EP2508797A1 - Method for producing a led lamp, led lamp obtained by said method, and radiator for said lamp - Google Patents

Abstract

The invention relates to LED lamps, and the technical result of the invention is that the workability of the structure is increased and the assembly of the article is simplified. This can be achieved by a fixed connection (see Fig. 2) made between a hollow, ring-shaped radiator, a light-emitting shell and a transition cone, using a two-part locking mechanism that includes catches, latches and openings, all of which these parts of the lamp are formed during the manufacturing step.

Description

Field of engineering.

The invention relates to lighting technology, in particular the technology of manufacturing and constructing LED lighting systems intended for use in the equipment for external and internal illumination.

Previous state of the art.

It is known that the labor cost of assembly work is up to 50% of the total amount of work time spent in the manufacture of equipment. The optimization of the assembly process reduces the price of production and creates competitive advantages. To particularly labor-intensive operations associated with the mechanical Connection of parts and assemblies are associated in particular include the operations in the execution of the final assembly of the finished product.

With regard to LED lamps is meant as the assembly operations closed solid connection of the modules - the individual constructive functional parts of the lamp: cooler (cooling device), light-emitting envelope, beam source assembly, assembly of the electronic converter, the connection means with the power source (in particular, electrical Base). It can be seen that the assemblies are to be equipped to carry out the assembly with the appropriate technological connection means that allow successful execution of the assembly activity. Such means include technological openings, guide grooves, technological displays, which are indeed a structural part of the assemblies, but are intended solely to carry out the assembly work and do not participate in the work of the light source.

The following established production methods of the electronic devices are known from the prior art:

The mounting method of the receiving tube is detailed in the book of ICE-master «Assembly work on electro-vacuum operation», Moscow, «Vyshaya shkola», 1987, pp. 14-25 described where in the marginally equipped with the teeth mica insulator, in the previously made openings electrodes, cross member, terminals are positioned and leaf springs are attached. Mounted electrode assembly is housed in the glass bulb so that mentioned teeth are deformed in the mica insulator by calibrated surface of the bulb, and ensure sufficient tightness of the completion of the electrode assembly in the lamp bulb because of the flexibility of the substance. It should be noted that mentioned teeth of the insulator and leaf springs do not participate in the work of the receiving tube, but are quite necessary to carry out the assembly of the product, ie these elements are technological.

The methods of connecting parts and assemblies of the LED lamp are known in which light-emitting sheath and socket on the housing of the lamp only by means of the threaded connection (registration China CN2760382 , MKI (International Classification) F21S6 / 00, published on 22.02.2006), or threaded connection and pawl (registration China CN201106814 , MKI F21V17 / 00, published on 27.08.2008).

The operation of unscrewing is in itself quite labor-intensive, and in terms of plastic parts demands the attack of standardized forces, which are most checked by the special tool. The connection of the light-emitting sheath with the help of the pawl, which is executed around the case, and the ring hump on the housing of the lamp, which also lies all around the case, not only complicates the assembly, but also the deformation of the shell during assembly cause.

It is the LED lamp known where the assemblies and parts are equipped with the connecting means. Thus, the container with the electronic transducer with the pawls on the outer surface is made, and the face plate of the cast metal radiator is provided with the openings for accommodating the displays of the pawl. The connection of these modules is by fixing the pawls in the openings of the front plate of the radiator (patent EP2077415 , MKI F21V29 / 00, published on 08.07.2009).

The drawback of the known solution is not manufacturing adequacy of the construction of the LED lamp caused by the arrangement of the electronic converter in the closed container consisting of two parts subject to the connection by special working operation; from the increased demands on manufacturing accuracy of the pawl elements on the sides of the container, which is necessary for secure fixation on the disc of the radiator. In addition, you must not ensure effective cooling of the electronic converter in a closed container, maybe that's why strong but single LED is used as a beam source.

