HU183951B - Incandescent lamp and method for fixing its side-electrode to the lamp-housing - Google Patents

Abstract

FIELD OF THE INVENTION The present invention relates to an incandescent lamp and a method for securing a side electrode to a lamp head. It is an object of the present invention that the side electrode is perforated, instead of conventional soldering, in a gap between two slits cut into the lamp head at its edge. During the process, two slits are cut on the lamp head, its edge, the non-threaded section, and the gap between the two slots is folded out of its original position, and the side electrode is inserted into one slot when the luminaire and the lamp head are assembled, and the punch is pierced, afterwards, the remaining end of the side electrode is concealed inside the lamp head, after which the member is bent back to its original position and the side electrode loop is pressed into the mold. The mass production of incandescent lamps with fixed electrodes fixed in accordance with the invention can save a significant amount of solder. An additional advantage of the invention is the possibility of using an aluminum head, moreover, it is also more perfect for property and safety of life, since no wire hanging can occur and the end of the side electrode does not need to be made of a highly solderable material. -1-

Description

BACKGROUND OF THE INVENTION The present invention relates to an incandescent lamp, the essential parts of which are an assembly of a burner body, a lamp shade and a lamphead, and a central electrode of the assembled burner support is soldered in the center and a lateral electrode record.

Soldering is most commonly used to secure the side electrode of incandescent lamps to the lamp head. For soldering, a soldering iron, preferably a soldering iron, is used. Although relatively inexpensive to solder, the total cost of this is considerable due to the high volumes used in filament lamp delivery. There are other disadvantages to soldering. For example, a hard-to-solder aluminum head may not be used, and the tip of the side electrode ("wire lamp") may protrude from the solder, which is a disincentive for property and life safety reasons. A further problem is that soldering has to provide a certain amount of copper at the end of the side electrode and therefore, after the bonding fiber, which is difficult to solder, has to be provided with a copper-containing extension on the side electrode.

It is an object of the present invention to overcome the above disadvantages by eliminating the problematic side electrode soldering from the process and otherwise soldering.

The invention is based on the discovery that when the side electrode and the lamp head are mechanically secured and pressed together, when the finished incandescent lamp is connected to the circuit, the initial relatively high current produces microscopic, elemental bulge welding, which results in solid contact.

Thus, the present invention is an incandescent lamp, the essential parts of which are a mounted lamp housing, lamp shade and lamp head, and a central electrode of the lamp housing mounted electrode is soldered in the center, while a side electrode is secured to the edge of the lamp head and a method of securing the side electrode to the lamp head by cutting two slits on the lamp head, its periphery, and the unshaped portion, and then fitting the lamp body and lamp head to one of the side electrodes. is inserted into the gap and looped through the piece, after looping, the remaining end of the side electrode is concealed inside the lamp head, then the piece is folded back to its original position and the side electrode loop is oz pressed.

It is advisable to keep the distance between the two slits as small as possible, but in practice, due to the material properties of the lamp head, construction difficulties would occur at a distance of less than 2.5 mm.

The two slits are cut as far as possible to the threaded end of the lamp head, but for practice, a length of 2.0 to 3.5 mm is preferred.

The section enclosed by the two slits is trapezoidal to ensure that the loop does not slip off the section, since the trapezoid is narrowed from the edge and formed at the shorter parallel side.

The bending of the fixture from the lamp head is preferably carried out at an angle of 50 ° to 95 °. At an angle of less than 50 °, the lateral electrode cannot be inserted into the gap to the base of the die, and an angle greater than 95 ° is unnecessary and would be detrimental to the use of the lamp head material.

Preferably, the side electrode is looped twice through the fitting to secure the attachment.

The side electrode and lamp head are preferably cold pressed. Cold flow develops at the gaps.

The invention will now be further illustrated by means of the drawings in connection with an exemplary embodiment. The sequence of figures shows the mounting of the side electrode of a standard lamp on the lamp head in the order of each operation.

Figure 1: Lamp head at start of sequence

Figure 2: Cutting gaps in lamp head

Figure 2 / a is an enlarged detail of Figure 2,

Figure 3: bending of the shape (enlarged),

Figure 4: Inserting a side electrode into the slit

Figure 5: Looping the piece (enlarged),

Figure 6: Hiding the end of a side electrode inside the lamp head (enlarged)

Fig. 7: Folding of the shape (enlarged).

Figure 1 shows the lamp head 1 of a standard lamp when starting the procedure. First, the 2nd and the 2nd. 2 / a, the slots 4 and 5 of Fig. 2a are cut by means of a suitable cutting tool starting from the flange 3 of the lamp head 1 in the part that is not yet threaded. The 6 sections are trapezoidal enclosed by slots 4 and 5 with a shorter parallel side of 2.5 mm and a height of 2.5 mm. After cutting, the piece 6 is bent at an angle of 60 ° as shown in Figure 3. Figure 4 shows the insertion of the side electrode 7 into the slot 5. This latter operation is followed by the attachment of the luminaire 2 to the lantern head, a sub-operation of conventional technology. Then, as shown in Figure 5, the piece 6 is looped twice with the side electrode 7. After the looping, the remaining end of the side electrode 7 is slid into the interior of the lamp head 1 as shown in Figure 6, and the looped piece 6 is folded back to its original position as shown in Figure 7 and pressed into the side 6 electrode loop.

Significant amounts of solder can be saved in the mass production of fixed-side incandescent lamps according to the invention. A further advantage of the invention is that it offers the possibility of using an aluminum head and is also more complete in terms of property and safety of life, since there is no wire protrusion and the end of the side electrode need not be made of highly solderable material.

Claims (8)

1. An incandescent lamp, the essential parts of which consist of a mounted lamp housing, lamp shade and lamp head, the middle electrode of which is mounted at the center of the lamp head by soldering, while the side electrode is fixed near the edge of the lamp head, it is looped into the lamp head (1) between the two slits (4, 5) cut at its edge (3). An incandescent lamp according to claim 1, characterized in that the minimum distance between the two slots (4,5) is 2.5 mm. 3. The filament lamp according to claim 1 or 2, characterized in that the two slits (4,5) each have a length of between 2.0 and 3.5 mm. -2183 951 4. The incandescent lamp according to any one of claims 1 to 4, characterized in that the cut-out (6) between the two slits (4, 5) is trapezoidal, tapering from the flange (3) and looped along the shorter parallel side of the trapezoid with the side electrode. 5. The embodiment of the filament lamp according to any one of claims 1 to 3, characterized in that the side electrode (7) is double-looped over the profile (6). 6. A method for attaching the side electrode of incandescent lamps to a lamp head, characterized in that two slits (4, 5) are cut on the lamp head (1) at its flange (3) and on the untapped portion of the lamp head (1) and two slits (4, 5). bend the profile (6) from its original position and, when assembling the lamp body (2) and the lamp head (1), insert the side electrode (7) into one of the slots (4, 5), then loop the profile (6), The remaining end (7) is concealed inside the lamp head (1), then the folding (6) is folded back to its original position and the loop of the side electrode (7) is pressed against the fitting (6). 7. The method according to claim 6, characterized in that the mold (6) is bent at an angle of 50 ° to 95 ° from its original position. 8. A method according to claim 6 or 7, characterized in that the loop of the side electrode (7) is cold pressed to the piece (6).