DE19629563A1 - Electrical spring terminal - Google Patents

Abstract

The spring clamping element 9 is formed as a loop from strip material and is installed in a housing of insulating material that has an aperture 11 at one end into which the end of a cable is inserted. The aperture is accessed by deflecting the spring with a screwdriver . When released the cable is clamped against a conductor 7. A shaped insert of insulating material 15 is placed in the loop and this prevents any overload by limiting the deflection.

Description

The invention relates to an electrical Terminal with an insulating housing and with at least one in the insulating material Spring-loaded clamp arranged in the housing short for electrical conductors. The feather Power terminal connection consists of a current rail and a clamping spring made up of a resilient flat material is shaped and their one leg as an investment leg on the Busbar is resting. The other leg the clamping spring is as a clamping leg below Form a loop on the busbar bent and has a recess through  that extends the conductor rail such that a between the bottom of the Track and the bottom edge of the off in the recess of the clamping leg introduced electrical conductor from below is clamped against the power rail.

It is known in this type of terminals the interior of the gebil from the clamping spring a molded plastic part to be arranged as an overload protection stop, an undesirable overextension of the clamp spring when opening the spring clamp connection prevent it.

Such a plastic part is on the insulation molded housing of the clamp with and on a side wall of the receiving chamber in the insulating housing into which the con cycle insert (track with clamping spring) is used from the side, so that the overload protection plastic part from from the side into the interior of the Clamp spring formed loop inside stretches.

Such a design and arrangement of the load protection stop is only possible if the contact insert from the side in the receiving chamber of the Isolierstoffge is used. To this assembly It is proposed to remove restrictions the overload protection stop there  through to form that the track or two on the side of the track has shaped metallic lobes that are bent up laterally and in the Loop space of the clamping spring as a stop blow in (see DE 44 35 781 A1, DE 1 95 10 173 C1, DE 2 95 14 509 U1).

Such metallic overload protection stop However, attacks have the disadvantage that the relatively brittle spring steel of the Clamping spring notches and also one increased use of materials in production the busbars require since the side rags formed on the busbar Punching width of the busbar molding significantly enlarge. Enlarged at the same time through the flaps formed on the side also the width of the contact insert ins total because of the width of the on the stream rail seated clamping spring for reasons does not ver the exactly defined clamping force may be reduced. That is e.g. B. in rows terminal arrangements with a predetermined small pitch a big disadvantage.

The object of the invention is an electrical Clamp of the aforementioned type with an over load protection stop to create the down visibly the mounting options of your Contact insert no restrictions under lies and at the same time the smallest possible Width of the contact insert allows.  

This object is achieved according to the invention solved that the overload protection by a from the insulating housing of the terminal un dependent (loose) insert made of plastic is given in the loop space of the Clamp spring can be used and a spread mechanism by means of which the insertion is partially fixable in the loop space.

The overload protection insert according to the invention part becomes before the assembly of the contact insert into the insulating housing in the loops space of the clamping spring used, being a Spreading mechanism of the insert therefor ensures that the insert in the loops space non-positive and / or positive is fixed, so that then follow in one the assembly process of the contact insert on be like in the insulating housing Clamp can be inserted.

Such an overload protection insert exists made of plastic and is accordingly cost cheap to manufacture. Its width can be problem off to the smallest building desired width of the contact insert can be adjusted.

The spreading mechanism of the overload protection Insert is advantageous Embodiment of the invention by at least a resilient spreader arm is formed from the base body of the insert stretches and with the actuation of the clamp  spring comes to bear against the base body and together with this the overload protection Stop stop forms.

Such an elastically spreading Insert can be made without any significant effort into the loop space of the clamping spring are brought and forms a massive Overload protection that meets all requirements corresponds to electrical and mechanical type. In particular, such a massive Plastic insert of the brittle spring steel of the spring was not damaged.

For clamps that have a closed receptacle can have chamber for the contact insert, ge according to another expedient execution form of the invention be provided that the on the base of the overload protection insert partially spreading arm with the The base body locks as soon as the clamping spring is actuated or opened for the first time. By this latching is the spreading force of the The insert is neutralized so that it Do not open the clamp in addition to Restoring forces of the spring can be overcome got to.

For a special case of an electrical terminal of the aforementioned type with an overload protection Stop stop where the contact insert from the front of the insulating material housing in the Admission chamber is used according to one alternative embodiment of the invention  seen that an overload protection insert made of plastic through the recess of the Clamp leg of the clamping spring in inserted the loop space of the clamping spring is such that the insert by means of a Connecting web with a front Ver end cover of the insulating material housing connected and is held in the loop space. A such insert part then does not need the Spreading mechanism to fix its position in the loop space because the fixation in the Loop space through the connection mentioned web is guaranteed.

Exemplary embodiments of the Invention with reference to the drawings wrote. Show it:

Fig. 1-3, a first embodiment of he invention,

Fig. 4 shows a second embodiment of the invention.