Nearest prior art for manufacturing methods of the LED lamp is the decision noisy EP2077415 ,

As a known state of the art for the construction of the LED lamp can already mentioned decisions according to applications CN2760382 and CN201106814 clues. In addition to the above-mentioned drawbacks, mention should be made of the large number of parts which are subject to the previous connection before the final assembly of the LED lamp; it is not possible to speak of the manufacturing accuracy of the construction of the lamp.

The closest prior art of the LED lamp is the decision noisy EP2077415 whose full criticism is presented on page 3 of this description.

The state of the art for the hollow cooler may be referred to as the next identified analogue.

The hollow cooler for LED lamp is known, which has a ribbed flank surface, upper plate with the podium for the arrangement of the light emitting diodes, which are equipped with the air openings, the wall all around at the top plate threaded, apparently for connection of the light emitting sheath ( Registration for utility model CN201059520 , MKI F21V29 / 00, published on 14.05.2008).

The description and graphic documents of the known decision have no information about connecting means with other parts and assemblies of the LED lamp. The apparent disadvantage of the decision is the presence on the Plate of separately mounted podium for the beam source, which increases the labor time of assembly work.

Particularly the closest prior art for cooling device of the LED lamp is the decision in EP2077415 , MKI F21V29 / 00, published on 08.07.2009. The closest is the variant selected, the FIG. 4 of the cited patent, the hollow cooler with the double walls, the outer wall is provided with the longitudinal air openings and the end plate is provided with the openings for connection to the container latches of the electronic converter. The disadvantages of the design of the radiator are the result of the common disadvantages of the construction of the LED lamp according to the known patent, which are given on pages 3 and 4 of this description.

Become aware of the invention.

The technical result of the invention is to increase the manufacturing fairness of the design, possibility of use in the assembly of interchangeable parts and assemblies without their additional processing and without the use of supporting connections, improving the cooling conditions of the beam sources, as well as reducing the workload and the value of the mounting of the LED -Lamp.

• Herstellung der lichtemittierende Hülle mit der gleichzeitigen Bildung der Digitalklinken auf ihrer entfernten Oberfläche;
• Herstellung des Übergangskegels mit der gleichzeitigen Bildung der Digitalklinken auf seiner Oberfläche und der Luftöffnungen;
• Herstellung des kreisförmigen Kühlers, der die Bildung der Stirnplatte des Gehäuses einschließt; die Bildung des Randes rundherum bei der Stirnplatte; die Bildung der Öffnungen am Rand mit der Möglichkeit der Anordnung der Digitalklinken der lichtemittierenden Hülle; die Bildung in der gemeinsamen Achse der Öffnungen auf der Stirnplatte der Schlitzen im Gehäuse und Auslegen auf der inneren Kegelfläche der Gehäuse-Höhle, dabei bildet man die Auslagen mit der Möglichkeit der Verbindung mit den Digitalklinken des Übergangskegels; die Bildung der Führungsnuten auf der inneren Oberfläche der Höhle des Kühlers zur Anordnung der Platte des elektronischen Wandlers;

• Anordnung des elektronischen Wandlers durch fortschreitende Bewegung seiner platte über Führungsnuten auf der inneren Oberfläche der Höhle des Kühlers;
• Fixierung der Klinken der lichtemittierenden Hülle in den Öffnungen des Randes der Stirnplatte im Gehäuse des Kühlers;
• Fixierung der Klinken des Übergangskegels in den Auslagen der inneren Oberfläche der Kegelhöhle des Kühler-Gehäuses;
• Anordnung und Fixierung im Übergangskegel des Verbindungsmittels mit der Stromquelle (Sockel).

The manufacturing method of the LED lamp according to the invention comprises the following operations:

• Producing the light emitting envelope with the simultaneous formation of the digital pawls on its remote surface;
• Manufacture of the transition cone with the simultaneous formation of the digital pawls on its surface and the air openings;
• Manufacturing the circular radiator which includes forming the face plate of the housing; formation of a rim around at a face plate; the formation of the openings on the edge with the possibility of arranging the digital pawls of the light-emitting shell; formation in a common axis of apertures on a face plate of slits in a casing and laying on an internal conical surface of a casing cavity, thus it is possible to make displays with possibility of connection with digital latches of a transition cone; the formation of the guide grooves on the inner surface of the cavity of the cooler for arranging the plate of the electronic transducer;

• Arrangement of the electronic transducer by progressive movement of its plate on guide grooves on the inner surface of the cavity of the radiator;
• Fixing the pawls of the light-emitting shell in the openings of the edge of the face plate in the housing of the radiator;
• Fixing the pawls of the transition cone in the displays of the inner surface of the conical cavity of the radiator housing;
• Arrangement and fixation in the transition cone of the lanyard with the power source (base).

