DE102006037720A1 - Device for electrically connecting at least two main conductors of a power supply cable, in particular cable branch terminal - Google Patents

Abstract

The invention relates to a device (1) for electrically connecting at least two main conductors (2, 4, 6, 8) of a power supply cable, each having at least one branch conductor (12, 14, 16, 18), in particular cable branch terminal, with a housing which at least two housing parts (10, 20) which can be connected by a screw connection (22), the device (1) having a pressure plate (30, 50) operatively connected to the screw connection (22) for introducing the screw connection force into the device (1), characterized in that the pressure plate (30, 50) is elastically deformable and elastically deformed when tightening the screw (22) and after completion of the tightening the stored by the elastic deformation force in the device (1) initiates to maintain the contact force for the electrical connection between main conductor (2, 4, 6, 8) and branch conductor (12, 14, 16, 18).

Description

The The invention relates to a device according to the preamble of the claim 1.

Generic devices are for example from the DE 103 41 997 A1 known. In the known device, the housing has two half-shell-shaped housing parts, which are connectable by means of a centrally passing connecting screw. At least one end of the connecting screw, a pressure plate is arranged, by means of which the force exerted by the connecting screw screw force is introduced as evenly as possible in the housing half. The pressure plate is, as well as with the EP 1 139 496 A2 formed particularly solid and rigid so as to prevent deformation due to the screwing of the connecting screw as far as possible, so that the force applied by the screw is completely inserted into the housing half and is completely available for penetrating the insulation of the main conductors and branch conductors available.

If it after the connection process to a setting behavior the device comes, for example due to thermal cycling or due to a material creep, this is the original by the Screw connection achieved reduced clamping force, which is undesirable because this causes the contact resistance increase between each other associated main and branch conductors.

From the GB 1 260 902 a connecting device is known in which a seated on a relation to the terminal parts projecting end of the threaded bolt coil spring maintains the clamping pressure. The supernatant of the threaded bolt caused by the helical spring is disadvantageous in particular with regard to casting of the mounted clamp and in particular can not be easily separated.

Out WO 01/45210 A1 a connecting device is known in which an arcuate connecting plate connects several, in the longitudinal direction of the conductor one behind the other terminal parts together and thereby full surface in contact with an arcuately curved lateral surface of the terminal parts.

Of the Invention is based on the problem, a generic device to provide, which has even better properties. In an embodiment The device should have a durable and good electrical connection ensure between the main conductor and the respective branch conductor. In one embodiment the assembly of the device is further simplified and security at the assembly further increased be. In one embodiment should the dimensions of the cable branch terminal and thus the volume a potting compound, which in a the cable branch terminal closing sleeve is to be brought in, from economic and ecological establish be further minimized.

The Problem is solved by the device defined in claim 1. Special embodiments The invention are defined in the subclaims.

In an embodiment is the pressure plate due to the material used for this and the geometric design force-storing deformable. The Pressure plate can have at least two sections due to their different geometric design a different Have flexural rigidity, and at least one of Tightening the screw is force-storing deformable. In an embodiment is a section of the pressure plate into which the bolting force is introduced, formed rigid, and an adjoining section force-storable deformable. This occurs when tightening the Screw connection to an elastic deformation of the pressure plate in a given area. The stored in the pressure plate Force becomes after completion of the tightening and thus after complete assembly the device is introduced into the device and thereby the contact force for the electrical connection between main conductor and branch conductor permanently to a great extent maintained. In one embodiment are arranged on both sides of the screw pressure plates, In particular, in each case a housing part is assigned a pressure plate.

In an embodiment connects the pressure plate the function of a connecting or reinforcing element with a spring element, in particular, no separate spring element required. Preferably, the pressure plate is undeformed Condition not full surface on a housing part at. The pressure plate can deform elastically without by the deformation of the printing plate by positive engagement also the housing part deformed, where the pressure plate is in abutment.

