RU99106U1 - LED LAMP - Google Patents

Abstract

The utility model relates to lighting devices and can be used in the design of LED lighting devices used in various fields of science and technology. The technical result of the claimed utility model is to eliminate the noted drawback, both in analogues and in the prototype. Namely, providing conditions under which, on the one hand, the thermal energy emitted by the LEDs will be largely diverted to the surrounding space, and on the other hand, it will not lead to their progressive mutual heating, especially those LEDs that are located at the shortest distance from each other . To achieve the above technical result, a new design of an LED lamp is proposed, which includes input terminals or a socle for connecting to an industrial network, one or more single bases bonded to each other in the form of a plate with conductive pads, one or more secondary power sources connected by their inputs to the input terminals or lamp base and single LEDs, the conclusions of which are fixed on conductive pads and interconnected on each unit Considerations in the circuit connected to the output of the corresponding secondary power source. The inventive LED lamp may contain both a single unit base and several such bases, while the resulting power of the LED lamp will increase or decrease in proportion to the number of installed or removed unit bases, which allows you to get a discrete series of LED lamps of different capacities only by changing the number of unit bases . The discreteness of such a series of LED lamps will be determined by the parameters and the number of LEDs installed on one single base. This circumstance significantly increases the operational characteristics of the LED lamp, and also reduces the range of developed components and parts for each case of its application. For mounting the LED lamp at the installation site, it contains a bracket, one end of which is fastened to a single base, and the other has a hole. If necessary, in order to increase electrical safety, a translucent cover made of insulating material can be worn on each of the individual bases. A translucent cover can be made in the form of a stocking covering on all sides or in the form of two cups sealed around the perimeter. In order to further increase the insulation resistance, an additional layer of electrical insulation coating can be applied to each unit base with the corresponding components placed on it. To expand operational characteristics, input terminals or a base, as well as a secondary power source, connected respectively to a circuit of single LEDs, can be additionally placed on each of the individual bases. An embodiment of an LED lamp is possible, in which the input terminals or base, as well as the secondary power supply will be placed on a separate board, and a single base with conductive pads will contain single LEDs connected to the circuit and the corresponding terminals for connecting to the output of the secondary power source on the aforementioned separate board. Figure 1 shows a view of a single base from the side of the conductive pads and, mounted on them with their findings, single LEDs. Figure 2 shows a single base - side view. In figure 3. depicts a single base - a side view on which a translucent cover is dressed in the form of a stocking. Figure 4 shows a single base - a side view on which a translucent cover is dressed in the form of two cups that can be locked around the perimeter. Figure 5 shows a single base - side view, without a secondary power source. Figure 6 shows a separate board on which the input terminals and the secondary power source are located.

Description

The utility model relates to lighting devices and can be used in the design of LED lighting devices used in various fields of science and technology.

A known design of an LED lamp (US Patent No. 4,727,289; NKI: 315-71; 02/23/1988), containing a glass bottle, inside which there is a printed circuit board, a chain of single-connected LEDs used in series as light sources, and a ballast resistor. The number of series-connected LEDs in the circuit depends on the desired illumination of the object. The LED lamp is connected to an external constant voltage source through a detachable connection in the form of a base. A disadvantage of the known LED lamp is that its brightness and reliability for objective reasons substantially depends on possible fluctuations in the current flowing through the LEDs. Exceeding this current above the permissible one on the one hand increases the brightness of the LEDs, and on the other hand, violates their temperature balance and, ultimately, significantly reduces the reliability and durability of their operation due to their possible overheating. Therefore, as a rule, chemical current sources or specialized secondary power sources are used as the power source of an LED lamp, while the parameters of both the LED lamp and its power supply strictly agree with each other. Without such a power source, the possibility of using the well-known LED lamp is practically extremely limited and creates big additional problems if it is used instead of incandescent lamps for various lighting devices, especially those connected directly to the industrial network.

