RU131236U1 - LED LAMP, LAMP SOCKET - Google Patents

Abstract

1. LED lamp, including a socle for connection to an external electric circuit, elements of a power supply unit, one or more structural bearing elements, LED, semiconductor light-emitting elements, forming elements, including elements of the radiation surface, light-transmitting, reflecting and / or light-scattering elements and / or heat-conducting, conductive and / or electrical insulating elements, characterized in that this lamp is made of one main part of constant or alternating section in the form of a strip, tape and / or long rod, including one having a section in the form of a square, circle, isosceles triangle, ellipse and / or rectangle, of material in which the degree of rigidity of the part allows you to keep its constant shape, mainly from metal or metal-containing material, this part in the lamp, performing the functions of a forming, heat-releasing, conductive, housing and / or electrical insulating elements, is also a supporting element and a base on / to which are fixed / attached other elements, parts and components of the lamp, including one or more electrically insulating sections, layers, films and / or elements with a given degree of transparency, containing or not containing a phosphor, are welded, soldered, welded, deposited and / or grown one or more conductive, including metal, sections, layers, films and / or elements, one or more LED, semiconductor light-emitting sources, namely layered structures, crystals, crystal assemblies and / or finished, including case-mounted,

Description

The inventive utility model relates to the field of electric lighting, namely, to lighting, signal LED lamps and other similar devices and can be used in the manufacture and use of such lamps for lighting and illumination in many areas of the economy, barrage lamps, signal lights in vehicles, in the organization of road, river traffic, for beacons, towers, tall and extended buildings, airfields.

Currently, due to increased requirements for energy saving, resource saving, environmental protection and reducing the cost of organizing electric lighting in human activities, there is a need to develop new economical and harmless energy-saving light sources.

According to the company - online store: the use of LED lamps gives tangible savings. When comparing incandescent lamps (1), energy-saving fluorescent (2) and LED lamps (3) with equal light output for the resource life of one LED lamp (3) 50,000 hours, we get

total energy savings -

in comparison with (1) - 15 times, with (2) - 3.5 times,

and saving total costs (in rubles) for 50,000 hours of lamp operation -

in comparison with (1) - by 5.2 times, with (2) - by 2.3 times.

The wider use of LED lamps in the economy is hindered by their relatively high cost, which is determined by the complexity of the lamp design, the need to use expensive materials, low manufacturability and poor automation of technological processes for their production.

Among the large number of LED lamps available on the market (see the overview of LED light sources y), LED lamps that are close to the claimed technical solution are LED lamps that contain a node of light-emitting sources: LEDs for housing, LED crystals and / or crystal assemblies with or without a lens, fixed and evenly distributed on flat electrical insulating boards (from 5 to 10 boards per lamp, from 5 to 400 LEDs per lamp), while the power supply unit is made on a separate board, also separate parts They are: heat sink radiators, fasteners and a separate lamp base. Lamp caps usually correspond to the cartridge E27 or E14 and others, and are also made in the form of terminal leads. Usually the boards are formed into a symmetrical cylindrical figure, one board is located at the base of the cylinder, and the rest are evenly distributed on its lateral surface, which ensures a lamp angle of 360 ° (4 pi steradian). Also, a number of lamps has additional housing, reflective, light-scattering elements and / or common bulb caps. The ability to select the power of the lamps according to the luminous flux corresponds to a range from 10 W to DRL radiation of 250 W or more.

The disadvantage of most of these modern manufactured LED lamps is the design complexity, the use of a large number of expensive and scarce materials and parts, the relatively large mass, the complexity of the lamp manufacturing process, low manufacturability and poor automation of the technological processes of their production. This leads to a decrease in the reliability of lamps in operation, to increased costs of labor and material resources, time for their manufacture, and, as a result, to the high cost of lamps.

Attempts are being made to simplify the design and manufacturing process of LED lamps.