By using a pressure plate, the size of the device is not increased, in particular in the direction of the longitudinal axis of the threaded bolt, which is particularly advantageous. In addition, the spring force can be initiated by the use of a plate exactly where it is most effective for maintaining the electrical contact, namely above or below the branch conductor or the associated contact elements. In one embodiment, the pressure plate acts for this purpose, possibly in conjunction with a recording body, immediately on the branch ladder.

In an embodiment the pressure plate has a preferably integrally formed rigid Stop on, by the spring travel of the pressure plate and in particular a resiliently deformable portion of the pressure plate is limited. In one embodiment is a section of the pressure plate when tightening the screw in Attachment to the stop brought, so overstretching of the pressure plate and thereby a plastic deformation is reliably prevented. By the Stop it as well possible, over the pressure plate higher personnel transferred to, as this is due to the spring constant and the elastic deformation possible would. Thereby can especially during the tightening of the screw or the assembly of the device high forces transmitted by means of the pressure plate such as permeating the isolation of main and branch conductors through the contact elements to ensure which the mating main and branch conductors mounted in the State of the device electrically connect each other. For example can by the attack a three or five times as high force means transferred to the printing plate than would be possible simply because of the elastic deformation.

In an embodiment is the stop by bending a stop forming portion from a further section forming base of the Pressure plate formed. The pressure plate can as punched / bent part be made of a suitable spring steel. In one embodiment the pressure plate is symmetrical to a longitudinal plane and symmetrical to a transverse plane formed, in particular axially symmetric to a through an opening in the pressure plate passing axis, with the longitudinal axis the screw of the screw coincides. In one embodiment has the pressure plate in the center of a particular rigid contact surface for a screw connection on, with the introduction sections for introducing the spring force via a spring-elastic deformable section are connected. The introductory sections are on opposite sides Sides of the contact surface arranged. Right-angled to the elastically deformable sections is the contact surface at right angles to the base area connected to protruding sections, which form the stop for the introduction sections.

In an embodiment is the pressure plate in a preferably made of an electrically insulating Material existing receiving body used. In the undeformed state, the pressure plate is preferably not full surface on the receiving body but especially in a first area, the second Area opposite, with the receiving body can be brought into contact with the branch conductor. This will cause the spring force initiated exactly where it is most effective. A springy Deformation of the pressure plate leads at least initially also not to a deformation of the receiving body.

The Inserting the pressure plate in the receiving body is preferably spring latched, why the receiving body and the pressure plate having cooperating locking means. The receiving body has a first contact surface for the plant the associated branch conductor, in particular by transversely to the longitudinal extent the branch conductor aligned webs or ribs are formed, its contour of the outer contour of the branch conductor can be modeled. The pressure plate leads their spring force predominantly or exclusively in the region of the first contact surface in the receiving body. In particular, this can be done in any case, in the unstressed state of the contact surface for the screw connection element having portion of the printing plate not be in contact with the receiving body, so tightening the screw connection to a deformation the pressure plate leads, but not on the receiving body and therefore not on the associated housing part transferred to the device becomes. Rather, the leads Deformation of the pressure plate to initiate the spring force only in the areas where the receiving body with its first contact surface in plant is at the associated branch conductor.

In an embodiment the device is symmetrical in that the one of the other opposite arranged pressure plates introduced forces aligned with each other and the power flow in a straight line from the first pressure plate over the first receiving body, the first branch conductor and over a first contact element in the associated first main conductor is introduced, from there about an inserted support wedge on the second main conductor, of this via a second contact element on the second branch conductor, in turn, in contact with a second receiving body is, on which the spring force of the second pressure plate acts. The result resulting power flow stabilizes the interconnected Main and branch conductor in the desired position and leads to a permanent secure electrical connection.

The screw connection of the housing parts can basically be designed as known from the prior art, in particular from US Pat DE 103 41 997 A1 , In one embodiment, a so-called carriage bolt is used, which is rotatably connected at one end to a first housing part, in particular rotationally fixed with a first housing part associated with the first pressure plate, and on the opposite end of a nut can be screwed, which comes when tightening in abutment with the second housing part associated second pressure plate.

