EP0274948A1 - Insulation displacement connector for a monoconductor cable - Google Patents

Abstract

The connector comprises an elementary connector body (1) comprising two parallel lateral walls (10, 11) delimiting a housing (12) and a contact part (2) having two branches (20, 21) and having a circular-arc portion (22) centred with respect to a direction ( DELTA ) orthogonal to the elementary connector body (1). It is also formed from a connection lever (3) rotatably mounted in the housing (12) between two parallel lateral walls, the lever (3) comprising a circular-arc slot (30) capable of being engaged with or disengaged from the circular-arc portion (22) of the contact part during the rotational movement and a blind hole (31) bringing the slot into communication with the outside. In the closed position the lever (3) enables the cable (C) to be wedged between the two branches (20, 21) of the contact part in order to produce an electrical contact by insulation displacement. Application to single-conductor or multi-conductor connectors or to the production of terminal blocks having a high degree of insulation in the field of high current applications. <IMAGE>

Description

The invention relates to a connector by displacement of insulation for at least one single-conductor cable, this connector having a high degree of insulation.

Insulation displacement connectors for single core cables are widely known and used in the art. They essentially comprise a connector body and at least one lever movable in rotation relative to the connector body, and provided with a connection orifice in which the cable is introduced in the lever open position.

The connection hole passes through a fork-shaped electrical contact piece, and the cable to be connected having been introduced into the connection hole through the fork-shaped contact piece, the closing of the lever causes the drive of the cable between the branches of the fork-shaped contact part, thereby making electrical contact by displacement of the insulation.

Such connectors, presented for example in the form of a serial connector between an incoming conductor and a outgoing conductor by German patent application 29 02 536 or as a terminal board, in patent application DE 32 26 118, s' they allow the production of such good quality electrical contacts, however do not authorize the production of connection terminals for a plurality of single conductors, by association of these connectors, along a dimension transverse to the direction of introduction of the single conductor (s) , both a compact set with a high degree of electrical insulation between conductors. Indeed fet, in both types of connector mentioned above, the connector body, of complex structure, has either a completely open side face, case of the connector described in patent application DE 29 02 536, or an effective absence of insulation wall between connectors, these being, in the case of the connector described in patent application DE 32 26128, described in the form of a terminal board.

The present invention aims to remedy the aforementioned drawbacks of connectors of the prior art by the implementation of a connector by displacement of insulation, for single conductor cable, this connector having a high degree of insulation.

Another object of the present invention is the implementation of a connector by displacement of insulation for single-conductor cable having a connector body ensuring a high degree of insulation although of simple structure.

Another object of the present invention is the implementation of a connector by displacement of insulation comprising a connector body of simple structure, but having a transverse dimension, in a direction transverse to the direction of introduction of the conductor to be connected , particularly reduced so as to be able to constitute, by association of a plurality of associated connectors according to their transverse dimension, terminal blocks which can be produced in a simple manner and having a character of great compactness for a high degree of electrical insulation between conductors and live parts.

Another object of the present invention is finally the implementation of a connector by displa insulating cement for a single-conductor cable whose connector body of simple structure can be obtained by molding at low cost.

The connector by displacement of insulation for a single-conductor cable object of the invention is remarkable in that it comprises at least one elementary connector formed, on the one hand, by an elementary connector body comprising two parallel lateral walls delimiting a housing. and of a contact part with two branches inserted in the housing and having a part in an arc of a circle centered, in position, with respect to a direction (Δ) orthogonal to the elementary connector body, and, on the other hand, d 'A connection lever rotatably mounted in the housing between the two parallel side walls, with respect to said orthogonal direction, said lever comprising a slot in an arc of a circle capable of being engaged or disengaged from the part of an arc of a circle contact piece during the rotational movement and a blind hole communicating said slot with the outside, said lever after insertion of a cable in said blind hole, allowing in closed position ée the jamming of said cable between the two branches of the contact piece for the realization of an electrical contact by displacement of insulation.

The connector by displacement of insulating material with high insulation for single-conductor cable, object of the invention, finds application in the realization of electrical circuits in the field of electrical construction, industrial electronics and in the technique known as strong currents.

