are made from the side facing the conductive jumper ( 17). In the center of the partitions (14.2), on one of the halves of the case (14.1-16-15.1), for example, on the left (14.1), a fixing rectangular groove (14.2.1) is made. In the center of another partition (15.2), for example, on the right half (15.1) of the housing (14.1-16-15.1), a fixing rectangular protrusion (15.2.1) is made.

The clamps are inserted into the internal cavities (14.3-15.3) of the module (16) and the corresponding halves of the housing (14.1-15.1). In this case, the left (14.1) and right (15.1) halves are attached to the module (16). Between themselves, the module (16) and the halves (14.1-15.1) of the housing are fastened with fixing pins (2.10) inserted into the mounting holes (1.11), mounting cylindrical protrusions (2.5.1) inserted into the mounting cylindrical recesses (1.5.1) , rectangular mounting tabs (15.2.1) inserted into rectangular mounting grooves (14.2.1). The body halves (14.1), (15.1) and the module (16) are tightly pressed against each other, the rectangular protrusion (2.11) is located in the rectangular recess (1.12).

The inlets (1.8-2.7) are intended for plugs of electric plugs or separate current-carrying conductors (6.1), and plugs (17.1.1) are inserted into an electrical outlet.

The proposed connector of electric wires can most effectively be used as an adapter when using electric plugs and sockets made according to various standards, which allows you to expand the scope of the proposed connectors of electric wires and create convenience in the operation of various equipment and devices. These factors allow you to expand the scope of the proposed connectors of electrical wires.

The technical result of the invention is the automatic provision of the necessary contact pressing almost constant for the entire life of the connector. A fuller use of the potential of contact springs, a more technologically advanced design of body parts, a more rational use of the material of the conductive bridge.

These factors can improve the reliability of electrical contact when connecting electrical wires. Improve the reliability of the electrical wire connector. Reduce overall dimensions, manufacturing and operating costs. To exclude the influence of the human factor on the magnitude of contact pressing in the proposed connectors during assembly and operation. The present invention will allow us to create a new generation of electrical components, adapters, multipliers, which will significantly expand their scope.

The proposed connector of electrical wires can be manufactured and assembled automatically as a mass product, in the most economical way.

Information sources

1. Connector of electric wires. Derevenko K.A. Patent RU 2253929 C1 of December 08, 2003, Cl. H01R 4/48.

2. Connector of electric wires. Derevenko K.A. Patent RU 2218638 C2 of December 4, 2001, Cl. H01R 4/48, 13/50.

3. A spring-loaded clamping connector for electric conductors. WAGO Klemmenwerk. Patent GB 834171, publication data: 1960-05-04, IPC Class: H01R 4 / 48H2B.

Claims (4)