Figs. 1-3 show side views of a contact insert of known type, as it can be inserted into the receiving chamber 5 of the insulating housing 6 a clamp. It consists of a busbar 7 with a bevelled side wall 8 , which delimits the conductor connection space and braces the busbar. On the busbar, the clamping spring 9 is set up such that its contact leg 10 rests on the busbar and that the clamping leg 12 provided with a recess 11 engages over the end piece of the busbar 7 .

To connect an electrical conductor, the terminal is opened, e.g. B. by means of a screwdriver 13 , which is shown as a hint in Fig. 3. The screwdriver presses the clamping leg 12 downwards, as a result of which the clamping point between the underside of the busbar 7 and the lower edge of the recess 11 opens and an electrical conductor (not shown) in the representation of FIG. 3 from right to left via the conductor insertion channel 14 can be inserted into the terminal point.

All these features of the terminal shown are known to the expert and must therefore not be described in more detail.

What is new is the use of a loose insert part 15 which can be inserted into the loop space 16 of the clamping spring and which is independently fixed in the loop space. For this purpose, the insert consists of a base body 17 and an expansion arm 18 , which are injection molded together in one piece from an elastically resilient plastic and in a shape according to FIG. 1, that is, with the tendency of the automatic expansion of the expansion arm from the base body . For insertion into the loop space 16 , the spreader arm and the base body are rela tively compressed to one another, and both springs apart again after being introduced into the loop space and, according to FIG. 2, clamp firmly in the loop space of the clamping spring.

The clamping spring can then be easily on any way along with the busbar (= Contact insert) in the designated Receiving space of the insulating housing Clamp can be inserted or mounted.

When the clamping spring is actuated for the first time, it is opened by depressing the clamping leg 12 , as shown in FIG. 3. The spreading arm 18 of the insert lies against the base body 17 of the insert and both together form a solid overload protection stop stop made of plastic, which largely intercepts the clamping leg of the clamping spring without damaging it with sharp notched edges or the like.

Fig. 4 shows a side view of the same basic structure of a contact rail formed from a power rail and a clamping spring, which is built in a known manner into the receiving chamber of a terminal insulator housing. However, the special case is shown in which the contact insert is inserted from the front side 19 of the insulating housing into the receiving chamber, and the receiving chamber is then closed by means of an end-side closure cap 20 which latches in the receiving opening by means of the latching hooks 21 , 22 .

According to a special embodiment of the invention it is provided that the insert part 23 shown in FIG. 4 is connected by means of a connecting web 24 to the front cover 20 and is thus fixed and held in the loop space of the clamping spring.

Claims (6)

1. Electrical clamp

• - With an insulating material housing and with at least one in the insulating material at an ordered spring-cage connection for electrical conductors,
• the spring clamp connection consists of a busbar and a clamping spring which is formed from a resilient flat material and one leg of which rests on the busbar as a contact leg,
• - The other leg of the clamping spring is bent as a clamping leg in the manner of a loop on the busbar and has a recess from which the busbar extends through such that a between the underside of the busbar and the lower edge of the recess in the recess of the clamping leg inserted electrical conductor is clamped against the power rail from below,
• - In the interior of the loop formed by the clamping spring, a plastic part is arranged as an overload protection stop for the clamping spring,

characterized,

• - That the overload protection is given by a (loose) insert ( 15 ) made of plastic from the insulating housing ( 6 ) of the terminal,
• - That can be inserted into the loop space ( 16 ) of the clamping spring and has a spreading mechanism by means of which the insert can be fixed in the loop space.

2. Clamp according to claim 1
characterized,

• - That the expansion mechanism is formed by at least one resilient expansion arm ( 18 ) which extends from the base body ( 17 ) of the laying part ( 15 )
• - And comes with the actuation of the clamping spring against the base body to the plant and forms the overload protection stop with this.

3. clamp according to claim 2,
characterized,

• - That with the first actuation of the clamping spring of the spreading arm ( 18 ) coming into contact with the base body ( 17 ) engages with the base body.

4. Electrical clamp

• - With an insulating material housing and with at least one in the insulating material at arranged spring-cage connection for electrical conductors,
• the spring clamp connection consists of a busbar and a clamping spring which is formed from a resilient flat material and one leg of which rests on the busbar as a contact leg,
• - The other leg of the clamping spring is bent as a clamping leg in the manner of a loop on the busbar and has a recess from which the busbar extends through such that one between the underside of the busbar and the lower edge of the recess in the recess of the clamping leg inserted electrical conductor is clamped against the power rail from below,
• - In the interior of the loop formed by the clamping spring, a plastic part is arranged as an overload protection stop for the clamping spring,

characterized,

• - That the overload protection is provided by an insert part ( 23 ) made of plastic which is dependent on the insulating housing of the terminal,
• - That can be used in the loop space of the clamping spring and that through the recess of the clamping leg of the clamping spring through such that the insert part by means of a connecting web ( 24 ) with a stirnsei term sealing cover ( 20 ) of the insulating material housing and is held in the loop space.