This application is a national stage application under 35 U.S.C. §371 of International Application No. PCT/EP2010/059,982 filed Jul. 12, 2010, based on the German priority applications Nos. DE 20 2009 009 831.1 filed Jul. 18, 2009, and DE 20 2010 008 028.2 filed Jul. 9, 2010.
1. Field of the Invention
An electrical connector includes a U-shaped metal clamping frame having vertical base and side walls defining a chamber, a stationary electrical contact mounted in the chamber, and a clamping spring arrangement arranged at least partially within the chamber for biasing toward the electrical contact the bare end of an insulated conductor that is axially inserted downwardly into the chamber. The clamping spring comprises a conductive leaf spring having a clamping leg that is inclined, when in the conductor clamping position, at a first acute angle relative to the insertion axis of the conductor.
2. Description of Related Art
It is well known in the patented prior art to provide electrical connectors having resilient clamping means for biasing the bare end of an insulated conductor toward engagement with a stationary contact contained within the connector housing. Such connection apparatuses are known in a large variety of configurations. For a few years special emphasis has been placed again on connection apparatuses which have already been known for a long time and which allow tool-free insertion. Reference is hereby made by way of example in this connection to DE 30 19 149 C2, DE 201 17 770 U1 and DE 20 2006 009 460 U1. These specifications respectively show screwless terminals with a clamping spring (pressure spring) which is used for tightly clamping a conductor at a clamping point between a free leg of the pressure spring and a conductor rail. This type of contact will be referred to below as “direct insertion technology”. It is also known to assign a pressing element to the connection apparatus, with which the clamping point in the contact state can be released again.
Although the solutions of the state of the art have proven their worth, there is still a need for a connection apparatus for conductors in the described “direct insertion technology” which has a very narrow overall width relative to the conductor.
Accordingly, a primary object of the present invention is to provide an electrical connector including a U-shaped metal clamping frame having vertical base and side walls defining a chamber, a stationary electrical contact mounted in the chamber, and a clamping spring arrangement arranged at least partially within the chamber for biasing toward the electrical contact the bare end of an insulated conductor that is axially inserted downwardly into the chamber, said clamping spring comprising a conductive leaf spring having a clamping leg that is inclined, when in the conductor clamping position, at a first acute angle relative to the insertion axis of the conductor.
According to another object, in a preferred embodiment, the clamping leg is supported in the frame chamber by an attachment arrangement including an attachment leg arranged at second acute angle relative to the insertion axis, thereby to apply a strong biasing force on the clamping leg. In another embodiment, the clamping leg is integrally connected with the clamping frame.
The U-shaped profile of the clamping frame preferably consists of a very thin spring steel sheet and encloses the clamping spring as a unit. The overall width can be kept at a very low level as a result of the thin walls of the clamping frame which consists of spring steel sheet. The clamping spring is guided and protected well by the side walls or legs of the U-profile.
When the clamping spring is tensioned by connection with the conductor, the forces in the clamping frame are absorbed as a result of the configuration of the clamping spring arrangement in such a way that no additional force component will arise which will twist the clamping spring. The clamping spring therefore advantageously does not exert any opening force component on the clamping frame. The U-profile substantially only absorbs tensile and pressure forces.
It is also possible to produce the clamping spring and the clamping frame in an integral manner from a sheet-metal blank. In this case, a material will be used which has favorable resilient and good electrically conductive properties.