In an embodiment the housing has two in a front view along the longitudinal direction of each other to be connected main and branch conductors substantially U-shaped housing halves. The two legs of the U-shaped Showcase half guide means on, by means of which the two housing halves are plugged together. The section connecting the two legs of the housing half has the receiving opening for the contact elements on. In one embodiment are the housing halves as Equal parts formed.

In an embodiment assigns each half of the housing at least one leg on a guide bar on and on the other Leg a guide groove, in which the guide bar the other housing half inserted is. This allows the two housing parts simply be plugged onto the main conductors. if necessary beforehand the main conductors by driving a support wedge in the required amount of each other spaced. Should not all main conductors have matching outside dimensions can have the optimal positioning of the main conductor within of the housing Device also be brought about by the use of a support wedge, which has different dimensions on its two sides, in particular a different thickness or a different wedge angle.

In an embodiment become the support wedges color-coded according to their geometric design, possibly also two-tone with different colors the thick and thin Page, so that confusing or inadvertently twisting the support wedges also for the inexperienced Fitter is almost excluded.

In an embodiment has at least one housing part a preferably one-piece trained stop means. When merging manually or Mating the housing parts Under gripping of the main ladder the sling comes into contact to an insulation of the associated main conductor. Under normal Force application, the two housing parts are now not merge. In an embodiment have the two housing parts Locking means, by means of which the mated state of lockable to both housing parts is, in particular that state locked as a pre-assembly in which the sling is in contact with the insulation of the main conductor is.

Preferably this locking is solvable, so if necessary, the housing parts from the pre-assembly can be removed again, provided this is required. The stop means are positioned so that in the pre-assembly, an intrusion of the housing part arranged contact elements in the insulation of the main conductor reliably prevented is so that there is no danger that the contact elements in the Pre-assembly already contact the main conductor electrically and thus are energetic.

Then be starting from the pre-assembly position, the branch conductors on the housing parts zugebogen, especially in a position close to the housing parts arranged contact elements brought. The before the insertion of the pressure plate or the receiving body for the printing plate open insertion channel for the Branch conductor can be used as a template for both bending and for cutting to length Branch conductors are used, thereby optimizing cropping as well for the untrained Assembler ensured is. The pressure plate, which together with the receiving body a kind Cover for the insertion channel the branch conductor forms, only after inserting the branch conductor in the insertion channel fitted and preferably detachable with the associated housing part locked. On the branch conductor facing side forms the housing part preferably in one piece trained introductory and positioning means, for example wedge-shaped webs, by means of which optimal alignment and positioning of the branch conductor with respect to the housing part, in particular with respect to the arranged in the housing part contact element guaranteed is. The branch conductor is inserted into the housing part and then the Pressure plate mounted, in particular in conjunction with the associated receiving body, and by screwing the screw the branch conductors are in fixed the device without it immediately to an electric Contacting the main or branch conductor comes.

In an embodiment has the housing part and / or the receiving body at least one opening on, by means of the correct positioning of the associated branch conductor is controllable, in particular whether the branch conductor in the area the associated contact elements is positioned. A pertinent one Control can be done before tightening the screw connection, Consequently, if necessary, a correction can also be made.

In one embodiment, then the screw is tightened. This initially leads to overcoming the stop means, with which the housing part was in contact with the insulation of the main conductor. The overcoming can be done, for example, by breaking one previously be existing connection of the stop means with the housing part. In one embodiment, the stop means is connected to more than one point to the housing part and remains even after overcoming still connected at least one point with the housing part, for example by an elastically deformable connecting portion, which chipping and throwing away the stop means is prevented, otherwise Even a void-free filling of the device enclosing sleeve could hinder.

In an embodiment are the elements of the screw with the respective associated pressure plate captively locked, the detent also be solvable can.