• - la figure 1a représente une vue en pers­pective du connecteur par déplacement d'isolant pour câble monoconducteur conformément à l'objet de la présente invention,
• - la figure 1b représente une vue de face d'une coupe selon le plan de coupe AA de la figure 1a, plan longitudinal de symétrie de connecteur re­présenté en figure 1a,
• - la figure 1c représente, en vue éclatée, les différents éléments essentiels du connecteur objet de l'invention, tel que représenté en figure 1a,
• - la figure 1d représente une vue identi­que à celle de la figure 1b, le levier de connexion étant ouvert et un câble à connecter étant introduit dans l'orifice de connexion en vue d'effectuer la connexion par déplacement d'isolant,
• - la figure 1e représente une vue identi­que à celle de la figure 1d, le levier de connexion étant fermé, en présence du câble à connecter, la con­nexion étant ainsi effectuée.
• - la figure 2a représente une vue en pers­pective d'une variante de réalisation du connecteur objet de la présente invention,
• - la figure 2b représente une vue de face d'une coupe partielle selon un plan de coupe AA de la figure 2a, le corps de connecteur élémentaire étant représenté en coupe et le levier de connexion étant représenté en vue latérale,
• - la figure 3a représente une vue en pers­pective d'une autre variante de réalisation du connec­teur objet de l'invention,
• - la figure 3b représente une vue de face d'une coupe partielle selon un plan de coupe AA de la figure 3a, le corps de connecteur élémentaire étant représenté en coupe et le levier de connexion étant représenté en vue latérale,
• - la figure 4 représente un bornier compor­tant une pluralité de connecteurs selon l'invention adjacents selon leur dimension transversale.

It will be better understood on reading the description and on observing the drawings below where the same references represent the same elements and in which:

• FIG. 1a represents a perspective view of the connector by displacement of insulation for a single-conductor cable in accordance with the object of the present invention,
• FIG. 1b represents a front view of a section along the section plane AA of FIG. 1a, longitudinal plane of connector symmetry shown in FIG. 1a,
• FIG. 1c represents, in exploded view, the various essential elements of the connector which is the subject of the invention, as shown in FIG. 1a,
• FIG. 1d represents a view identical to that of FIG. 1b, the connection lever being open and a cable to be connected being introduced into the connection orifice in order to make the connection by displacement of insulation,
• - Figure 1e shows a view identical to that of Figure 1d, the connection lever being closed, in the presence of the cable to be connected, the connection being thus made.
• FIG. 2a represents a perspective view of an alternative embodiment of the connector which is the subject of the present invention,
• FIG. 2b represents a front view of a partial section along a section plane AA of FIG. 2a, the elementary connector body being shown in section and the connection lever being shown in side view,
• FIG. 3a represents a perspective view of another alternative embodiment of the connector which is the subject of the invention,
• FIG. 3b represents a front view of a partial section along a section plane AA of FIG. 3a, the elementary connector body being shown in section and the connection lever being shown in side view,
• - Figure 4 shows a terminal block comprising a plurality of connectors according to the invention adjacent according to their transverse dimension.

In the present description, the connector, by displacement of insulation, object of the invention, will be described successively according to three distinct embodiments, each embodiment being intended to carry out the connection by displacement of insulation of a single conductor cable. . By single-core cable is meant any single-strand or multi-strand electrical cable.

The connector by displacement of insulation for a single-conductor cable which is the subject of the invention will first be described in conjunction with FIGS. 1a and 1b.

According to the aforementioned figures, the connector by displacement of insulator object of the invention, comprises at least one elementary connector formed by an elementary connector body noted 1. The elementary connector body 1 comprises two side walls 10, 11, parallel delimiting a housing 12. The elementary connector body 1 also comprises a contact part 2 with two branches 20, 21, inserted into the housing 12 and having a part in an arc of a circle denoted 22, centered in position relative to a direction Δ orthogonal to the elementary connector body 1. In FIG. 1b, it will be noted that only the branch 20 of the contact piece 2 has been shown due to the representation in section along the section plane AA of FIG. 1a, of this same FIG. 1b.

The elementary connector is also formed by a connection lever denoted 3 rotatably mounted in the housing 12, between the two parallel side walls 10 and 11, relative to the orthogonal direction Δ. The lever 3 comprises a slot in an arc of a circle denoted 30, capable of being engaged or disengaged from the part of an arc of a circle 22 of the contact piece during the rotational movement of the lever 3, and a cylindrical blind hole 31 or of variable cross section connecting said slot with the outside. In accordance with the embodiment of the connector which is the subject of the invention shown in FIGS. 1a and 1b, the blind hole 31 makes it possible to put the slot 30 formed in the connection lever 3 into communication with the housing 12.

Other details of embodiment of the various constituent elements of the connector which is the subject of the invention as shown in FIGS. 1a and 1b will be described in connection with FIGS. 1b and 1c.

According to an advantageous aspect of the connector object of the invention, shown in Figures 1a, 1b, 1c, the connection lever 3 is rotatably mounted by the in intermediate of a substantially cylindrical shoulder denoted 32, which forms an articulation with a concave housing 13, formed in the body of the elementary connector 1. As will be noted in particular in FIG. 1c, the concave housing 13 communicates directly with the housing 12 .