Other objects and advantages of the invention will become apparent from a study of the following specification, when viewed in the light of the accompanying drawing, in which:
b are perspective views, respectively, of a connector apparatus inserted in an insulating material housing, and a sectional view through the arrangement of
a is a perspective view of the connector apparatus of
b is a perspective view of a clamping frame of the connector apparatus of
c is a perspective view of a clamping spring of the connector apparatus of
a to 5d are perspective views of a further embodiment of a connector with and without an inserted conductor, with
a and 6b are perspective views of a further embodiment of a connect or with an inserted conductor, with
a and 7b each show a perspective view of the connection apparatus of
a to 8c are views of a further embodiment of a connection apparatus with and without inserted conductor, with
a and 9b are, respectively, a perspective view of the connector of
a to 10c are views of a further embodiment of a connector with a conductor, with
a to 11c are views of a further embodiment of a connectors with and without inserted conductor, with
a and 12b are, respectively, a perspective view of the connector of
Referring first more particularly to
The clamping frame 3 a U-shaped horizontal profile (also see
The U-shaped clamping frame 3 is arranged to be open on three sides. One open side is the side 9 extending opposite of the base leg 6; the other two open sides are the insertion side 10 and the base side 11 opposite of the insertion side.
The clamping frame 3 preferably consists of spring steel sheet. This spring steel sheet can be provided with a very thin configuration, which allows providing the entire connection apparatus with an especially narrow configuration perpendicular to the plane of projection of
The clamping spring 4 is inserted into the chamber C of the clamping frame 3. The clamping spring 4 (see
The insertion direction of the conductor parallel to the base leg 6 will be designated below with the designation X. The attachment leg 12 extends at an angle α to the conductor insertion direction X and to the base leg 6 of the clamping frame 3. Preferably, the attachment leg 12 angle α lies between 20° and 70°, preferably between 30° and 60°. As a result, the attachment leg 12 is normally arranged obliquely at an acute angle in relation to the conductor insertion direction X.
The attachment of the attachment leg 12 on the clamping frame 3 preferably occurs in such a way that the attachment leg comprises lateral protrusions 15, 16 (see
The attachment leg 12 extends in the connector from the openings 17 laterally through the open side 9 disposed to face away from the base leg 6 out of the interior of the clamping frame 3, so that the bend 13 is disposed here outside of the clamping frame 3. The bend is arranged in such a way that the clamping leg 14 is disposed obliquely in relation to the conductor push-in direction X. Preferably, the angle β between the conductor insertion direction X and the clamping leg 14 is between 60° and 80°.
The clamping leg 14 is preferably so long that in the state in which no contact is made with conductor 23 a slight pretension is applied to the inside of the base leg 6 or an electrically conductive abutment element disposed on its inside. The location of the attachment of the attachment leg 12 in the clamping frame 3, which in this case is in the two longitudinal legs 7, 8, and the length of the attachment leg 12 up to the bend also have an influence on the configuration of the resilient system.
When a conductor 23 is axially inserted into the clamping frame 3 in the insertion direction X, it slides the clamping leg 14 downwardly and also to the side, with the clamping leg 14 in the connected state biasing the bare end 23a of the conductor 23 against an electrically conductively arranged abutment element which carries out a conductor rail function. In the illustrated embodiment, this abutment element comprises in a preferable (but not mandatory) configuration a contact leg 19 which is connected via a further bend 20 with the attachment leg 12 on its side facing away from the bend 13. According to
a shows the connector 2 in the contacted state.
Alternatively, the clamping frame 3 per se could also consist of a resilient and electrically conductive material, thereby forming the conductive abutment element itself. This configuration would especially save material (see
Instead of a contact leg 19, it would also be possible to use a conductor rail 32 arranged separately from the clamping spring 4 as a conductive abutment element (see
A soldering pin 24 is arranged on the clamping spring 4 by way of example according to
Alternatively, it could also comprise a soldering pad or a conductor rail or the like, e.g. in order to install it in a terminal block 26; see
In accordance with
It is also possible to not provide an actuation button 5 and to directly open the clamping point optionally with a tool such as a screwdriver. The insulating material housing 1 further comprises an opening 29 in accordance with
The module consisting of clamping spring 4 and the clamping frame 3 can be inserted in a large variety of housings.
The clamping spring 4 comprises an attachment leg 12 and a clamping leg 14, which are connected with one another via an integral bend portion 13. The bend portion 13 is also arranged in this embodiment in such a way that the clamping leg 14 is arranged obliquely to the conductor insertion direction X. The attachment leg 14 is further fixed to the base leg 6 via a second bend portion 20, with the attachment leg 12 also having an angle α with the base leg 6 and the conductor push-in direction X, so that it is aligned obliquely in relation to the conductor insertion direction X.