The power supply cable containing the continuous main conductors is preferably a multi-conductor cable, as is customary, for example, for domestic connection lines with a cross-sectional area of the main conductor of, for example, approximately 150 mm ² and of the branch conductor of, for example, approximately 50 mm ² . The main conductors and / or branch conductors may be single or multi-wire. A typical application of the device according to the invention is in a three- or four-phase (including earth) power supply cable with operating voltages less than 1000 V of the low-voltage power supply network.

The inventive device is also for underground cable used. Thereby the device becomes after electrical connection with a sleeve and cast in it Cast resin locked. The housing parts the device according to the invention are preferably made of electrically insulating plastic, in particular a fiber reinforced Plastic, and it is preferably with mounted device and closed connection between main and branch conductors of Outside no live Parts tactile. Preferably lead Voltage loads of 5000 V between old metal parts, the have no connection, not to an insulation breakdown.

In an embodiment According to the invention, the contact element is plate-shaped, and preferably as Stamped part formed. For Some applications may be advantageous, the contact element as for example U-shaped Form punched / bent part. As a material is preferably a high-strength copper alloy used, for example, a CuFe2P alloy, which has a high electrical conductivity of, for example, more than 32 MS / m with good mechanical strength, preferably a Vickers hardness HV of more than 140. Typical material thicknesses are in the range between 0.5 and 5 mm, in particular about 1 to 2 mm. To improve the electrical contact properties and / or to avoid electrolytic Corrosion, for example, in contact with aluminum conductors, is the surface the contact elements with a preferably galvanically applied Tin pad with a layer thickness from 3 to 20 μm provided, in particular about 5 microns.

In an embodiment According to the invention, the device has at least two contact elements each connection of a main conductor with an associated branch conductor on. Preferably, the distance of the contact elements to each other in the longitudinal direction of as possible to contact conductors chosen big to In the contact area, connect the conductors to be contacted in parallel and thus to lower the overall resistance of the assembly. Besides that is in multistranded Ladders under consideration the twist of the cable ladder ensured by the axial spaced contact elements different individual wires of Head will be contacted.

In a particular embodiment the invention, the connecting screw has a predeterminable Abreißdrehmoment on. Preferably, in particular, tears the screw head after exceeding the tearing torque from. For many applications it becomes possible be the device with a single central connecting screw equip. If necessary, also several connecting screws be provided, in particular in the direction of the to be contacted Main conductor or branch conductor in succession and / or next to each other be arranged. According to a particular embodiment is the device by the connecting screw against the State of the art is not screwed in until a tight fit, but up to a predetermined torque. This predefinable torque depends on the Geometry of the contact elements, the insulating material of the main or branch conductor, the conductor cross-section, as well as the geometry the housing parts from. In particular, by the predetermined breakaway torque one and the same Device for different Conductor cross sections are used.

By the device according to the invention In particular, working under tension is possible. For this purpose, it is ensured that the live parts are always finger-safe in every phase of the assembly are covered. Which also includes also a protection against a direct contact in case of incorrect handling of tools. There is no possibility of bridging live parts due to incorrect handling of a tool. A stripping of the branch conductor is not necessary, which is why the Absetzmaß for stripping the insulation no errors can occur the after closing the device to bare protruding Lead wires could which then lead to tension.

In a particular embodiment shows the device in a parting plane of the two housing parts a support wedge on, which is a preferably elastically deformable abutment for the main conductor forms. As a result, the required contact force is also at thermal cycling permanently guaranteed.

Further Advantages, features and details of the invention will become apparent the dependent claims as well as the following description, with reference to FIG the drawings several embodiments is described in detail. It can in the claims and mentioned in the description Features individually for themselves or be essential to the invention in any combination.

1 shows a perspective view of a first embodiment of a device according to the invention,

2 shows a cross section through a completely assembled device,

3 shows a perspective view of the first housing part,

4 shows a rear view of a cross section through the first housing part,

5 shows a perspective view of the first housing part facing the underside of the first receiving body,

6 shows a perspective view of the first receiving body on the side facing away from the first housing part,

7 shows a plan view of the printing plate,

8th shows a cross section along VIII-VIII of 7 .