According to another particularly advantageous characteristic of the connector which is the subject of the invention as shown in FIGS. 1a, 1b, 1c, the concave housing 13 comprises two circular sectors noted 130, 131 in FIG. 1c. The aforementioned circular sectors form a stop at the opening of the lever 3. The connection lever 3 comprises two circular grooves thus shown in FIG. 1c in particular, which are referenced 33 and 34 in FIG. 1c, these grooves being mounted to slide on the sectors circular 130, 131. As appears in particular in FIG. 1b, the cylindrical shoulder 32, the concave housing 13, the circular sectors 130, 131 and the grooves 33, 34 are centered on the direction orthogonal to the body of the elementary connector, direction denoted Δ forming axis of rotation.

In FIG. 1c, the connection part 2 is also shown, this being provided with its two branches 20 and 21 forming the part in an arc of a circle 22. The part of the connection part 2 opposite the part in arc of circle 22 forming the end of the connection piece 2, is advantageously provided with a connection zone 200, which can be connected to a start or end conductor by any means suitable for this purpose. In addition, the room contact 2 is provided with a lug 201, which advantageously allows the insertion of the contact piece 2 in the elementary connector body 1 by snap-fastening. In order to carry out the mounting of the connector, object of the invention, as shown in FIGS. 1a, 1b, 1c, it is advantageous, first of all to engage the connection piece 2 at the level of the part in an arc 22 thereof in the slot 30 of the connection lever 33, then engage the contact piece, the connection lever 3 being held integral with the latter, in the housing provided in the elementary connector body 1 for inserting the contact piece 2 therein by snap-fastening via the lug 201. Of course, during the operation, the cylindrical shoulder 32 is brought into abutment in the concave housing 13, the arc portion of circle 22, the cylindrical shoulder 32, and the concave housing 13 then being automatically centered on the direction Δ orthogonal to the elementary connector body 1 and thus forming an articulation for the rotation of the lever. Of course, the cohesion of the assembly is ensured on the one hand by the circular segments 130, 131, and by the contact piece 2 itself held, by the lug 201, secured to the elementary connector body 1. L articulation formed by the cylindrical shoulder 32 and by the concave housing 13 can then play freely to allow the operation of the connection lever 3, to make the connection of the cable, as will be described below with FIGS. 1d and 1st.

In accordance with Figure 1d above, the lever 3 is first of all brought into the open position, the connection orifice 31 then being released and being placed substantially above the arcuate part 22 of the contact piece 2. The cable connection C can then be introduced into the connection orifice 31, the cable C not being stripped.

The connection lever 3 and the cable C held inside the connection orifice 31 can then be folded down to bring the connection lever 3 into the closed position as shown in FIG. 1e, the cable to be connected C then being engaged in the interval formed by the two branches 20, 21 of the contact piece 2. The above-mentioned interval is of course adapted in order to allow the connection lever 3 to be made during the operation of the insulation lever , the central core of the conductor C to be connected then being brought into contact with the branches 20 and 21 to form electrical contact by displacement of the insulator.

According to an advantageous characteristic of the connector by displacement of insulation for single-core cable shown in FIGS. 1a to 1e, the circular sectors 130, 131 and the cooperating grooves 33 and 34 formed on the connection lever 3, can advantageously be shaped to oppose when the lever 3 is extracted from the housing 12. Thus, the opening angle of the sectors 130, 131 relative to the so-called horizontal direction corresponding to the longitudinal direction of the connector body, can, advantageously, be taken equal at 90 °, as shown in Figures 1b, 1d and 1e in particular. Similarly, the opening angle grooves, or even more precisely the complement of the opening angle of the grooves relative to this same direction, can advantageously be between 0 and 45 °, this angle being chosen so that in the open position of the lever connection 3 as shown in FIG. 1d, for a completely free position from the connection orifice 31, the part in an arc of a circle 22 of the connection piece 2 remains however engaged over a sufficient length in the slot 30 of the lever connection 3 to prevent dislocation of the assembly and thus oppose the extraction of the lever 3 from the housing 12, the articulation around the axis Δ being completely locked.

It will of course be noted that in the particularly advantageous embodiment of the connector by displacement of insulation for single-conductor cable object of the invention, a high degree of electrical insulation is obtained due, on the one hand, to the presence of the walls side 10 and 11, which at the level of the contact piece 2 in particular, do not have an opening. It will also be noted that the articulation formed by the sectors 130 and 131, the concave housing 13, the cylindrical shoulder 32, and the grooves 33, 34 allow, due to their compactness, to provide good protection of the area. of contact of the contact piece 2 and in particular of the part in an arc 22 of the latter.