The formation of the secure connection between the specified assemblies is ensured by the use of the two-part locking mechanism, the first member is the pawl, is executed in the first assembly, the second member is the Auslege, through hole or blind hole, is on the surface of the second Assembly executed. The shape of the surface of these members of this castle is met with the possibility of their coupling and the exclusion of the automatic release without special force. The number of locking mechanisms in the assemblies is chosen depending on the demands on Abstreiffestigkeit. It can be seen that the minimum number of locking mechanisms should not be less than one.

The condition of the conical shape of the surface of the radiator cavity is caused on the one hand by the necessity of forming in an axis of the slots in the housing and laying on the inner surface of the housing and on the other hand by the technological demands on the process implementing injection mold.

On the interlinking surfaces of the transition cone and the radiator to prevent their rotation relative to each other, the execution of the additional fixing means are possible, which are executed as outlet elements in one of the parts to be joined and corresponding cavities in the second part, for example, bolts on the radiator and cavity in the transition cone ,

To achieve the set goal is used as the substance of the pawls, the substance whose strain size is sufficient on the one hand sufficient for the establishment of the lock elements, but on the other hand ensures secure fixation of the coupled parts. Optimal is the formation of the pawls simultaneously with the production of the light-emitting shell and the transition cone. The formation of the members of the radiator housing is expedient to carry out simultaneously with the manufacture of the housing for a working operation, with regard to the next connection of the assemblies and the coupling of members of the locking mechanisms.

Preference is given to the formation of the limiter on the end plate, which prevent the radial movement of the light-emitting shell and at the same time are capable of serving as a guide member in the connection of the assemblies. These limiters should preferably be formed concentrically around the edge on the front plate of the radiator.

The order of connection of the assemblies is not essential and depends on the concrete conditions of the assembly production. For example, the operation of connecting the light-emitting shell and the radiator may precede the connection of the radiator and the transient cone.

As already mentioned, it is expedient to produce the formation of all components of the housing of the radiator simultaneously. Accordingly, the injection mold at the moment of operation execution in the case of manufacturing the radiator by casting all necessary for the preservation of the components of the radiator molds. To achieve the set goal in the casting operation, the housing of the given Configuration, its face plate, all openings on the face plate, slots in the housing and trays at the end of each slot, longitudinal grooves on the conical surface of the housing cavity, other elements are formed. It should be understood by those skilled in the art that it is only possible in the presence of such injection mold having all the forming inserts necessary to maintain the casting needed to accomplish the next LED lamp fabrication operations.

The LED lamp made according to the method has a hollow circular radiator with the face plate and continuous slots on the side surface; the beam source mounted on the face plate and light-emitting shell; Transition element between cooler and connecting means with the power source; electronic converter and connecting means of the parts and assemblies, characterized in that light emitting sheath and transition cone are equipped with the digital pawls; the face plate has technological openings which lie in one axis with the slots in the housing and laying on the inner convergent to the plate conical surface of the housing cavity, where in the longitudinal slots the plate of the electronic transducer is set, and in the displays the pawls of Transition cones are attached to the air openings.

A preferred variant is the formation of the limiters on the end plate, which prevent the radial movement of the light-emitting envelope and at the same time are able to serve as guide members in the connection. These limiters should be concentrically formed on the board on the front plate of the radiator.

• 3 ≤ n < ∞
  
• 0≤ψ < 180, wo
• n ― Anzahl der Vieleck-Spitzen der Richtlinie,
• ψ ― Winkel zwischen den Seitenlinien der Kegeloberfläche.