9 shows a cross section along IX-IX of 7 , and

10 shows a perspective view of the printing plate.

The 1 shows a perspective view of a first embodiment of a device according to the invention 1 for electrically connecting at least two insulated main conductors 2 . 4 . 6 . 8th a power supply cable, each with at least one isolated branch conductor 12 . 14 . 16 . 18 , with a housing that is at least two by a screw connection 22 connectable housing parts 10 . 20 having, for each connection to be made between a main conductor 2 . 4 . 6 . 8th and the associated branch conductor 12 . 14 . 16 . 18 at least one contact element 32 . 34 . 36 . 38 ( 2 ) in a housing part 10 . 20 is arranged. Because the first housing part 10 and the second housing part 20 In the illustrated embodiment, are formed as equal parts, the first housing part is primarily priority 10 described in more detail. The same applies in each case also for the second housing part 20 ,

The device 1 has one with the screw 22 operatively connected first pressure plate 30 on, by means of which the connection force of the screw connection 22 into the device 1 is introduced, in particular in the first housing part 10 , The first printing plate 30 is force-storing deformable and deforms elastically when tightening the screw 22 , After completion of tightening the screw 22 This is due to the elastic deformation of the first pressure plate 30 stored force in the device 1 introduced. As a result, the contact force for the electrical connection between the main conductors 2 . 4 . 6 . 8th and the branch conductors 12 . 14 . 16 . 18 maintained.

The first housing part 10 is identical to the second housing part 20 , These are in particular equal parts made of a fiber-reinforced plastic. In the 1 is shown a pre-assembly, in which the two housing parts 10 . 20 latched together, but the contact elements 32 . 34 . 36 . 38 ( 2 ) not yet in contact with the main conductors 2 . 4 . 6 . 8th and the branch conductors 12 . 14 . 16 . 18 are. This pre-assembly is occupied by the installation of a one-piece from the first housing part 10 trained lifting gear 24 , in four places with the first housing part 10 connected is. Approximately in the middle of its arcuate extent is the stop means 24 at a first and second junction 26 . 28 with the first housing part 10 connected ( 3 ). These connection points 26 . 28 are rigid and bring the holding force, by the normal force application in the 1 shown pre-assembly position is not surmountable. When tightening the screw connection 22 break the first and second junction 26 . 28 from and the two housing parts 10 . 20 are further together. Through the third and fourth connection point 42 . 44 by elastically deformable band-shaped sections at the outer end of the arcuate course of the stop means 24 are formed, is the stop means 24 even after breaking the first and second junction 26 . 28 still preferably in one piece with the first housing part 10 connected.

The 3 shows a perspective view of the first housing part 10 and the 4 shows a rear view of a cross section through the first housing part 10 , The first housing part 10 is substantially U-shaped and has on the side of a first leg two preferably in one piece from the first housing part 1 formed, parallel to each other and in its cross section to its longitudinal axis in turn also substantially U-shaped profile webs 46 . 48 on, the near its free end to increase the stability of a preferably integrally formed connecting web 52 are connected ( 1 ). On the facing end faces, the two profile webs 46 . 48 as a guide means a guide groove 54 on, in which a guide bar 56 is insertable, preferably in one piece from a third profile web 58 is formed, which on a second leg opposite the first leg of the first housing part 10 is trained. The third profile bridge 58 has on its outside at least partially a regular surface structure 62 on, in particular a rack. Cooperating with the connecting web 52 , in particular one of the connecting web 52 integrally formed latching tab 64 on its inwardly facing surface, a locking tooth as a locking means, so that the two housing parts 10 . 20 releasably spring latching are pluggable.