For example, a LED lamp is known (according to utility model No. 70050 class IPC: H01L 25/075, F21V 23/00, priority dated August 30, 2007), which is presented here as the first prototype. The known LED lamp includes means for connecting to an external electrical network, power supply elements, a base, a cover and a hollow cylindrical board with LEDs on the outer surface of the board, the cover being connected by fasteners to the base and fixing the hollow cylindrical board vertically mounted on the base in the internal cavity which elements of the power supply are placed on the part of the board, bent into the cavity. In this lamp, the LEDs are placed on a cylindrical board in vertical rows, and the lamp is also equipped with additional LEDs located on the cover. In addition, the hollow cylindrical plate is made of metal, or a two-layer metal-plastic material, or thermoplastic, or thermoset; the hollow board forms the shape of a cylinder with a section in the shape of a circle or with a section in the form of a polygon. To facilitate the process of folding the board into a cylinder, longitudinal openings are made between the LEDs in the body of the board. The base and the cylindrical board are fastened with a special part - a screw with a means of connecting to an external electrical network, made in the form of a base of a traditional lamp; the base and cover are made with flanges to fix the connection of the cylindrical board with the lamp base and with other details. In this LED lamp, power supply elements and LEDs are placed on the board blank by traditional methods of mounting and connecting electrical or semiconductor devices. The number of fasteners and housing elements in the lamp is reduced in comparison with other analogues, the labor input of assembly work is slightly reduced.

The LED lamp in this prototype has, in principle, the same disadvantages as the previous analogues: the same design complexity and the use of a large number of expensive and scarce materials and parts, the same complexity of the lamp manufacturing process, low manufacturability and low ability to automate its technological processes production. This leads to a decrease in the reliability of lamps in operation, to increased costs of labor and material resources, time for their manufacture, and, as a result, to the high cost of lamps.

There are a large number of types and varieties of socles (see) - terminal standard lamp units designed for reliable and uniform connection of the lamp to conductors supplying electrical voltage (current). Usually the base is inserted into a special standard cartridge - the counterpart to the base, which is constantly connected to the conductors of the electrical network. A prerequisite for the correct fastening and connection of the lamp to the network in the cartridge is the conformity of the dimensional and electrical characteristics of the lamp base and cartridge.

As a second prototype, consider the widely used threaded base of Edison (see _Edison). The base is made in the form of a cylindrical round thin-walled metal cup with a specially machined side surface, on which a wavy spiral shape-thread of a standard size is usually extruded (diameter, depth, pitch, direction, thread length, wave profile are standardized). This lateral surface of the cylinder is one of two electrodes that connect the conductors of the light-emitting lamp sources to the base. The bottom of the glass is composite, made with a metal protrusion in the center, isolated from the side surface (from the first electrode) using a special electrically insulating ring insert. The specified protrusion is the second connecting electrode of the lamp. The base itself is usually attached to the lamp body with glue or other means (thread, soldering, clamping parts, etc.)

The standard threaded cap is usually indicated as EX, where X is a number indicating the diameter of the thread of the cap in mm.

The table shows the widely used types and thread diameters of such socles in Russia and abroad.

Type of Diameter mm Name E5 5 Microzocol (LES) E10 10 Miniature Base (MES) E12 12 Miniature Base (MES) E14 fourteen Mignon (SES) E17 (110 V), the standard of England, Canada, etc. 17 Small Cap (SES) E26 (110 V), the standard of England, Canada, etc. 26 Middle Base (ES) E27 27 Middle Base (ES) E40 40 Great Cap (GES)

The disadvantages of such socles include the relative complexity of their production, especially the technological process of attaching and attaching the cap to the lamp, and the low reliability of such an attachment. Also, during the operation of the lamp, due to the abrasion of the cylindrical surfaces of the base and the cartridge, the installation quality of the base in the cartridge is often impaired: the base is clamped, electrical contact with the lamp is violated.

The objective of the claimed utility model is to create an LED lamp and a lamp base as an element of the lamp structure. As a result of solving the problem, we obtain the following technical result.

In production: since the design of the lamp proposes the use of one main forming, supporting workpiece, we get a decrease in the material consumption of the lamp, the ability to use modern technologies for applying materials and coatings to it, while in the manufacturing process we get fewer auxiliary and intermediate operations; the ability to automate, reduce the cost of material, labor and time for the manufacture of the lamp, and as a result - cost reduction.

