DE10003262A1 - Light emitting diode lamp for light chains, has conducting connecting piece between lamp leads with higher resistance than that of lamp in forward direction under operating conditions - Google Patents

Abstract

The lamp has a LED lamp (1) inserted into a holder and a conducting connecting piece (4) between the two wire leads to the lamp with a higher resistance than that of the lamp in the forward direction under operating conditions. The connecting piece is made of electrically conducting rubber or electrically conducting plastic.

Description

The invention relates to an LED lamp for a Fairy lights, especially an LED lamp that is a conductive Connector between the two wire feeders of the LED Lamp.

LED lamps are used because of the low operating temperature, because of the high light output and because of the low Power consumption widely used. Generally points one LED lamp two different electrode wire feeders on. Therefore, the polarity of the wire feeders should be correct be set so that the LED lamp works normally. At a string of lights with several LED lamps in series are switched on, there are no LED lamps in the chain of lights Emit light when the polarity of any LED lamp is wrong in the fairy lights. The electric current will blocked by the LED lamp connected in wrong polarity and therefore no current flows through the entire chain of lights.

It is also used in the manufacture of LED fairy lights String lights will not work if any of the LED lamps are in wrong polarity was installed. In this case, the Operator to examine each LED lamp in the string of lights find out which one is connected incorrectly or which one except Operation is. This requires a significant human Labor expenditure, which significantly increases the production costs increase.

The invention is based on the problem of creating special LED lamps for fairy lights which avoid the disadvantage described above. The problem is solved by an LED lamp with a conductive connecting piece which has an electrical resistance which is greater than the corresponding electrical resistance of the LED lamp in the forward direction and smaller than the corresponding electrical resistance of the LED lamp in the reverse direction. In general, the forward voltage of an LED lamp with an operating current of 20 mA is approximately 1.5 to 6 volts. If the forward voltage of the LED lamp is 2 volts at a current of 20 mA, the corresponding electrical resistance is 100 ohms (ie R = 2 / 0.02). The conductive connector is connected between the two wire feeds of the LED lamp. The string of lights made from these special LED lamps can be used in either AC or DC systems. Due to the appropriately dimensioned forward resistance of the conductive connector connected between the two wire feeds of the LED lamp, the remaining LED lamps in the chain of lights can still emit light if one of the LED lamps in the chain of lights is in the wrong polarity or out of order is because the electric current can flow through the conductive connector of the LED lamp, which was installed in wrong polarity.

The invention thus an LED lamp with a conductive connector with corresponding Forward resistance created. If one of the LED lamps is not properly connected or out of order, the remaining LED lamps still emit light. Therefore at Manufacture of fairy lights led lamp in wrong Polarity connected or out of order, quickly be found out because of the luminous efficacy of this LED lamp is different from the others.

Embodiments of the invention are described in the following explained in more detail with reference to the accompanying drawing.

The drawing shows:

Fig. 1 shows a circuit with a correct polarity switched conventional LED lamp, wherein the current can flow through the LED lamp, which then emits light. In general, the positive wire feed of the LED lamp is longer than the negative wire feed;

Fig. 2 is a circuit with a switched in wrong polarity conventional LED lamp, the current does not flow through the LED lamp and the LED lamp can emit light;

Fig. 3 is a chain of lights with several, connected in series, conventional LED lamps, wherein one of the conventional LED lamps is connected in wrong polarity. None of the conventional LED lamps can function properly in this chain of lights according to the state of the art;

4A is an exploded view of the invention.

4B is a perspective view of the invention.

Fig. 5 is a chain of lights according to the invention, in which an LED lamp is connected in wrong polarity. All LED lamps can emit light normally except for the one that is connected in the wrong polarity;

Fig. 6, the first preferred embodiment of the invention;

Fig. 7, the second preferred embodiment of the invention;

FIG. 8A is an exploded view of the conductive connecting piece, which was produced as a lamp socket;

FIG. 8B is a perspective view of the conductive connecting piece, which was produced as a lamp socket;

As shown in Fig. 1, the LED lamp 1 is connected in the correct polarity (ie, the positive wire lead of the LED is connected to the positive electrode of the power source), and therefore the LED lamp 1 can emit light. On the other hand, as shown in FIG. 2, the LED lamp 2 is connected in the wrong polarity (ie the positive wire feed of the LED is connected to the negative electrode of the current source). The LED lamp 2 cannot emit light because too little current can flow through the LED. If several LED lamps connected in series are arranged to form a light chain 3 and one of the LED lamps 31 is connected in the wrong polarity (as shown in FIG. 3), no LED lamp can emit light because almost no current through the LED -Lamp 31 and thus almost no current can flow through the chain of lights 3 .