Also known is a LED lamp (see patent JP 11163420 A, 06/18/1999) containing a base including metal and dielectric parts, an electrode, a mounting plate, an opening in the mounting plate, an LED with leads, a ballast resistor, electrical leads of a ballast resistor , semiconductor diode, semiconductor diode terminals and lens. Under the lens located above the cap, there is a circuit board with an LED built into its hole, which has electrical leads. One of the terminals of the LED is connected to the terminal of the ballast resistor, and the other terminal of the latter passes through the central hole of the dielectric part of the base and forms the end electrode of the LED lamp. A semiconductor diode is connected by one output to the output of the LED, and the other with the metal part of the base, forming another electrode of the LED lamp. The other terminal of the LED is connected to the terminal of the rectifier semiconductor diode, and the other terminal of the latter is connected to the metal part of the base, forming another electrode of the LED lamp. A well-known LED lamp also requires a separate power source in the form of a chemical current source or a specialized secondary power source, the parameters of which should provide the necessary brightness of the lamp on the one hand and, on the other hand, eliminate the possibility of temperature overheating of the LED semiconductor crystal, which significantly affects reliability and durability her work. Without a specialized power source, the use of the well-known LED lamp is practically extremely limited.

In addition, an LED light source is known (see utility model RU 52523 from 2006.03.27; H01L 33/00). Known LED light source contains a base with contact conductive pads, single LEDs with leads connected to the contact pads of the base and conclusions pressed into the base and connected to its contact pads. The terminals pressed into the base are necessary for connecting to the power supply connector. However, the well-known LED light source as well as the aforementioned analogs requires an external power source, which can be used as a chemical current source or a specialized secondary one, which would ensure that direct current flows through the LEDs no higher than the maximum permissible for them. These requirements for power supplies significantly limit the scope of LED lamps, and make them disadvantageous compared to incandescent lamps, both in terms of operating conditions and economic indicators. These shortcomings are especially noticeable if it is necessary to connect the LED lamp to an industrial network using a specialized secondary power source.

The closest technical solution to the claimed LED lamp is a single LED lamp (see certificate for utility model RU 74520 dated 06/27/2008, H01L 33/00). A known lamp contains a base with conductive pads, input terminals or a base and single LEDs, the conclusions of which are fixed on the conductive pads of the base and are interconnected in series in a circuit connected to the input terminals or base of the base through a two-half-wave rectifier and a quenching capacitor of a certain capacity connected in series.

Unlike analogs, the well-known single LED lamp has a relatively economical and reliable secondary power source, which makes it possible to connect to an industrial network, however, it does not adequately solve the problem of the temperature mode of operation of individual LEDs, which significantly reduces the reliability and the maximum life of it.

The technical result of the claimed utility model is to eliminate the noted drawback, both in analogues and in the prototype. Namely, providing conditions under which, on the one hand, the thermal energy emitted by the LEDs will be largely diverted to the surrounding space, and on the other hand, it will not lead to their progressive mutual heating, especially those LEDs that are located at the shortest distance from each other .

To achieve the above technical result, a new design of an LED lamp is proposed, which includes: input terminals or a socle for connecting to an industrial network, one or more unitary bases bonded to each other in the form of a plate with conductive pads, one or more secondary power sources connected with their own inputs to the input terminals or lamp base and single LEDs, the conclusions of which are fixed on conductive pads and interconnected on each unit In the circuit connected to the output of the corresponding secondary power source.

The inventive LED lamp can contain both one single base and several such bases, while the resulting power of the LED lamp will increase or decrease in proportion to the number of installed single bases, which allows you to get a discrete series of LED lamps of different capacities only by changing the number of single bases.

The discreteness of such a series of LED lamps will be determined by the parameters and the number of LEDs installed on one single base. This circumstance significantly improves performance.

LED lamp, and also reduces the range of developed units and parts for each case of its application.

For mounting the LED lamp at the installation site, it contains a bracket, one end of which is fastened to a single base, and the other has a hole.

If necessary, in order to increase electrical safety, a translucent cover made of insulating material can be worn on each of the individual bases. A translucent cover can be made in the form of a stocking covering on all sides or in the form of two cups sealed around the perimeter.

In order to further increase the insulation resistance, and each unit base with the corresponding components placed on it, an additional layer of electrical insulation coating can be applied.

In order to expand operational characteristics, input terminals or a base, as well as a secondary power source, respectively connected to a circuit from series-connected LEDs, can be additionally placed on each of the individual bases.

An embodiment of an LED lamp is possible, in which the input terminals or base, as well as the secondary power source will be placed on a separate board, and a single base with conductive pads will contain single LEDs connected to the serial circuit and the corresponding terminals for connecting to the output of the secondary power source to the above separate board.

