1. Field of the Invention
The present invention relates to a terminal block for connecting electric wires, comprising an insulating body and a U-shaped conducting part.
2. Description of the Prior Art
It is known in the technical sector relating to the manufacture of switchboards for wires of electrical installations to use terminal blocks which are designed to be mounted on associated supports and to provide frontal access to the means—normally of the screw type—for retaining the electric connecting wires which form the electric circuit.
It is also known that, in order to be able to limit the overall dimensions of the terminal block, it is necessary to produce the internal conducting part, which connects the input to the output of the terminal block, from a material with a high electric conductivity, such as, for example, copper or the like, since the small dimensions of the assembly would not be able to support the required electric load; on the other hand, owing to the high cost of said conductive materials, the dimensions of the terminal block and therefore its rated electric load must be limited in order to avoid excessively high production and distribution costs.
The technical problem which is posed, therefore, is to provide a terminal block, in particular of the type for wired circuit switchboards, which has small overall dimensions, but at the same time is able to withstand a high electric load.
In connection with this problem it is also desired that this terminal block should be easy and inexpensive to produce and assemble and be able to be used equally well with the various types of means for fixing the electric wire to be connected and should be able to be operated easily by any user using normal standardized tools.
These results are achieved according to the present invention by a terminal block for connecting electric wires comprising an insulating body and a conducting part housed inside it and associated with means for retaining the free end of the electric wire, said conducting part having a U shape.
Further details may be obtained from the following description of a non-limiting example of embodiment of the subject of the present invention provided with reference to the accompanying drawings, in which:
As shown in
In greater detail said insulating body 10 has a closed annular structure 11 defining a seat 12 open in the transverse direction Y-Y; said structure 11 is formed in the manner of two partial octagons arranged facing each other relative to the vertical axis Z-Z and identifying at least one respective front end side 11a and at least one respective flank 11b in which corresponding apertures 13 and 14 are formed in the vertical direction and horizontal direction, respectively, said apertures allowing said seat 12 to communicate with the exterior.
The seat 12 communicates with the exterior also by means holes 15 with a vertical axis Z-Z formed in a substantially longitudinal end wall 11c of the structure 11.
The conducting part 20, which during use connects the input to the output of the terminal block, is formed by means of a U-shaped body 21, the base 21a of which extends in the longitudinal direction outwards at both the opposite ends so as to form two flanges 22 with their tip 22a inclined upwards; said flanges are designed to engage with a corresponding seat 16 provided in the side 11b of the structure 11 so that the conducting part 20 is stably fixed to the insulating body 10.
The base 21a also has, extending from it, the parallel sides 21b of the U, said sides extending in the vertical direction Z-Z along a suitable section determined according to the electric load envisaged for the terminal block.
The base 21a of the U is also provided with at least two holes 25 which, during use, are arranged coaxially with the holes 15 of the structure as will become clear below.
The conducting part 20 is completed by the claim or retaining means 30 for retaining the end 1a of the electric wire 1, which are constrained to the said longitudinal flanges 22; in the example according to
As shown in
Since the remaining parts of the assembly correspond to those of the configuration shown in
In addition to this, said vertical side 231 has an opening 231b able to allow entry of the end 1a of the wire 1 in the longitudinal direction (X-X); the longitudinal horizontal side 232 in turn has means 234,234a for engagement with the operating devices 233.
In the example shown, said engaging means comprise a hole 234 with a vertical axis (Z-Z) having a female thread 234a and the operating means comprise a screw 233 with a shank 233a having a thread corresponding to the female thread 234a of the clamping part.
The said longitudinal horizontal side 232 has a free end 235 which is folded downwards in a substantially vertical direction (Z-Z); said folded free end 235 is able to interfere with the operating screw 233 so as to ensure locking thereof once tightened.
In greater detail, the terminal block has a first terminal 10,110,210 joined to at least a first base 500,1500,2500 having a longitudinal dimension X-X greater than that of the end terminal and/or the upper base which is immediately adjacent.
As shown, said base 500,1500,2500 may be designed with a symmetrical form 2500 relative to the axis Z-Z or asymmetrical form relative to the latter. In the case of an asymmetrical form, it may be right-hand 500 or left-hand 1500 depending on the orientational layouts shown in the figures, so that all the terminals 40 with the same polarity are aligned in a single row parallel to the transverse axis Y-Y and all the terminals with opposite polarity are aligned in another row parallel to the said transverse direction Y-Y and arranged in a different plane.
Engagement with the rail is performed by means of resilient deformation of the said means 2123, while release is performed by means of resilient deformation of the seat 2121a of the insulating body.
Preferably said engaging means 2120 for performing grounding are formed as one piece with the conductor 2020 and on both its sides 21b so as to improve the stability of the terminal block when engaged with the rail 2.
As shown, but not described in detail, in this case also the wire gripping parts may be of the type comprising spring 30, screw clamp 130, screw clamp in the form of an “overturned L” 230, as described above, or combinations thereof, as shown in
It is therefore clear how, with the terminal block according to the invention, it is possible, owing to the particular U-shaped form of the conducting part, to design the latter with a large conducting cross-section which allows the use of materials which do not have a high conductivity and therefore are much more economical, without affecting the size of the terminal block which may be kept sufficiently small in relation to the electric loads envisaged.
On the other hand, should a much greater electric load be required, it will be possible to adapt the terminal block, using materials with a high conductivity, which do not require a corresponding increase in the cross-sections and therefore the overall dimensions of the terminal block, this basically allowing greater standardization of the insulating body in relation to different conducting parts required, with consequent lower costs in terms of production and warehouse management where a smaller number of codes is required.
In addition to this, with the terminal block according to the invention, it is possible to keep unchanged operation of the cable insertion and gripping parts which are always the same in all the versions, independently of the type of wire retaining part (spring or screw).
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MI2006A1496 | Jul 2006 | IT | national |
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