Der Sinn der Auswahl von Grenzwerten der angegebenen Parameter der Kegeloberfläche soll klar für den Fachmann sein und braucht keine besonderen Begründungen. Es ist zu erwähnen, dass die Auswahl der Größe ψ im Wesentlichen die Höhe des hohlen kreisförmigen Kühlers bestimmt, und kleine Größe ψ bei maximaler Größe n der Auswahl der Form als Kegeloberfläche entspricht.The shape of the outer and inner surfaces of the actual hollow circular cooler in any manufacturing manner may be referred to as a cone surface formed with n-angle guidance and angle ψ between side lines whose size is selected from terms:

• 3 ≤ n <∞
  
• 0≤ψ <180, where
• n - number of polygonal tips of the Directive,
• ψ - Angle between the side lines of the cone surface.

The purpose of selecting limit values of the specified parameters of the conical surface should be clear to the person skilled in the art and needs no special justifications. It should be noted that the selection of the size ψ substantially determines the height of the hollow circular radiator, and the small size ψ at the maximum size n corresponds to the selection of the shape as the conical surface.

According to the invention, the optically transparent component used as the dressing material of the light-emitting envelope, which can be supplemented with luminous-color particles of a certain type or mixture of luminous-color particles of different luminous colors and / or afterglow duration.

The front surface of the radiator, which serves to couple with the surface of the transition cone, may be provided with the additional fixing means which preclude the possibility of rotation of the transition cone about the axis of the radiator. The configuration of the fixing elements has no fundamental importance. As an individual case of their execution one may show pairs of pin - opening, radial delivery - radial groove, or the execution of both coupled surfaces with the tooth profile.

The variant of the realization of the LED lamp, has a transition cone, which is designed with the possibility of fastening the screw base. For this purpose, cylindrical part of the transition cone can be equipped with the screw guide.

To improve the cooling conditions of the electronic converter and forming the cooling air flow through the radiator cavity forms the ventilation duct, the is formed with the continuous slots on the side surfaces of the radiator and the openings in the transition cone and / or the clearance between the transition cone and the radiator.

• das kreisförmige Gehäuse mit der aufgegliederten Außenoberfläche, eine der Stirnseiten hat eine Platte, die rundherum die Verbindungsmittel mit den Klinken der lichtemittierenden Hülle haben; dabei ist die erwähnte Platte mit den technologischen Öffnungen ausgestattet, die in einer Achse mit den Schlitzen im Gehäuse des Kühlers und mit den Auslagen auf der konvergenten zur Platte Kegelfläche des Kühler-Hohlraums, wo die Schlitzen mit der Möglichkeit der Anordnung der Platte des elektronischen Wandlers ausgeführt sind.

The cooler for the LED lamp manufactured by the above method has:

• the circular housing with the divided outer surface, one of the end faces has a plate which all around the connecting means with the latches of the light-emitting envelope; Thus, the mentioned plate is equipped with technological openings, which are in one axis with the slots in the housing of the cooler and with the displays on the convergent to the plate conical surface of the radiator cavity, where the slots with the possibility of arranging the plate of the electronic converter are executed.

The surface of the radiator intended for coupling with the surface of the transition cone may be provided with the additional fixing means which preclude the possibility of rotation of the radiator about the axis of the transition cone, for example as a pin located in the side surface of the radiator is formed. As a variant of the broken surface of the radiator may be transverse and / or axial cooling fins. In the latter case, the slots in the housing lie in the plane of the cooling fin in such a way that formed air openings do not form conditions for unauthorized penetration to the current-carrying elements of the electronic converter. The number of slots so executed depends on the type of electronic converter that can be used.

The connecting means of the radiator with the light-emitting envelope may be embodied as openings, recesses or displays formed at the edge with the possibility of coupling with the latches of the light-emitting envelope.

The face plate, except the specified openings, may still, at least, have an opening which are adapted to the arrangement of the conductor and / or attachment of the plate of the beam sources by means of forceps pawl.