Another advantageous, because simplified, embodiment of the connector by displacement of insulator for a single-conductor cable which is the subject of the invention will be described in connection with FIGS. 2a and 2b. In the aforementioned embodiment, the articulation of the lever of connection 3 to connector body 1 has been simplified, as will be described below, this type of connector in accordance with the object of the invention, which can be used in applications in which the degree of insulation of the side faces 10 and 11 may be less important.

In accordance with FIGS. 2a and 2b above, the lever 3 is mounted for rotation in a notch with a circular edge denoted 100. The lever 3 comprises a journal denoted 300, forming a cylindrical axis of rotation, engaged in the notch with a circular edge 100. L axis of rotation and the circular edge of the notch are centered on the direction Δ orthogonal to the elementary connector body 1. In order to ensure the abutment of the connection lever 3, when the latter is in the open position , the side walls 10 and 11 can advantageously be provided with bosses 500 and the connection lever 3 can be provided on its front face, with housings 501 intended to come into abutment on the bosses 500 mentioned above. The bosses 500 and the housings 501 can advantageously be shaped so as to block the connection lever 3 in the open position. It will of course be noted that in FIG. 2b, the connector body 1 is shown in a front view of a section made according to a longitudinal plane of symmetry in FIG. 2a, while the connection lever 3 is shown in a view. side of the connection lever shown in Figure 2a.

Another embodiment of the connector by displacement of insulation for a single-conductor cable which is the subject of the invention will be described in conjunction with the Figures 3a and 3b, this embodiment also being capable of being used in applications requiring a good degree of insulation of the lateral faces of the connector, although the degree of insulation of the embodiment considered is however slightly less than the degree isolation of the embodiment shown in Figures 1a to 1e.

According to Figures 3a and 3b above, the side walls 10 and 11 of the elementary connector body 1 are flexible and have two circular housings denoted 1000, centered on the direction orthogonal to the elementary connector body. In addition, the connection lever 3 comprises two cylindrical bosses denoted 3000, forming a trunnion of the same diameter as the two circular housings 1000. These cylindrical bosses 3000 forming a trunnion are intended to be engaged in the circular housings 1000 by snap-fastening. Of course, the side walls 10 and 11 are also provided with bosses 500 forming a stop in the open position of the connection lever 3, the latter itself being provided with housings 501 intended to come into abutment against the aforementioned bosses 500.

The characteristics common to the connectors by displacement of insulation to the single-conductor cable object of the invention, relating to the three embodiments previously described will now be given, in particular as regards the connection lever 3.

As shown in all of the above drawings, the connection lever 3 can advantageously include a lever body 35, the transverse dimension of which is parallel to the direction Δ ortho gonal to the elementary connector body 1 is substantially equal to that of the housing 12 in the same direction. It may further comprise a lever arm 36, extending longitudinally in the longitudinal direction of the housing 12.

In accordance with an advantageous characteristic of the connector which is the subject of the invention, the connection lever 3 and in particular the lever body and the lever arm, respectively referenced 35, 36, are retracted into the housing 12, in the closed position of the connection lever 3. In addition, a recess denoted 105, respectively 115, can be provided on the lateral faces 10 and 11, so as to facilitate gripping the end of the lever arm 36.

Likewise, as it appears in particular in FIGS. 1b, 2b, 3b, the blind hole 31 has its connection opening oriented towards the end of the lever arm 36. Of course, advantageously without limitation, the blind hole 31 can be replaced by a hole passing through the lever body 35.

The branches 20 and 21 of the contact piece 2 are shaped so as to constitute a groove which is substantially V-shaped. Thus, when passing from the open position to the closed position of the connection lever 3, the cable to be connected C having been introduced into the connection orifice 31, the cable C to be connected, provided with its insulator, is forcibly inserted into the housing formed by the branches 20 and 21 ensuring on the one hand the electrical connection of the central core of the conductor C with the branches 20 and 21, and on the other hand a mechanical locking of the connection lever 3, by means of the cable, which has been brought into the corner position cement in the V-shaped slot

Of course, the elementary connector body 1 and the connection lever 3 can be made of a material such as a polyamide or polycarbonate material, and obtained by molding. The particularly simple shapes or structures of both the elementary body 1 and the connection lever 3, in the various embodiments mentioned above, make it possible to obtain parts of relatively low cost.

The connecting piece 2 can be made of a phosphorous bronze or a beryllium bronze and can advantageously include a protective coating of tin.