Figure 1 shows a view of a single base from the side of the conductive pads and, mounted on them with their findings, single LEDs.

Figure 2 shows a single base - side view. In figure 3. depicts a single base - a side view on which a translucent cover is dressed in the form of a stocking.

Figure 4 shows a single base - a side view on which a translucent cover is dressed in the form of two cups that can be locked around the perimeter.

Figure 5 shows a single base - side view, without a secondary power source.

Figure 6 shows a separate board on which the input terminals and the secondary power source are located.

An LED lamp may contain one or more unit bases 1 in the form of a plate with conductive pads 2 ... 24. A secondary power source, located on part 46 of the unit base 1. Single LEDs 25 ... 41, the terminals of which are mounted on conductive pads 2 ... 24 and connected on each unit base 1 in series to a circuit connected to the output of the aforementioned secondary power source. Structurally, a single base 1 with conductive pads 2 ... 24 is made so that each of the individual LEDs 25 ... 41 is removed from the nearest other single LEDs 25 ... 41 at an optimal distance,

These conditions make it possible, on the one hand, to ensure efficient heat removal from the LEDs to the environment, and, on the other hand, to exclude the possibility of progressive mutual heating of the LEDs and, as a result, decrease in reliability and their service life.

In addition, on a single base 1, the input terminals 45 of the LED lamp are also located, connected by their input to the industrial network, and the output to the input of the secondary power source. For mounting at the place of installation of the LED lamp, it contains a bracket 42, one end of which is fixed with a mounting unit 43 to the unit base 1, and its second end has a hole 44. For example, to replace a conventional incandescent lamp in the lamp with the proposed LED lamp, it is enough to loosen the terminals supply power to a standard lamp holder with an incandescent lamp in the luminaire, unscrew the fixing screw holding the lamp holder at the place of their installation and remove them, then in their place using the aforementioned mounting screw through the hole 44 in the bracket 42 to fix the unit base 1 and connect the power wires from the industrial network to the input terminals 45.

If necessary, the input terminals 45 with a secondary power source can be placed on a separate board 49 (see Fig.6). In this case, a single base 1 (see Fig. 5) will contain conductive pads 2 ... 24, single LEDs 25 ... 41, terminals 50 for connecting to the output of the secondary power source, and an arm 42 with a hole 44 fixed with a unit 43 to the unit base 1.

To increase electrical safety on a single base 1 with conductive pads 2 ... 24, input terminals 45, a secondary power source and single LEDs 25 ... 41 can be worn translucent cover 47 in the form of a stocking (see figure 3), or in the form of two closed on the perimeter of the cups 48 (see figure 4) of electrical insulating material.

In addition, an additional electrical insulating coating can be applied to a unit base 1 with all elements installed on it.

Thus, the proposed technical solution makes it possible to fully replace the entire range of household incandescent bulbs with equivalent energy-saving LED bulbs that are equivalent in terms of created illumination, which are connected to the industrial network at the lowest possible cost, as well as their serial production using modern industrial equipment.

Claims (7)

1. An LED lamp containing input terminals or a socle for connecting to an industrial network, one or more single bases bonded to each other in the form of a plate with conductive pads, one or more secondary power supplies connected by their inputs to the input terminals or lamp base, and single LEDs, the findings of which are fixed on conductive pads and are interconnected on each unit base in a circuit connected to the output of the corresponding secondary power source. 2. The LED lamp according to claim 1, characterized in that it contains a bracket, one end of which is fastened to a single base, and the other has a hole for mounting at the installation site. 3. The LED lamp according to claim 1, characterized in that in it, on each of its single bases, a translucent cover is dressed in the form of a stocking of electrical insulating material. 4. The LED lamp according to claim 3, characterized in that the translucent cover is made in the form of two cups closable around the perimeter. 5. The LED lamp according to claim 1, characterized in that in it, on each of its unit bases with conductive pads and single LEDs fixed to them, an additional layer of electrical insulation coating is applied. 6. The LED lamp according to claim 1, characterized in that in it on each of the individual bases with conductive pads, input terminals or a base are located, as well as corresponding secondary power sources. 7. The LED lamp according to claim 1, characterized in that in it each secondary power source with corresponding input terminals is located on a separate board and connected with its output to the corresponding circuit of single LEDs, fixed by their leads to the contact pads of a single base.