For effective cooling of the beam sources, the hollow cooler should be made of the highly thermally conductive material, for example of copper, aluminum, their alloys or ceramics on the alumina basis. Important condition for accurate production of the hollow cooler is good casting ability of the selected substance.

Brief description of the drawings.

Fig.1

Profilzeichnung der LED-Lampe;

Fig.2

dreidimensionales Bild der LED-Lampe bei der Demontage, die in Fig.1 gezeigt ist;

Fig.3

dreidimensionales Bild des Kühlers oben seitlich;

Fig.4

dreidimensionales Bild des Kühlers unten seitens;

Fig.5

dreidimensionales Bild des Querschnitts des Kühlers und Übergangskegels in zerlegter Form.

The invention is illustrated with the following graphic materials:

Fig.1

Profile drawing of the LED lamp;

Fig.2

Three-dimensional image of the LED lamp during disassembly, which in Fig.1 is shown;

Figure 3

three-dimensional image of the radiator on the top side;

Figure 4

three-dimensional image of the cooler below;

Figure 5

Three-dimensional image of the cross section of the radiator and transition cone in decomposed form.

The LED lamp has a light-emitting case 1 in the remote surface 2 of which the pawls 3 of the lock mechanism are made; the hollow radiator 4, which is equipped with the face plate 5, all around the edge 6 is formed with the openings 7 for the arrangement of the pawls 3 of the light-emitting envelope 1; Cluster 8 of the sources 9 of the radiation mounted on the plate and set on said plate 5 of the hollow cooler 4; Transition cone 10, which is equipped with the pawls 11 for connection with the trays 12, which are carried out on the inner surface 13 of the hollow radiator 4; the electronic transducer 14, which is set in the axial slots (not shown), on the surface 13 of the cavity 15th are formed of the radiator 4 and are electrically connected to the cluster 8 of the sources 9 of the radiation and the connecting means 16 with the power source.

The cooler 4, which is a complicated casting in the optimal realization, consists of the circular housing, one of the end faces is provided with the plate 5, the technological openings 17 and has around the board 6, where through holes 7 with the possibility of Connection with the pawls 3 of the light-emitting envelope 1 are formed; the outer surface 18 of the housing is met as broken down, for example, as longitudinal ribs 18, and its inner cavity 15 is formed with the conical surface 13 converging to the plate 5 and with the air openings 19, displays 12 for fixing the pawls 11 of the transition cone 10 and axial guide grooves (not shown) for the arrangement of the electronic transducer is equipped.

The end face 20 of the radiator 4, which is intended for coupling with the surface of the transition cone 10 may be equipped with the additional fixing means, for example, as a pin 21, which excludes the possibility of rotation of the transition cone 10 about the axis of the radiator 4.

Embodiment of the invention.

• Man formt während einer Gussoperation lichtemittierende Hülle 1 und ihre Klinken 3. Das Stoff, das zum Erhalt der lichtemittierenden Hülle 1 angewendet wird, darf die Leuchtfarben-Teilchen enthalten, der Bestand und die Anzahl werden in dieser Erfindung nicht betrachtet;
• man formt während einer Gussoperation den Übergangskegel 10 mit den Klinken 11; Man erfolgt den Guss der Metallschmelze, zum Beispiel, in die Metallform (nicht gezeigt) zur Bildung des Gussteils, das das kreisförmige Gehäuse des Kühlers 4, Platte 5 mit den technologischen Öffnungen 17, Bord 6, Begrenzern 22, Öffnungen 7 zur Verbindung mit den Klinken 3 der lichtemittierenden Hülle 1 und Öffnung 23 zur Befestigung mit der Zangenklinke 24 der Clusterplatte 8 von Quellen 9 der Strahlung, Schlitzen 19 und Auslagen 12 in der inneren Kegelfläche 13 des Hohlraums 15 des Kühler-Gehäuses 4 hat. Die Relativstellung von angegebenen Elementendes Kühlers wird von der Gussform bestimmt, die nächste Verbindung von Teilen und Baugruppen der LED-Lampe berücksichtigt;
  • man platziert die Clusterplatte 8 von Quellen 9 der Strahlung auf der Stirnplatte 5 des hohlen Kühlers 4 und fixiert mit der Zangenklinke 24;
  • man platziert lichtemittierende Hülle 1 zwischen Rand 6 und Begrenzern 22 auf der Stirnplatte 5 des Kühler-Gehäuses 4 und fixiert Klinken 3 in den Öffnungen 7 des Randes 6 der Stirnplatte 5 des hohlen Kühler-Gehäuses 4;
  • man fixiert Klinken 11 des Übergangskegels 10 in den Auslagen 12, die auf der Kegeloberfläche 13 des Hohlraums 15 des kreisförmigen Kühler-Gehäuses 4 gebildet sind.