The portion connecting the two legs of the first housing part 10 forms on its outward-facing surface a receiving space for two branch conductors 12 . 14 . 16 . 18 out. For each branch conductor 12 . 14 . 16 . 18 are two axially spaced and at least partially spherical curved bearing surfaces 66 . 68 intended. Each of these bearing surfaces 66 . 68 is about the center of its axial extent of a receiving opening 72 for receiving a contact element 32 . 34 . 36 . 38 interrupted. Consequently, at least two contact elements for each branch conductor 32 . 34 . 36 . 38 provided by means of which the branch conductor 12 . 14 . 16 . 18 with the respectively associated, in particular in the mounted terminal underlying main conductor 2 . 4 . 6 . 8th , is electrically connected. The contact elements 32 . 34 . 36 . 38 can be bent in a U-shape and have on both legs end a toothing for electrical contact.

Preferably, the first housing part forms in one piece 10 also at one axial end a stop surface 74 to which the branch conductors 12 . 14 . 16 . 18 can be brought into contact. In addition, the first housing part forms 10 at the axial end sides of the insertion channels for inserting the branch conductors 12 . 14 . 16 . 18 V-shaped pads 76 out, on which the branch conductors 12 . 14 . 16 . 18 can be placed in a pre-assembly position. The contact surface of the V-shaped support 76 is opposite the support surface 66 . 68 slightly increased, so that in the pre-assembly position penetration of the contact elements 32 . 34 . 36 . 38 in the isolation of the branch conductors 12 . 14 . 16 . 18 is reliably prevented. When tightening the screw, the V-shaped pads 36 either deform sufficiently or break off, so that then the branch conductor 12 . 14 . 16 . 18 in contact with the bearing surfaces 66 . 68 comes and thereby the contact elements 32 . 34 . 36 . 38 in the branch ladder 12 . 14 . 16 . 18 penetration.

The approximately centered in the direction of the axial extent of the first housing part 10 arranged and from the first housing part 10 integrally formed first guide pins 78 are next to an opening for the passage of a screw of the screw 22 arranged and serve as a placeholder for the screw to be used. The at the axial ends of the first housing part 10 and preferably integrally formed by the second guide pins 82 also protrude into the interior of the device 1 and are arranged slightly off center in the transverse direction; they essentially serve a simplified merging of the two housing parts 10 . 20 and are slightly longer than the first guide pins 78 ,

The 2 shows a cross section through a completely assembled device 1 , but without screw connection 22 , The first contact element 32 Penetrates the insulation of both the first main conductor 2 as well as the insulation of the first branch conductor 12 and provides an electrical connection between the first main conductor 2 and the first branch conductor 12 ago. In a similar way, the other main conductors 4 . 6 . 8th via the respective associated contact element 34 . 36 . 38 with the respective associated branch conductor 14 . 16 . 18 connected.

For this purpose, the screwing force on a first pressure plate 30 and a first receiving body 60 on the first branch conductor 12 and via the first contact element 32 on the first main ladder 2 introduced, which is located on the first support wedge 70 supported. From the opposite side is the screwing force on a second pressure plate 50 of the second housing part 20 , the associated second receiving body 80 in the second branch conductor 14 , via this into the second contact element 34 and the second main conductor 4 initiated, extending from the opposite side to the first support wedge 70 supported. The from the opposite pressure plates 50 introduced forces are essentially aligned, so that results in a favorable power flow.

The 5 shows a perspective view of the first housing part 10 facing bottom of the first receiving body 60 , Axial end and centric in the transverse direction to form the first receiving body 60 preferably in one piece two spring tongues 84 made of a regular structure on their surface 86 have, in particular a rack. The spring tongues 84 are in corresponding receiving openings on the first housing part 10 ( 3 ) and through the structure 86 detachably lockable on the first housing part 10 fixable. This is also the position of the first receiving body 60 with respect to the first housing part 10 specified. Axial in the area of the bearing surfaces 66 . 68 ( 3 ) of the first housing part 10 for the branch conductor 12 . 14 . 16 . 18 forms the first receiving body 60 as a contact surface arcuate Andruckstege 92 via which the screwing force of the first receiving body 60 on the associated branch conductor 12 . 14 . 16 . 18 is transmitted. In addition, the first receiving body forms 60 preferably in one piece positioning means 94 off, to position the branch conductor 12 . 14 . 16 . 18 when placing the first receiving body 60 on the first housing part 10 , The positioning means 94 can be arranged in the axial direction in particular centrally and, for example, triangular or curved, so that as a result of the attachment of the first receiving body 60 the branch conductor 12 . 14 . 16 . 18 along the inclined edge or curvature is displaceable in position.

