RU2363078C2 - Case made of insulating material for electric terminals - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention relates to case made of insulating material for electric terminals; whereby insert cover is introduced into configuration of guiding conductor element in main case open from end surface. Substance is achieved by formation at guiding conductor element in the area of guide channels of open frame structure with open wall-free frame areas, to which insulating jacket of electric conductor can be inserted; in result reduction of mounting height can be achieved and reduction of mounting width for ready terminal, if required.

EFFECT: exploiting advantages of case made of insulating material in order to reduce structural dimensions of electric terminals.

2 cl, 5 dwg

Description

DESCRIPTION

The invention relates to a case made of insulating material for electrical clamps with a main body open on the front side for receiving the terminal block of the electric clamp and on the cover inserted from the front side, which is designed as a guide element for the conductor and is pushed from the end side into the opening of the main body. The guide element for the conductor has at least one hole for introducing the conductor and a guide conductor channel connecting thereto for inserting and conducting an electric conductor, which is inserted before the end region of its insulating sheath enters the guide channel of the conductor.

Enclosures of this type of insulating material are known. They have the advantage that the insert cover serving as the guide element of the conductor has several functions. Due to the cover, the placement of the plug-in terminal block of the clamp contacts in the housing of insulating material is fully protected from the effects. At the same time, the lid body made of insulating material, relatively far inserted into the main body, fixes the correct positioning position of the plug-in terminal block of the clamp contacts in the main body, and, in addition, the guide element of the conductor is a guide for the conductor, as described above.

The objective of the invention is to provide the opportunity to take advantage of the housing of insulating material of the aforementioned type also when the requirement to reduce the structural dimensions of electrical clamps must be met.

This problem is solved according to the invention by the fact that the guide element of the conductor in the region of the guide channel of the conductor has an open frame structure with open, wall-free frame zones that extend in the direction of the guide channel of the conductor and which are oriented transversely to the direction of the mounting height and / or mounting width of the clamp. These frame zones should be calculated according to their size so that the insulating sheath of the electrical conductor pushed into the conductor guide channel replaces the missing walls of insulating material in the open frame zones of the conductor guide element, i.e. the volume of the room that used to belong (according to the prior art) to the walls of the insulating material of the guide element of the conductor, (according to the idea of the invention) is now at the disposal of the insulating sheath of the electrical conductor, inserted in the guide channel.

This frame structure of the guide element of the conductor according to the invention prevents the walls of the insulating material of the main body and the sheath of the insulating material of the conductor in the guide element being duplicated in the direction of the mounting height and / or in the direction of the mounting width of the clamp when mounted to the ready-mounted clamp. From the point of view of isolation, such duplication is not necessary, since in the region of the guide channel of the conductor sufficient electrical insulation is provided by the insulating sheath of the inserted electrical conductor.

The axial length of the guide channel for the conductor, as a rule, is designed so that it corresponds to the structurally specified depth of introduction of the electrical conductor inserted into the clamp. To control whether the electric conductor has been deep enough inserted into the clamp, it is proposed to make the main body of the clamp from transparent plastic, and use opaque plastic for the guide element of the conductor in the insert cover (or for the insert cover as a whole). This makes possible good visibility of open, wall-free frame zones of the frame structure of the guide element of the conductor, so that the correct insertion depth of the insulating sheath of the electrical conductor (and thus the electrical conductor as a whole) can be controlled. Visible with the proposed combination of materials, it is free from mirror images or other optical interference, which can occur when the state of the art often tries to produce both the main body and the plug-in cover made of transparent plastic.

In the following, an embodiment of the invention is described in more detail by way of drawings. They are showing:

FIG. 1 - 2 is a perspective view of a body of insulating material according to the invention,

FIG. 3 to 4 are longitudinal sections of the aforementioned body of insulating material (in a simplified view),

FIG. 5 is a longitudinal section of the aforementioned body of insulating material with an insert contact block and an inserted electrical conductor.

FIG. 2 shows an example of the manufacture of the main body 10 from insulating material with an opening 11 on the end side through which an insert contact block can be inserted into the main body, as can be seen, for example, in FIG. 5.

In FIG. 1 shows a corresponding insert cover 12 in the form of a invention according to the invention with guide elements of a conductor. The insert cover is inserted from the side of the end hole 11 into the main body, so that its body of insulating material simultaneously fixes the position of the insert contact block in the main body.

The guide element of the conductor contains three funnel-shaped holes 13 for introducing the conductor, which respectively connects the guide channel 14 of the conductor.

FIG. 5 shows that the electrical conductor 15, including the end region of its insulating sheath 16, can be inserted into the guide channel 14 of the conductor so that the insulating sheath 16 hits the stop 17 of the insulating material of the guide channel 14 of the conductor, and the insulated end 18 of the electric conductor is fixed in place clamping electrically and mechanically. A clamping point is formed between the electrical bus 19 and the end of the tongue 20 of the leaf spring. An electric bus 19, which connects to each other all three clamp points of the three-position clamp shown, and the corresponding tabs 20 of leaf springs of the individual clamp points form the so-called plug-in terminal block of the clamp.

According to the idea of the invention, the guide element of the conductor in the region of its guide channels 14 of the conductor has an open frame structure with open frame-free zones 21 free from the walls. They extend in the direction of the guide channel of the conductor and in the embodiment shown (Fig. 1) are oriented transversely to the mounting height direction clamping. The frame zones 21 are sized according to their size so that the insulating sheath 16 of the electrical conductors pushed into the guide channel 14 of the conductor is pushed into the corresponding frame zones 21 and replaces the space volumes of the walls of the insulating material of the guide element of the conductor that are not there in the frame zones.

This gives the advantage that the guide element of the conductor, which is shown in FIG. 3 in cross section, in the retracted state, into the main body 10 (Fig. 4) does not duplicate the outer wall 22 of the insulating material of the main body. Instead, the open, wall-free frame zones 21 of the guide element of the conductor abut, without a gap, the outer wall 22 of the insulating material of the main body.

Due to this, it is achieved for the finished clamp (looking in the direction of the mounting height of the clamp) to reduce the mounting height by the thickness of two walls of insulating material, which are available according to the prior art, usually above and below the guide channel 14 of the conductor in the guide element of the conductor.

In the same way, it is also possible to reduce the mounting width of the clamp, which is not implemented, however, in the presented exemplary embodiment of the invention.

Claims (2)

1. The housing is made of insulating material for electrical clamps, comprising: a main body open from the front side for receiving the plug-in terminal block of the electrical clamp, an insert cover for the end side, which is designed as a guide element of the conductor and is pushed from the end side into the hole of the main body, the guide element of the conductor has at least one hole for introducing the conductor and a guide channel of the conductor connecting to it for inserting and conducting the electric of the conductor until the end region of its insulating sheath enters the guide channel of the conductor, characterized in that the guide element of the conductor has an open frame structure with open, wall-free frame zones (21) in the region of the guide channel (14) of the conductor, while the frame zones extend into the direction of the guide channel of the conductor and are oriented transversely to the direction of the mounting height and / or mounting width of the clamp, and the frame zones are calculated according to their size so that the insulating shell (16) is inserted into ulation channel (14) of the electrical conductor (15) substitutes the missing walls of insulating material in open frame areas (21) of the conductor guide member. 2. The housing of insulating material according to claim 1, characterized in that the main body (10) consists of a transparent insulating material, while the guide element of the conductor is made of opaque insulating material.

Images