According to the characteristics and operation of the LED lamp: a design feature of the lamp is that one main part performs the functions of a bearing, housing element, heat sink, current-carrying elements, electrical insulating elements, light transmitting, reflecting, light-scattering elements, while the surface of the part, elements and / or coatings on it contains a phosphor to increase the efficiency of the light-emitting characteristics of the lamp. The placement of light-emitting sources, LEDs on all sides on the surface of the part, in that part that is used to form the light flux of the lamp, allows to improve the characteristics of the light emission of the lamp, including within the full solid angle.

All these features can significantly reduce the weight of the lamp, improve the characteristics of the heat sink, increase the reliability and the standard term of its operation.

The new design of the spiral spiral lamp base, which is a continuation of the same main part of the lamp on which its light-emitting surface is formed, provides a more reliable connection between the lamp base and the lamp than the known solutions. This design also provides a convenient, reliable, safe screwing of the lamp into the cartridge, its reliable, adjustable only by hand pressure, securing in the cartridge and easy turning the lamp out of the cartridge.

The specified technical result is achieved by the fact that the LED lamp includes a base for connection to an external electric circuit, power supply unit elements, one or more structural bearing elements, LED, semiconductor light-emitting elements, forming elements, including light-transmitting surface-transmitting elements, reflective and / or light scattering elements and / or heat-conducting, conductive and / or electrical insulating elements.

The difference between the LED lamp and the known solutions is that this lamp is made of one main part of constant or variable section in the form of a strip, tape and / or long rod, including one having a section in the form of a square, circle, isosceles triangle, ellipse and / or a rectangle of material in which the degree of rigidity of the part allows you to keep its constant predetermined shape, mainly of metal or metal-containing material,

this part in the lamp, performing the functions of a forming, heat-conducting, conductive, case and / or electrical insulating elements, is also a supporting element and a base on / to which other elements are attached, welded, welded, welded, deposited, / and grown and lamp assemblies, including

one or more electrically insulating sections, layers, films and / or elements with a given degree of transparency, containing or not containing a phosphor,

one or more conductive, including metal, sections, layers, films and / or elements,

one or more LED, semiconductor light-emitting sources, namely, layered structures, crystals, crystal assemblies and / or ready-made, including housing, LEDs,

one or more power supplies and / or the entire power supply

and / or one or more light transmitting, reflecting and / or light scattering sections, layers, films and / or elements with a given degree of transparency, containing or not containing a phosphor,

however, on the specified main part there are at least two sections, of which at least one section (first denoted) is the location of the above LED, semiconductor light emitting sources, light transmitting, reflective and / or light scattering elements, containing or not containing a phosphor, and is intended to form a light flux,

however, at least one part of the part (we will designate the second), not containing these elements, has the shape of the base and / or the bearing part of the lamp base,

wherein the designated first section of the part is curved in the longitudinal, transverse direction and / or rotated relative to the longitudinal line of the part, mainly a spiral, with a constant bending radius, angular rotation, smooth change, and / or sharp local bending at an angle so so that the middle longitudinal line or lateral edge of the first section of the part is a generatrix of a predetermined virtual surface in the form of one or more figures, their parts or the whole, mainly: spherical, pear-shaped, cylindrical, conical, prismatic, pyramidal, toroidal, spiral and / or transitional shapes between them, forming as a result a constant or stationary shape of the surface on which LED, semiconductor light-emitting sources are placed,

wherein said LED, semiconductor light emitting sources, with their corresponding electrical circuit elements, are placed and fixed on the calculated length of the first section of the part in the form of a distributed structure and / or pointwise on the surface of the part one or more than one in width, including in the center, in a staggered manner, at a distance from one another and / or with an offset relative to the longitudinal midline of the part, occupying part or all of the perimeter of the cross-section of the part along its longitudinal edge, one, two or Cex sides of the first section parts,