The connector by displacement of insulation for a single-conductor cable which is the subject of the invention is particularly advantageous in that it allows either the connection of a single-conductor cable, a connector then comprising an elementary connector body, or the connection of several cables. single conductors. In the latter case, the elementary connectors can be arranged adjacent along their transverse dimension and be fixed mutually, in particular by interlocking or snap-fastening.

Preferably, the connector which is the subject of the invention can be used to produce, as shown in FIG. 4, a terminal block provided with a large number of adjacent elementary connectors according to their transverse dimension. In this case, and always taking into account the high degree of insulation desired, the housing 12 of an elementary connector has a side wall 10, 11 common with the corresponding wall dante of the housing 12 of the adjacent elementary connector. The terminal block thus lends itself easily to molding in one piece and retains a small transverse dimension.

Although of simple structure, the terminal block has, due to the above structure, a high degree of insulation of the various contact parts and a high degree of compactness.

Claims (13)

1. Connector by displacement of insulator for single-conductor cable (C), characterized in that it comprises at least one elementary connector formed
. an elementary connector body (1) comprising
- two parallel side walls (10,11) delimiting a housing (12),
- a contact piece (2) with two branches (20,21) inserted in said housing (12) and having a part in an arc (22) centered, in position, relative to a direction (Δ) orthogonal to said body elementary connector,
. a connection lever (3) rotatably mounted in the housing (12) between the two parallel side walls, with respect to said orthogonal direction, said lever (3) comprising a slot in an arc of a circle (30) capable of be engaged or disengaged from the arcuate part (22) of the contact piece during the rotational movement and a blind hole (31) putting said slot in communication with the outside, said lever (3) after insertion of 'a cable (C) in said blind hole (31) allowing, in the closed position, the jamming of said cable between the two branches (20,21) of the contact piece (2) for the realization of an electrical contact by displacement d 'insulating. 2. Connector according to claim 1, characterized in that said lever (3) is rotatably mounted by means of a substantially cylindrical shoulder (32) forming an articulation with a concave housing (13) formed in the body of the elementary connector (1) and communicating with the housing (12). 3. Connector according to claim 2, characterized in that said concave housing (13) comprises two circular sectors (130,131) forming a stop at the opening of the lever (3), said lever comprising two circular grooves (33,34) mounted at sliding on said sectors (130,131), the cylindrical shoulder (32), the concave housing (13), the sectors (130,131) and grooves (33,34) being centered on the direction (Δ) orthogonal to the body of the elementary connector and forming axis of rotation. 4. Connector according to claim 3, characterized in that said circular sectors (130,131) and the cooperating grooves are shaped to oppose the extraction of the lever (3) out of the housing (12). 5. Connector according to claim 1 or 2, characterized in that said lever (3) is rotatably mounted in a notch with a circular edge (100), said lever (3) comprising a pin (300) forming a cylindrical axis of rotation engaged in the circular edge notch (100), the axis of rotation and the circular edge of the notch being centered on the direction (Δ) orthogonal to the elementary connector body. 6. Connector according to claim 1 or 2, characterized in that the side walls are flexible and comprise two circular housings (1000) centered on said direction (Δ) orthogonal to said elementary connector body, said lever comprising two cylindrical bosses (3000) forming a pin, of the same diameter as the two circular housings (1000), intended to be engaged in the latter by snap-fastening. 7. Connector according to one of the preceding claims, characterized in that said connection lever (3) comprises:
a lever body (35) whose transverse dimension parallel to the direction (Δ) orthogonal to the elementary connector body is substantially equal to that of the housing (12) in the same direction,
- A lever arm (36) extending longitudinally in the longitudinal direction of the housing (12). 8. Connector according to one of the preceding claims, characterized in that said lever and in particular the lever body and the lever arm in the closed position are retracted in said housing. 9. Connector according to Claims 7 and 8, characterized in that the blind hole (31) has its connection opening through which the cable to be connected is introduced on the lever arm side (36) and on the housing side (12). 10. Connector according to one of claims 1 to 9, characterized in that the blind hole (31) is replaced by a hole passing through the lever body (35). 11. Connector according to one of the preceding claims, characterized in that said branches (20,21) of the contact piece (2) form a groove substantially in the shape of a V. 12. Connector according to claim 11, characterized in that said contact piece (2) is fixed to the elementary connector body by snap-fastening. 13. Terminal block, characterized in that it comprises a connector according to one of claims 1 to 12 provided with a plurality of adjacent elementary connectors according to their transverse dimension, the body of the connector being molded and the housing (12) of each elementary connector having a side wall (10, 11) common with the corresponding wall of the housing (12) of the adjacent elementary connector.

Images