The manufacturing method of the LED lamp is realized in the following manner:

• The light emitting envelope 1 and its pawls 3 are formed during a casting operation. The cloth used to obtain the light emitting envelope 1 may contain the phosphor particles, the inventory and the number are not considered in this invention;
• one forms the transition cone 10 with the pawls 11 during a casting operation; The casting of the molten metal, for example, into the metal mold (not shown) to form the casting, the circular housing of the radiator 4, plate 5 with the technological openings 17, board 6, limiters 22, openings 7 for connection to the Latches 3 of the light emitting sheath 1 and opening 23 for attachment with the pawl 24 of the cluster plate 8 sources of radiation 9, slots 19 and 12 displays in the inner conical surface 13 of the cavity 15 of the radiator housing 4 has. The relative position of specified elements of the radiator is determined by the mold taking into account the next connection of parts and assemblies of the LED lamp;
  • placing the cluster plate 8 of sources 9 of the radiation on the face plate 5 of the hollow cooler 4 and fixed with the pawl 24;
  • placing light-emitting envelope 1 between edge 6 and limiters 22 on the end plate 5 of the radiator housing 4 and fixed pawls 3 in the openings 7 of the edge 6 of the end plate 5 of the hollow radiator housing 4;
  • It fixes pawls 11 of the transition cone 10 in the trays 12, which are formed on the conical surface 13 of the cavity 15 of the circular radiator housing 4.

In the variant of the manufacturing method of the LED lamp, 10 surface screw guide 26 is formed on the transition cone to the possibility of fastening the screw.

The LED lamp manufactured by the method described here operates as follows.

By clusters 8 of sources 9 of the radiation, under the action of the supply voltage formed with the electronic transducer 14, electrically connected to the source (not shown) of the electrical energy through the screw base 16, the luminous flux of the ultraviolet or blue spectral range is generated excite the illumination of phosphor particles introduced into the mass of the light-emitting envelope 1 made of the optically transparent material. The heat excreted by the sources 9 of the radiation is transmitted to the plate 5 of the cooler due to the thermal conductivity, its surface is in thermal contact with the sources 9 of the radiation, and dissipates from the ribbed outer surface 18 of the radiator housing 4. The heat excreted with the electronic transducer 14, which is housed in the cavity 15 of the radiator housing 4, is excreted from the plate by heat emission via housing and dissipates from the surface into the environment, and is discharged with the convection current passing through the air openings 25 in the transition cone 10 through the cavity 15 and is discharged outside the housing by slits 19 in the side surface of the radiator 4.

Industrial Applicability

Parts and assemblies of the LED lamp can be manufactured with the known metal, ceramic and plastic casting. The mounting of the plate with the beam sources can easily be automated. The final assembly of the product does not require above-average qualification of the personnel, which allows to significantly reduce the costs for the production of the LED lamp. The information in this specification is sufficient for a person skilled in the art to understand the sequence of manufacture and particularities of the construction of the device.