1. An electric wire connector comprising a housing made of an insulating material, and a twisted contact torsion spring located in its inner cavity, a conductive jumper and crackers; in the inner cavity of the housing there is a recess for the conductive jumper, a limiter for the electric wire, guide tabs for the contact spring; the case consists of left and right mirror symmetric halves; the free ends of the contact spring form the shoulders, levers perpendicular to its longitudinal axis; each shoulder-lever of the contact spring has a horizontal section perpendicular to it, which is parallel to the longitudinal axis of the contact spring; the horizontal section of each shoulder-lever is located in the hole of the cracker; a contact spring, crackers and a conductive jumper form clamps, characterized in that the housing is made in the form of a multi-beam, for example a three-beam star; the internal cavity in which there is a recess for the conductive jumper, the conductive jumper, the limiter for the electric wire, the guiding protrusions for the contact spring, the contact spring with crackers on the horizontal sections of its arm levers is located in each pair of adjacent halves of the adjacent body beams; in the middle of each beam of the body is a partition; partitions intersect in the middle of each half of the body; the partition, like the case, has the form of a multi-beam, for example, a three-beam star; at the point of intersection of the rays of the partition on each half of the body made central cylindrical mounting protrusions; on one of the halves of the housing, for example the left, in the middle of the central cylindrical mounting protrusion made a cylindrical mounting recess; on the other half of the housing, for example the right one, in the middle of the central cylindrical mounting protrusion made mounting protrusion located in the cylindrical mounting recess; on one of the halves of the casing, for example the left, from the central mounting protrusion along the center line of each beam of the partition made a rectangular mounting groove; on the other half of the housing, for example, the right, from the central mounting protrusion along the center line of each beam of the partition made a rectangular mounting protrusion; in the inner cavity of both halves of the housing, from the inner edge of one of the narrow short walls of the beam of the housing, to the inner edge of the narrow short wall of the adjacent beam of the housing, a recess is made for the conductive jumper; in the inner cavity of both halves of the housing, above the middle of the recess for the conductive jumper, there is a limiter for electrical wires; each contact spring is mounted on a guide protrusion located in the inner cavity of both halves of the housing, above each stop; on one of the halves of the housing, for example the left, in the center of each guide protrusion for the contact spring, a cylindrical recess is made; on the other half of the housing, for example, the right, in the center of each guide protrusion for the contact spring made mounting protrusion located in the mounting recess; on the narrow short walls of each beam of the left and right halves of the housing are located half of the inlets for the electric wire; on the narrow short walls of each beam of one of the halves of the housing, for example the left, between the inlet openings for the electric wire and the wide wall of the housing, a rectangular hole is made for a pusher designed to interact with horizontal sections of the lever arms of the contact spring; along the entire outer perimeter of the narrow walls of one of the halves of the body, for example the left, a rectangular recess is made; along the outer perimeter of the narrow walls of the other of the halves of the body, for example the right, a rectangular protrusion is placed in a rectangular recess; on the outside of the narrow long walls of each beam, perpendicular to them, both halves of the body made curly grooves for nameplates; along the perimeter of the inner face of the wide wall of each beam of one of the halves of the body, for example the left, there are mounting holes; on the perimeter of the inner face of the wide wall of each beam of the other half of the housing, for example the right, there are mounting pins. 2. The electric wire connector according to claim 1, characterized in that the adjacent internal cavities and adjacent conductive jumpers of each beam of the housing, from the ends adjacent to the inner faces of the vertices of the rays of the housing to the limiters, are combined. 3. The electric wire connector according to claim 1, characterized in that the housing is made in the form of a three-pointed star and consists of two mirror-symmetric halves and a module; the combined wide walls of the halves of the housing form the internal partition of the module; a contact spring with crackers on horizontal sections of its arm-levers, a limiter for the electric wire are located in the inner cavity of adjacent halves of any one pair of adjacent beams of the housing; recesses for conductive jumpers are combined; the conductive jumper is a three-beam star; one of the beams of the conductive jumper is extended and extends beyond the enclosure through an opening made in a narrow short wall of the enclosure and has the dimensions of an electric plug; in internal planes located on both sides of the beam of the conductive jumper extending outside the housing, partitions are made from the side facing the conductive jumper; in the center of the partition, on one of the halves of the case, for example on the left, a fixing rectangular groove is made; in the center of another partition, for example, on the right half of the case, a fixing rectangular protrusion is made. 4. The electric wire connector according to claim 1, characterized in that the housing is made in the form of a multi-beam star containing an even number, but more than two rays, for example a four-beam star; the case consists of left and right mirror symmetric halves and a module; the combined wide walls of the halves of the housing form the internal partition of the module; in the module, guiding protrusions for contact springs, inlet halves, limiters for electrical wires are located symmetrically with respect to the partition thus obtained; a contact spring with crackers on horizontal sections of its arm-levers and a limiter for the electric wire are located in the inner cavity of each even (or each odd) pair of adjacent halves of the adjacent rays of the star of the casing; conductive jumpers and recesses for them are combined; the conductive jumper is a multi-beam, containing an even number, but more than two rays, for example a four-beam star; one of the beams of the conductive jumper is extended and extends beyond the enclosure through an opening made in a narrow short wall of the enclosure and has the dimensions of an electric plug; in the inner planes located on both sides of the beam of the conductive jumper extending beyond the housing, a partition is made from the side facing the conductive jumper; in the center of the partition, on one of the halves of the case, for example on the left, a fixing rectangular groove is made; in the center of another partition, for example, on the right half of the case, a fixing rectangular protrusion is made.

Images