in addition, the location of the LED semiconductor light-emitting sources and the distance between them on the surface of the part, as well as the distance between adjacent branches of the first section of the part is such that it provides the calculated parameters of the heat sink, brightness and distribution over the solid angle of the radiation field of the aggregate of light sources, with minimal shading other parts of the part,

in this case, all open areas of the lamp, except for the surfaces of the cap, intended for contact with the electrodes of the electrical network, are covered with electrical insulation material that protects the objects of the environment from contact with current-carrying elements of the lamp and from the voltage of the electrical network,

in this case, the free end of the first section of the part has the form of a console, or extended and fixed at any point in the part, or tucked into the base of the lamp.

In particular, said LED lamp is standardized.

In particular, aluminum and / or metal-containing plastic are used as the material of the main part of the lamp.

In particular, aluminum oxide is used as the material of the electrical insulator covering parts of the surface of the lamp parts or all of it.

In particular, as an element of protection of each or a group of light-emitting sources from overloads, one or more semiconductor zener diodes, for example, sprayed onto the surface of the main part, are used in the lamp circuit.

In particular, LED, semiconductor light emitting sources are connected in a lamp by a series, parallel or mixed power supply circuit.

In particular, the outer part of the second base section of the main part of the lamp, corresponding to the shape of the cartridge of the power supply network, has the shape of a cylindrical spiral in shape, size, pitch and direction of the spiral, mainly corresponding to the same parameters of the standard base E14, E27 or E40.

In particular, to ensure the electrical conductivity of the surface areas of the LED lamp provided by the electrical circuit, those areas that are made of or coated with an electrically insulating material must be treated to ensure their electrical conductive properties or coated with an electrically conductive material, mainly metal.

Also, the technical result is achieved by the fact that the lamp base or its supporting part is made of one main forming part and contains the outer and central electrodes,

this socle differs from the known ones in that the main part of the socle is a continuation of the supporting part of the lamp of constant or variable cross section and has the shape of a strip, tape and / or long rod, including one having a section in the form of a square, circle, isosceles triangle, ellipse, and / or a rectangle, while the specified main part of the base is curved in the longitudinal, transverse direction and / or with rotation, relative to the longitudinal line of the part, mainly in the form of a cylindrical spiral, and consists of a material, and which degree of rigidity of the part allows you to keep a constant predetermined shape of the spiral, mainly of metal, metal-containing material and / or electrical insulation material and / or covered by them,

while the outer surface of the specified spiral, which has conductive properties, corresponds mainly in shape, size and step of the spiral, the parameters of the standard lamp base, for example, type E14, E27 or E40, and in the existing internal cavity of the spiral form are placed and / or the unit and / or lamp power elements and / or other elements, for example, the inner electrode and / or lamp supporting elements, are fixed.

In particular, aluminum and / or metal-containing plastic are used as the material of the base base part.

In particular, aluminum oxide is used as the material of the electrical insulator covering the surface areas of the base and / or the entire base.

In particular, in order to ensure the electrical conductivity of the surface areas of the cap provided by the electrical circuit, those areas that are made of or coated with an electrically insulating material must be treated to ensure their electrical conductive properties or coated with an electrically conductive material, mainly metal.

Implementation of LED lamp with socket.

Figure 1 shows the inventive LED lamp with a cap type E, a perspective view, in figure 2 is the same side view.

In this example, the LED lamp contains a base for connection to an external electrical circuit, power supply unit elements, one or more structural load-bearing elements, LED semiconductor light-emitting elements, forming elements, including radiation surface elements, light-transmitting, reflecting and / or light-scattering elements and / or heat-conducting, conductive and / or electrical insulating elements.

In this case, the lamp contains one main part (1) of variable cross-section. The material of the part (1) is aluminum, the degree of rigidity of which allows you to keep a constant shape of the part. Although the material of the part can be used insulating material, metal-containing plastic or composite material from these components, which has the required rigidity.

Part (1) is divided into two sections: the first section (1.1) is a light-emitting surface, and the second section (1.2), which is a continuation of the first, is formed in the form of an Edison base (type E). It is designed to connect to an external electrical circuit, while the power supply unit (not visible in the figures) is placed inside the base (1.2).

