DE1885233U - SPRING CLAMP. - Google Patents

Description

RA. 67103 if * 19-10.63

FBD Ju B BEUCE = EL BMME _. .

There are spring pressure terminals or cylindrical screw springs Leaf springs known in which the spring pressure is metallic or insulated Druckelemeiite is transferred. Disadvantageous in these constructions is that the spring pressure is over thermoplastic and / or thermosetting Insulating body is transmitted, the handling of the clamps through this paramount Pressure or tilting elements are made ", which is also unintentional can happen. These constructions require a large number of individual parts that are functional with one another and the great precision of manufacture require and thereby make the production of the spring-loaded clamp so expensive that the! distribution of the clamps was limited * ...

In order to open up further areas of application for the spring pressure clamp, simplifications are required and improvements are required in the construction with which the present invention is concerned

If you are looking for the simple spring-pressure terminal, the well-known leaf spring 2 in connection with a current-conducting bridge is ideal. With this terminal, the conductors are connected by inserting the conductor wire 5 axially with slight pressure. The leaf spring 2 springs backwards and releases a gap in the. Now the conductor 5 is inserted until it has reached a certain stop. The leaf spring 2 now presses against the conductor 5 and presses it against the Stromleitbrücke or better against _: the still to be described profile frame 1._Loosen the conductor 5 by a "(Terkaeug (screwdriver) reaching through the lockout 3 and applying pressure the leaf spring 2 exerts. The conductor 5 "becomes free and can be pulled out effortlessly. This basic structure of a simple spring pressure IQ emme, as well as the loosening and jamming process are assumed to be known, some improvements to this basic concept are suggested below.

It is assumed that metal parts are used to conduct the current If plastic parts are used for insulation, the result is due to the various Iverkstoffe manufacturing tolerances. It is not possible at Provide plastic parts tolerances that are in the usual order of magnitude of those who lie. are common in metal parts manufacturing. Plastic-, parts require larger tolerances. .

Dia auroli will not be hampered by these differences in accuracy proposed according to the invention, the actual jamming of the conductor only using metal parts. The now interacting individual parts are simply inserted into a housing that is open at the top and pushed through closed a lid. Various modifications are possible within this task, which are described below.

One recognizes «In Fig. 1 the basic version of the terminal module.

In Fig. 2 a tier arrangement of two 'leaf springs' in one

Terminal block.
In Fig. 3 an alternative solution to Fig. 2. In Fig. 4, the two leaf springs are arranged in parallel. In Fig. 5, 3 leaf springs are nested.

In Fig. 6 the assembly of the terminal module is shown in the insulating housing. . ■ -.

In Fig. 7, the locking of the clamp component is explained.

It can be seen from Fig. 1 that the IC terminal module should now consist of 2 components, namely «the profile frame 1 and the specially shaped leaf spring 2. The pressure of the leaf spring 2 is now absorbed on all sides by the profile frame and there is no compressive stress on the insulating housing . Even in the installed state, that is, when the lead wires 5 are connected and the spring pressure is noticeably greater, no forces are transmitted to the insulating housing. Should, however, with relatively large forces a bend and thus an increase in dimension Cb be observed, it is entirely within the scope of the invention to choose a closed box profile instead of the one-sided, open profile frame 1. Since a metallic U or box profile reacts much less sensitively to a rise in temperature than plastic, the use of a metal part to absorb mechanical forces is also advisable for this reason.

The necessity often arises in precision _? .two wires at the same time to connect. Two basic solutions are proposed for this application «. -. - ■ '1 »Arrange two leaf springs 2 and 2a in tiers. 2. Place the two leaf springs 2 and 2a parallel to each other «

If you take the first option as a basis, the result is a useful one Solution (according to Fig. 2) using an E-profile 6 as well as two leaf springs 2 and 2a. It is up to the intended purpose whether the sheet - '■ "; Feathers 2 and 2a point with their pressure legs 4 on the central web 7

_. 3 ■ .- * ■■ "■ ■ ■"

or as shown in Fig. 3, on the outer web 8 and 8 a. It is also conceivable on the middle bar. 7 in Fig. 3 to be omitted, and both leaf springs 2 and 2'a, crouching on crouching. to lay. The deadlock In this particular case, the conductor takes place against the outer webs 8.