Axially end faces the first receiving body 60 openings 96 by means of which, in particular in a pre-assembly position of the device 1 the correct positioning of the branch conductors 12 . 14 . 16 . 18 is controllable.

The 6 shows a perspective view of the first receiving body 60 on the first housing part 10 opposite side. The receiving body 60 has a circumferential border 98 for receiving the first printing plate 30 on. The opening in the center 102 for the passage of the connecting screw is also in any case sections of a collar 104 bounded, a guide when putting the first pressure plate 30 can form and in particular latching means 106 forms, by means of which the first pressure plate 30 latching to the first receiving body 60 is determinable.

In the area in which the first receiving body 60 on the bottom of the Andruckstege 92 consequently, in the region in which the first receiving body 60 the pressure forces on the branch conductor 12 . 14 . 16 . 18 transmits, forms the first receiving body 60 on the top of a preferably planar contact surface 108 for the installation of the first printing plate 30 out. The rest of the area, especially the area around the opening 102 for the connecting screw, in contrast, is lowered, so that the first pressure plate 30 can lower in this area due to the elastic deformation, without abutting against the surface of the first receiving body 60 get. In this way it is guaranteed that in the first printing plate 30 stored spring force only in those areas in the first receiving body 60 in which they are directly and in particular without deformation of the first receiving body 60 in a contact force for the associated branch conductor 12 . 14 . 16 . 18 is converted.

The 7 shows a plan view of the first pressure plate 30 , the 8th shows a cross section along VIII-VIII of 7 , the 9 shows a cross section along IX-IX of 7 , and the 10 shows a perspective view of the first printing plate 30 ,

The printing plate 30 is preferably made by punching and bending in one piece from a rectangular board. The printing plate 30 is symmetrical to the two in the 7 Plotted sectional planes and beyond symmetrical to the sectional axis formed by the cutting planes, through a central and provided for the passage of the connecting screw opening 114 perpendicular to the plane of the 7 runs.

The longitudinal edges are pulled up and cut free at their axial ends and bent inwards, thereby forming a stop 112 by deflecting an introductory section 116 the printing plate 30 is limited, which is in contact with the contact surface 108 of the recording body 60 is. The introductory section 116 is about a resiliently deformable, in particular web-shaped section 118 with one in the center of the pressure plate 30 provided and preferably rigid contact surface 122 connected for a screw connection. For this purpose, the contact surface 122 for example, a crank 124 or have a bead, in particular transversely to the extension of the resiliently deformable portion 118 ,

Claims (15)