The figures show that the first section (1.1) of the part (1) is made in the form of a strip of rectangular cross section having a constant thickness. In most of this strip, the ratio of its thickness to width is 1: 6, that is, at this point in the part, the cross section is constant. In another part of this strip, closer to the free cantilever end of the part, its width is slightly increased (in the figures it is almost imperceptible). This is done in order to fix more LEDs on it than on the width of the middle spiral part of this section. The second basement section (1.2) is a continuation of the same part. Figure 2 shows that the boundary part of the first section (1.1) of the part when moving to the second section (1.2) has a cross-section that varies in size. In this case, the second base section (1.2) itself is made in the form of a rod having basically a constant section in the form of a circle, the diameter of which corresponds to the size of the spiral groove of the corresponding cartridge of type E. The lower end of the base section is tucked inside its spiral part (it is not visible in the figures) , its cross section may also be variable. Thus, in general, the main part of this lamp is characterized by its length with a variable section and, in particular, contains sections of sections with constant sizes and sections with variable shape and dimensions.

Detail (1) in the lamp, acting as a forming, heat-conducting, conductive, case and / or electrical insulating elements, is the main bearing element and the base on / to which the other elements are / are attached, welded, soldered, welded, deposited and / or grown , parts and components of the lamp (not shown in the figures), including,

a predetermined number of selected LED, semiconductor light-emitting sources, namely, layer-by-layer structures, crystals, crystal assemblies and / or ready-made, including housing, LEDs,

one or more electrically insulating sections, layers, films and / or elements with a given degree of transparency, containing or not containing a phosphor,

and one or more conductive, including metal, sections, layers, films and / or elements,

as well as one or more power elements and the entire power supply unit

and / or one or more light transmitting, reflecting and / or light scattering portions, layers, films and / or elements with a given degree of transparency, containing or not containing a phosphor.

In this example, an LED lamp, aluminum oxide is used as an insulating material. It covers the entire main (aluminum) part of the lamp, including the base, as well as its sections, both by the inner and outer layers (see http://www.pselectro.ru/article/7/78/ or : //electrosad.ru/Electronics/PP1.htm. Technology of printed circuit boards. Printed circuit boards with a metal base).

The specified first section (1.1) of the lamp part is made curved in the longitudinal, transverse direction and rotated by a spiral relative to its longitudinal line so that it forms an external shape in the form of a pear-shaped surface, close to the surface of widespread incandescent lamps, resulting in a constant or stationary shape the surface on which the LED, semiconductor light-emitting sources and the rest of the above details are placed.

The location of the LED semiconductor light-emitting sources and the distance between them on the surface (1.1) of the part, as well as the distance between adjacent branches of the first part of the part, is determined by the purpose of the lamp, selected components and calculation so as to provide the calculated parameters of heat removal, brightness and distribution over the solid angle of the radiation field of the aggregate light sources, with minimal shading by other parts of the part.

Moreover, on the surface of the part (1.1), both distributed and point light sources can be mounted one or more of one along the width of the strip, including in the center, in a checkerboard pattern, at a distance from one another and / or with an offset relative to the longitudinal midline of the part, occupying part or all of the perimeter of the cross-section of the part, and be placed not only on the outside but also on the inside of the part strip, as well as on the ends along the strip. As an example of distributed light sources, light emitting OLED structures can be cited (see Stakharny S. “Prospects for Organic LEDs in Lighting Systems. J. Modern Lighting Engineering, No. 3, 2010, pp. 23-30).

In particular, in a lamp, LED, semiconductor light emitting sources can be connected by a series, parallel or mixed power supply circuit. In this case, one or more semiconductor zener diodes are used as the power supply element intended to protect the light emitting source from overloads. In this case, for example, each zener diode is connected in parallel with one of the light emitting sources and is mounted on the surface of the main part using spraying technology.