Fig. 4A and Fig. 4B are a perspective (see. Fig. 4B) and an exploded (see. Fig. 4A) Preparation of the invention which comprises a conductive connector 4 between the two wire feeders of the invention, wherein Fig. 4A is a conventional LED lamp 1 and a conductive connector before assembly and Fig. 4B shows the component after assembly. The electrical forward resistance of the conductive connector 4 should be 3 to 20 times the corresponding electrical forward resistance of the LED lamp 1 in the forward direction at an operating current of 20 mA. For example, if the forward voltage of LED lamp 1 is 2 volts at an operating current of 20 mA, then the corresponding electrical forward resistance of LED lamp 1 is calculated to be 100 ohms. The electrical resistance of the conductive connector is then chosen between approximately 300 to 2000 ohms.

Fig. 5 shows how a number of inventive LED lamps are combined to form a chain of lights 5, which is connected to a DC power source 52 (DC power source) in series. Among the LED lamps, the LED lamp 51 is connected to the light string 5 in the wrong polarity. Although the LED lamp 51 is connected in the wrong polarity, electric current can flow through the conductive connector of the LED lamp 51 . Therefore, all the LED lamps except the LED lamp 51 can emit light normally. The chain of lights with the LED lamps according to the invention can also be used with an AC power source (AC power source) as long as the voltage of the power source is set so that they match the total voltage drop of the LED lamps under working conditions.

The Fig. 6, Fig. 7 and Fig. 8 show three different embodiments of the invention. The conductive connector 4 may be in the form of a ring or in a flat shape. If the conductive connector 4 has a flat shape, two holes 41 are created for the passage of the two wire feeds of the LED 1 . If the conductive connector 4 is made of elastic material, it can be annular. Therefore, the ring-shaped, conductive connector can be attached to both wire feeds of the LED lamp. In Figs. 6 and Fig. 7 shows a conventional lamp socket 6 is used to hold the LED lamp and the conductive connector. The Fig. 8A and Fig. 8B showing the conductive connection piece prepared in the form of a lamp socket 6, wherein Figure 8A is a conventional LED lamp 1 and an electrically conductive lamp socket 6 prior to assembly and Fig. 8B show. The component after assembly. Considering the cost and convenience of assembly, conductive plastic or rubber are suitable materials for the conductive connector 4 of the invention.

Claims (7)

1. LED lamp for a chain of lights, which comprises:

• a) an LED lamp inserted in a socket, and
• b) a conductive connecting piece connected between the two wire feeds of the LED lamp, the conductive connecting piece having a larger electrical forward resistance than the corresponding electrical resistance of the LED lamp in the forward direction under operating conditions.

2. LED lamp according to claim 1, wherein the conductive Connector made of electrically conductive rubber or electrical conductive plastic. 3. String of lights with LED lamps according to claim 1 or 2. 4. LED lamp according to claim 2, wherein the electrical On-state resistance of the conductive rubber or the conductive Plastic three to twenty times the corresponding electrical forward resistance of the LED lamp in Direction of passage under operating conditions. 5. LED lamp according to claim 1 or 2, wherein the conductive Connector is designed in a flat shape and the two wire feeds of the LED lamp directly through the conductive Connector can be performed. 6. LED lamp according to claim 1 or 2, wherein the conductive Connection piece is designed in a ring and therefore directly positioned on the two wire feeds of the LED lamp and be connected to the two wire feeds of the LED lamp can. 7. LED lamp according to claim 1 or 2, wherein the conductive Connector is made in the form of a lamp holder.