The second variant is the parallel attachment of the leaf springs (Fig. 4). Whichever design is preferred must be based on the application. Option 1 results in a high and narrow clamp, while option 2 is flat or wide.

In many cases it is desirable to increase the contact pressure, especially if conductors with a larger cross section are to be closed. According to the invention it is proposed (FIG. 5) to nest several leaf springs 2 _s 2a _s 2b one inside the other.

Sometimes it is desirable to form a second current path to allow the To keep contact resistance low. This can be achieved <by using the in Fig. 5 drawn leaf spring 2 a instead of steel, from a highly conductive Material z. B. electrolytic copper is produced. Mechanically through the two "leaf springs 2 and 2Λ held, is incumbent on the middle spring 2a now only the task of forwarding the current. By spot welding the Spring package itself or with the .. Profile frame 1 can be the result still improve. The previous considerations have been tacit provided that the leaf spring 2 is made of steel or some other alloy consists. In the event of heat generated by electrical load on the terminal, as a result of the power loss always occurs, there is a risk of laughter the strength of the leaf spring 2. The clamp would fail just at the moment of the stress. There is a risk of arcing or the rapid increase in the transition resistance leads to increased and dangerous heat generation.

This can be countered if the leaf spring 2 consists of a thermally active Bimetal is made, and the material with the greatest coefficient of thermal expansion comes to lie in the inside of the radius of curvature. At; The bimetallic spring will bend outwards and when the heat occurs exert an additional compressive stress against the connected conductor 5. So it becomes the pressure drop of the spring 2 itself due to the deterioration in strength compensated within certain limits.

When assembling the terminal block "consisting of profile frame t and the inserted leaf spring 2 inserted into the housing from above. Then the cap 10 is pressed in so that the downward tapering Pin 11 engages through the profile frame 1 and below, in a Cavity 12 engages in terminal base 13. The pin 11 fulfills a double task! It centers the profile frame 1 in relation to the leaf spring 2. At the same time, it prevents "when the terminal is fully assembled" from being pushed through too far of conductor wire 5

An important requirement that a clamp has to meet is that it cannot be lost its individual parts, Bs is proposed to the profile frame.1 protruding rabbits 14 and 14 a, which have inclined sliding surfaces 16 and 16 a in window 15 and 15 a "(Fig. 7) with the help of the own. Snap the spring of the terminal housing into place .. This is the terminal module itself locked. . ■

The closure decoration 10 is expediently left in place by means of protruding beads and 17 a snap into recesses 18 and i8a.

Claims (7)

S O Ξ U T Z A If S P R U C Ξ Έ 1.) Spring-loaded clamp, "consisting of one or more, possibly nested, tiered or in profile E-shaped, one-sided open, or all-round closed profile frame 1 and an insulating body that completely or partially encloses these parts, characterized in that the leaf spring 2 and / or 2a, 2Td developed spring pressure in the idle state or "with the conductor connected 5 is received by the profile frame 1. 2.) spring-loaded terminal according to claim 1, characterized in that the profile frame 1 has protruding crooks 14 and 14a "on the front side, which are shown in FIG Engage the corresponding window 15 and 15a of the terminal housing. 3.) Spring pressure terminals according to claims 1 and 2, characterized in that that the closure cover 10 by means of protruding Yfölste 17 and 17a. in corresponding recesses 18 and i8a of the terminal housing engages. · 4 ·) Spring pressure terminals according to claims 1-3, characterized in that a pin 11 is attached to the closure cap 10. 5.) Spring-loaded terminal according to claims 1-4 thereby gekennzeiehneti that pin 11 of the closure cap -10 through the profile frame 1 and the / the Leaf springs 2 and / or 2a ″ penetrates into recess 12. 6.) Federdruok clamp according to claims 1-5, characterized in that the leaf springs 2 _r 2a, 2 "b are made of a bimetal. 7.) Spring-loaded terminal according to claims 1-6, characterized in that in each case the middle leaf spring 2a consists of an electrical, highly conductive material ".