In this version of the lamp, the free end of the section (1.1) of the part is located in the form of a console, but can instead be continued and fixed at any point of the part, including, can be tucked into the base of the lamp. The material of the part (1) provides such a degree of stiffness, which allows to provide a constant predetermined standard shape of the lamp.

In this embodiment, the lamp base, which is a continuation of the lamp part (1), contains the outer and central electrodes, as well as the lamp power supply. The base material is aluminum, and the base is formed as a section (1.2) of the main part of the lamp. This section is made in the form of a round rod, curved in the form of a cylindrical spiral, and the diameter of the rod corresponds to the size of the spiral groove of the corresponding cartridge of type E. The technology for processing and coating the section (1.2) with the corresponding materials and electronic elements is used the same as when processing the section ( 1.1).

Moreover, the outer surface of this spiral has conductive properties and mainly corresponds, in shape, size and pitch of the spiral, to the parameters of a standard socle, for example, type E14, E27 or E40, and in the existing internal cavity of the spiral shape the lamp unit and power elements are mounted and fixed as well as other elements, for example, the internal electrode and the supporting elements of the lamp.

Moreover, all open sections of the lamp, except for the surfaces of the cap intended for contact with the electrodes of the electrical network in the cartridge, are coated with aluminum oxide - an insulating material that protects the environment from contact with the current-carrying elements of the lamp and the voltage of the electrical network.

The new design of the spiral spiral lamp base provides a more reliable connection between the lamp base and the lamp than the known solutions. This design also provides a convenient, reliable, safe screwing of the lamp into the cartridge, its reliable, adjustable only by hand pressure, securing in the cartridge and easy turning the lamp out of the cartridge.

In this example, the LED lamp is manufactured as standard.

The principle of operation and operation of this LED lamp is widely known (see, for example, http://ledson.ru/company).

The presented variants of the LED lamp show that the implementation of the utility model with all the available alternative features and any of their indicated combinations allows to achieve the claimed technical result.

Claims (12)