The clamping spring 4 is arranged between the longitudinal side walls or legs 7, 8 of the clamping frame 3, and the bend portion 13 between the attachment leg 14 and the clamping leg 12 is provided in such a way that the base leg 6 of the clamping frame 3 acts as an abutment element for a conductor 23 inserted into the connection apparatus 2. In contrast to the embodiment of
In the embodiment as illustrated here, a contact tulip 30 is further integrally formed on one of the longitudinal legs 7, 8 of the clamping frame 3. The contact tulip 30 comprises two oppositely disposed tulip legs 31 which are bent towards one another. In this embodiment, the clamping frame therefore also assumes the function of current conduction.
The embodiment of the connection apparatus 2 of
In contrast to the connector devices 2 illustrated up until now, the embodiment of the connection apparatus 2 in accordance with the invention as shown in
The conductor rail vertical leg portion 32 comprises protrusions 33 on opposite sides, which protrusions respectively engage into openings 34 of the longitudinal side walls 7, 8 of the clamping frame 3, so that it is mounted between the longitudinal legs 7, 8 of the clamping frame 3 and in the openings 34.
Furthermore, the clamping spring 4 of the embodiment of
Since the conductor rail vertical portion 32 is arranged in this case parallel with and spaced from the frame base wall 6, base wall 6 (serving as the attachment leg 12) is also parallel in contrast to the embodiments of the connector apparatus 2 as illustrated above and is not arranged obliquely in relation to the conductor push-in direction X. When inserting the conductor 23 in the conductor push-in direction X, it is arranged between the conductor rail 32 and the clamping leg 14 and pressed by means of the clamping leg 14 against the conductor rail 32, so that it makes secure contact with the conductor rail 32.
The conductor rail R includes a contact tongue portion 35 for the connection of an electric module (not shown) such as a further conductor, which contact tongue is bent outwardly at an angle γ (at a right angle in this case), so that it protrudes at least partly out of the clamping frame 3.
In
The optional actuation button 5 is respectively further provided in the
The conductor rail vertical portion 32 extends at least partly parallel to the base leg 6 of the clamping frame 3 and acts as an abutment element for clamping the conductor 23 between the clamping leg 14 of the clamping spring 4 and the conductor rail portion 32. The vertical rail portion 32 is preferably provided with lateral protrusion corresponding with the connecting protrusions 33 of
Analogous to the embodiment of
The clamping spring 4 of the embodiment of
Analogous to the embodiment of
The embodiments differ however in the shape of the clamping spring 4. However, the bend 20 of the embodiment of
For this purpose and in analogy to the embodiments of
Two attachment tabs 36 are provided in addition on at least one of the longitudinal legs 7, 8, so that the clamping frame 3 or the connection apparatus 2 can be anchored by means of the attachment tabs 36 on a component such as the insulating material housing 1 (see
a and 12b show the connection apparatus 2 of
a and 12b also show the optional actuation button 5, which button is arranged in a laterally offset manner in relation to the insertion opening 28. The insulating material housing 1 further comprises openings 29 for inserting the fastening knobs 36 in order to anchor the clamping frame 3 in the insulating material housing 1.
While in accordance with the provisions of the Patent Statutes the preferred forms and embodiments of the invention have been illustrated and described, it will be apparent to those skilled in the art that changes may be made without deviating from the invention described above.
Number | Date | Country | Kind |
---|---|---|---|
20 2009 009 831 U | Jul 2009 | DE | national |
20 2010 008 028 U | Jul 2010 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP2010/059982 | 7/12/2010 | WO | 00 | 1/7/2012 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2011/009749 | 1/27/2011 | WO | A |
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Number | Date | Country | |
---|---|---|---|
20120108099 A1 | May 2012 | US |