Contraption ( 1 ) for electrically connecting at least two main conductors ( 2 . 4 . 6 . 8th ) of a power supply cable, each having at least one branch conductor ( 12 . 14 . 16 . 18 ), in particular cable branch terminal, with a housing, the at least two by a screw ( 22 ) connectable housing parts ( 10 . 20 ), the device ( 1 ) one with the screw ( 22 ) in operative connection pressure plate ( 30 . 50 ) for introducing the screw connection force into the device ( 1 ), characterized in that the pressure plate ( 30 . 50 ) force-storing ver is malleable and when tightening the screw ( 22 ) elastically deformed and after completion of the tightening the stored by the elastic deformation force in the device ( 1 ) initiates the contact force for the electrical connection between the main conductor ( 2 . 4 . 6 . 8th ) and branch conductors ( 12 . 14 . 16 . 18 ). Contraption ( 1 ) according to claim 1, characterized in that the pressure plate ( 30 . 50 ) a rigid stop ( 112 ), to which another section ( 116 ) of the printing plate ( 30 . 50 ) when tightening the screw ( 22 ) due to the occurring elastic deformation of the pressure plate ( 30 . 50 ) can be brought into contact. Contraption ( 1 ) according to claim 2, characterized in that the stop ( 112 ) and the further section ( 116 ) in one piece from the pressure plate ( 30 . 50 ) are formed, in particular by bending a stop ( 112 ) forming portion of a further portion forming base of the printing plate ( 30 . 50 ). Contraption ( 1 ) according to one of the preceding claims, characterized in that the pressure plate ( 30 . 50 ) in a receiving body ( 60 . 80 ) can be used, a first contact surface for the system to the associated branch conductor ( 12 . 14 . 16 . 18 ), and that the pressure plate ( 30 . 50 ) their spring force predominantly or exclusively in the region of the first contact surface in the receiving body ( 60 . 80 ). Contraption ( 1 ) according to claim 4, characterized in that the receiving body ( 60 . 80 ) latched to the associated housing part ( 10 . 20 ) is determinable. Contraption ( 1 ) according to claim 4 or 5, characterized in that the receiving body ( 60 . 80 ) an opening ( 96 ), by means of the particular in the not yet tightened state of the screw ( 22 ) the correct positioning of the associated branch conductor ( 12 . 14 . 16 . 18 ) is controllable. Contraption ( 1 ) according to one of claims 4 to 6, characterized in that the receiving body ( 60 . 80 ) a preferably integrally formed positioning ( 94 ) for positioning the branch conductor ( 12 . 14 . 16 . 18 ) when placing the receiving body ( 60 . 80 ) on the associated housing part ( 10 . 20 ). Contraption ( 1 ) according to one of the preceding claims, characterized in that at least one housing part ( 10 . 20 ) a preferably integrally formed stop means ( 24 ), which during manual merging of the housing parts ( 10 . 20 ) in abutment with an insulation of the associated main conductor ( 2 . 4 . 6 . 8th ) and thereby unintentional electrical contacting of the associated main conductor ( 2 . 4 . 6 . 8th ) prevented. Contraption ( 1 ) according to claim 8, characterized in that the stop means ( 24 ) due to the tightening of the screw ( 22 ) is surmountable, but nevertheless with the housing part ( 10 . 20 ) remains connected. Contraption ( 1 ) according to one of the preceding claims, characterized in that for each connection to be made between a main conductor ( 2 . 4 . 6 . 8th ) and an associated branch conductor ( 12 . 14 . 16 . 18 ) at least one contact element ( 32 . 34 . 36 . 38 ) in a housing part ( 10 . 20 ) is arranged, and that when screwing the screw ( 22 ) the contact element ( 32 . 34 . 36 . 38 ) both an isolation of the main conductor ( 2 . 4 . 6 . 8th ) as well as insulation of the branch conductor ( 12 . 14 . 16 . 18 ) penetrates. Contraption ( 1 ) according to one of the preceding claims, characterized in that two housing parts ( 10 . 20 ) are plugged together in particular by a rectilinear relative movement and thereby the main conductors ( 2 . 4 . 6 . 8th ) embrace. Contraption ( 1 ) according to claim 11, characterized in that the two housing parts ( 10 . 20 ) Have latching means by means of which the mated state is latched as a pre-assembly, in particular releasably latched. Contraption ( 1 ) according to claim 11 or 12, characterized in that the two housing parts ( 10 . 20 ) Guide means for guiding the rectilinear relative movement during mating. Contraption ( 1 ) according to one of claims 11 to 13, characterized in that the two housing parts ( 10 . 20 ) are designed as equal parts. Contraption ( 1 ) according to one of the preceding claims, characterized in that the device ( 1 ) in the parting plane of the two housing parts a support wedge ( 70 ), which has a different thickness towards the two sides of the parting plane.