1. LED lamp, including a socle for connection to an external electric circuit, elements of a power supply unit, one or more structural bearing elements, LED, semiconductor light-emitting elements, forming elements, including elements of the radiation surface, light-transmitting, reflecting and / or light-scattering elements and / or heat-conducting, conductive and / or electrical insulating elements, characterized in that this lamp is made of one main part of constant or variable cross-section in the form of a strip, ribbon and / or long rod, including one having a cross-section in the form of a square, circle, isosceles triangle, ellipse and / or rectangle, made of material, which the degree of rigidity of the part allows you to keep its constant predetermined shape, mainly of metal or metal-containing material, this part in the lamp, performing the functions of a forming, heat-conducting, conductive, case and / or electrical insulating elements, is also a supporting element and a base on / to which other elements are attached, welded, welded, welded, deposited, / and grown and lamp assemblies, including one or more electrically insulating sections, layers, films and / or elements with a given degree of transparency, containing or not containing a phosphor, one or more conductive, including metal, sections, layers, films and / or elements, one or more LED, semiconductor light emitting sources, namely, layered structures, crystals, crystal assemblies and / or finished, including housing, LEDs, one or more power supplies and / or the entire power supply and / or one or more light transmitting, reflecting and / or light scattering sections, layers, films and / or elements with a given degree of transparency, containing or not containing a phosphor, at the same time, along the specified main part, there are at least two sections, of which at least one section (first denoted) is the location of the above LED, semiconductor light-emitting sources, light-transmitting, reflecting and / or light-scattering elements containing or not containing a phosphor, and is intended to form a luminous flux, however, at least one part of the part (we will designate the second), not containing these elements, has the shape of the base and / or the bearing part of the lamp base, wherein the designated first section of the part is curved in the longitudinal, transverse direction and / or rotated relative to the longitudinal line of the part, mainly a spiral, with a constant bending radius, angular rotation, smooth change, and / or sharp local bending at an angle so so that the middle longitudinal line or lateral edge of the first section of the part is a generatrix of a predetermined virtual surface in the form of one or more figures, their parts or the whole, mainly: spherical, pear-shaped, cylindrical, conical, prismatic, pyramidal, toroidal, spiral and / or transitional shapes between them, forming as a result a constant or stationary shape of the surface on which LED, semiconductor light-emitting sources are placed, wherein said LED, semiconductor light emitting sources, with their corresponding electrical circuit elements, are placed and fixed on the calculated length of the first section of the part in the form of a distributed structure and / or pointwise on the surface of the part, one or more than one in width, including in the center, in a staggered manner, at a distance from one another and / or with an offset relative to the longitudinal midline of the part, occupying part or all of the perimeter of the cross-section of the part along its longitudinal edge, one, two or Cex sides of the first section parts, in addition, the location of the LED semiconductor light-emitting sources and the distance between them on the surface of the part, as well as the distance between adjacent branches of the first section of the part is such that it provides the calculated parameters of the heat sink, brightness and distribution over the solid angle of the radiation field of the aggregate of light sources, with minimal shading other parts of the part, in this case, all open sections of the lamp, except for the surfaces of the cap, intended for contact with the electrodes of the electrical network, are covered with an insulating material that protects the objects of the environment from contact with current-carrying elements of the lamp and from the voltage of the electrical network, in this case, the free end of the first section of the part has the form of a console, or extended and fixed at any point in the part, or tucked into the base of the lamp. 2. The LED lamp according to claim 1, characterized in that said LED lamp is standardized. 3. The LED lamp according to claim 1, characterized in that aluminum and / or metal-containing plastic are used as the material of the main part of the lamp. 4. The LED lamp according to claim 1, characterized in that aluminum oxide is used as the material of the electrical insulator covering the surface areas of the lamp parts or all of it. 5. The LED lamp according to claim 1, characterized in that one or more semiconductor zener diodes, for example, sprayed onto the surface of the main part, are used as an element of protection for each or a group of light-emitting sources from overloads. 6. The LED lamp according to claim 1, characterized in that the LED, semiconductor light-emitting sources are connected in the lamp by a serial, parallel or mixed power supply circuit. 7. The LED lamp according to claim 1, characterized in that the outer part of the second base portion of the main part of the lamp, corresponding to the shape of the cartridge of the power supply network, has the shape of a cylindrical spiral in shape, size, pitch and direction of the spiral, mainly corresponding to the same parameters standard base E14, E27 or E40. 8. The LED lamp according to claim 1, characterized in that in order to ensure the electrical conductivity of the surface areas of the LED lamp provided by the electrical circuit, those sections that are made of or coated with an electrically insulating material should be treated to ensure their electrical conductive properties or coated with an electrically conductive material, mainly metal. 9. The lamp base or its bearing part, made of one main forming part and containing the outer and central electrodes, characterized in that the specified main part of the cap is a continuation of the bearing part of the lamp of constant or variable cross-section and has the form of a strip, tape and / or long rod , including having a section in the form of a square, circle, isosceles triangle, ellipse, and / or rectangle, while the specified main part of the base is curved in the longitudinal, transverse and / or with a turn is relative to the longitudinal line of the items, preferably in the form of a cylindrical spiral, and comprises a material in which the degree of rigidity of parts allows to keep a constant predetermined spiral shape, preferably of metal, metal-containing material and / or electrically insulating material and / or covered by them, while the outer surface of the specified spiral, which has conductive properties, corresponds mainly in shape, size and step of the spiral, the parameters of the standard lamp base, for example type E14, E27 or E40, and are placed and / or fixed in the existing internal cavity of the spiral shape a lamp unit and / or power supply elements and / or other elements, for example, an internal electrode and / or lamp support elements. 10. The lamp base according to claim 9, characterized in that aluminum and / or metal-containing plastic are used as the material of the base base part. 11. The lamp base according to claim 9, characterized in that aluminum oxide is used as the material of the electrical insulator covering the surface areas of the base and / or the entire base. 12. The lamp base according to claim 9, characterized in that in order to ensure the electrical conductivity of the surface areas of the base provided by the electrical circuit, those sections that are made of or coated with an electrically insulating material must be treated to ensure their electrical conductive properties or coated with an electrically conductive material, mainly metal .

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