Claims (20)

A manufacturing method of the LED lamp, which includes manufacturing the light-emitting case with simultaneous formation on its remote surface of the digital pawls; Manufacture of a transitional cone with simultaneous formation on its surface of digital pawls; Production of the circular cooler, which includes the formation of the end plate, which are assigned to the arrangement of the plate with the LEDs; Formation of the board around the face plate; Formation on board the light-emitting shell fasteners; Formation in one axis of apertures on a face plate, slits in the case and displays on an internal surface of a conic cavity of a cooler, thus it is possible to create displays with possibility of communication with digital pawls of a transition cone; Formation of the guide grooves on the inner surface of the cavity of the cooler with the possibility of arranging the plate of the electronic converter; Fixing the pawls of the light-emitting envelope to the edge of the face plate; Fixing the pawls of the transition cone in the displays of the inner surface of the conical cavity of the radiator housing; Arrangement and fixation at the transition cone of the connecting means with the power source. Production method of the LED lamp according to item 1,
characterized,
that additional fixing means are formed as projecting elements and / or cavities on the end face of the transition cone and on the end face of the radiator. Production method of the LED lamp according to item 2,
characterized,
that additional fixing means, for example, as a pin or radial delivery on the end face of the radiator and corresponding cavity on the end face of the transition cone or as an execution of both coupled surfaces with the tooth profile are executed. Production method of the LED lamp according to item 2,
characterized,
in that the limiters of the radial movement of the light-emitting envelope are formed on the front plate of the cooler. Production method of the LED lamp according to item 4,
characterized,
the delimiters are formed concentrically on the periphery of the face plate of the cooler. The LED lamp, which has the housing as a circular radiator, which is equipped with the face plate and through slots on the side surface; Beam source and light emitting sheath mounted on the screen plate; electronic converter; Transition cone between radiator and connection means with the power source,
characterized,
the light emitting envelope and the transition cone are equipped with the digital pawls; Face plate is provided with the openings which lie in one axis with the slots in the housing and displays on the inner conical surface of the cavity of the housing, where in the longitudinal slots, the plate of the electronic converter is arranged and attached to the aforementioned displays the pawls of the transition cone are. The LED lamp according to item 6,
characterized,
the coupled end faces of the transition cone and the cooler with the additional attachment means as protruding elements and / or cavities are provided. The LED lamp according to item 7,
characterized,
that additional fixing means are designed, for example, as a pin or radial delivery on the front face of the cooler and corresponding cavity on the end face of the transition cone; or as execution of both coupled surfaces with the tooth profile. The LED lamp according to item 7,
characterized,
in that the front plate of the cooler is equipped with the limiters of the radial movement of the light-emitting envelope. The LED lamp according to item 9,
characterized,
that the limiters are arranged concentrically to the edge of the end plate of the radiator. The LED lamp according to item 6,
characterized,
in that the end plate is provided with at least one opening, which is carried out with the possibility of arranging the fastening means of the plate of the beam sources and / or conductors. The LED lamp according to item 11,
characterized,
that the fastening means of the plate of the beam sources is designed as a forceps pawl. The LED lamp according to item 6,
characterized,
that the radiator is equipped with the transverse and / or axial cooling fins. The LED lamp according to item 13,
characterized,
that the slits lying in the plane of the axial cooling fin of the radiator in the enclosure. The cooler for the LED lamp, which has the circular housing with the split outer surface, one of the end faces is provided with the plate, which has all around connecting means with the latches of the light-emitting envelope; the end plate is provided with the openings which lie in an axis with the slots in the housing and the trays, which are executed on the inner conical surface of the cavity of the housing with the possibility of connection with the pawls of the transition cone. The cooler for the LED lamp according to item 15,
characterized,
in that axial slots are made on the conical surface of the cavity of the housing with the possibility of arranging the plate of the electronic transducer. The cooler for the LED lamp according to item 16,
characterized,
the broken-down surface of the cooler is designed as transverse and / or axial cooling ribs. The cooler for the LED lamp according to item 16,
characterized,
that the slits lying in the plane of the axial cooling fin in the housing. The cooler for the LED lamp according to item 15,
characterized,
that the end plate of the cooler with the additional attachment means as protruding elements and / or cavities is provided. The cooler for the LED lamp according to item 19,
characterized,
that additional fixing means are designed, for example, as a pin or radial delivery or as a surface with the tooth profile.

Images