CN205402432U - Lighting device - Google Patents

Abstract

The utility model discloses a lighting device, it includes the metal lamp body, accommodate in internal optical -electric module and the optical element of metalized lamp, assemble in one side of metal lamp body and with lid and electric connection are extremely after optical -electric module fixed connection's the insulation the optical -electric module just extends the power cord of insulating back lid. Compared with the prior art, because the metal lamp body has the characteristics that the heat conductivility is good, consequently, during LED light source production of heat on lieing in that the metalized lamp is internal to lie in the optical -electric module, the heat can leave rapidly through the metal lamp body to avoid the internal high temperature of metalized lamp and influence the service property (quality) and the life of LED light source.

Description

Illuminator

Technical field

This utility model belongs to lighting technical field, particularly relates to a kind of illuminator.

Background technology

Illuminator in the market, as being widely used in LED down or the shot-light of room lighting, it includes housing, the LED light source that is installed in housing, be installed in housing and is connected with LED light source drive power supply, be assembled on housing by LED light source and drive that power supply seals spread the ingredients such as face shield and the installed surface ring that is installed on outside housing.Wherein, housing is generally made of one piece by isolation material, and therefore, the heat of the LED light source generation being positioned at housing cannot leave rapidly, so that the temperature of housing raises.Due to, the radiating effect of housing is not good, and LED light source is significantly high to the requirement of temperature simultaneously, and therefore, the high temperature in housing can make the use quality of LED light source and be substantially reduced service life.As can be seen here, the illuminator how obtaining a kind of good heat dissipation effect is problem to be solved in the utility model.

Additionally, there is the trend of miniaturization for the LED down of room lighting or shot-light, therefore in illuminator for house LED light source and drive power supply installing space can ratio relatively limited, therefore, in limited installing space, how to place LED light source and driving power supply is also problem to be solved in the utility model.

Utility model content

The purpose of this utility model is to solve the problems referred to above, it is provided that the illuminator of a kind of excellent in heat dissipation effect and compact conformation.

For achieving the above object, this utility model provides a kind of illuminator, it includes metallic lamp body, it is contained in the optical-electric module in described metallic lamp body and optical element, is assembled in the side of described metallic lamp body and fixes the insulation bonnet being connected with described optical-electric module and be electrically connected to described optical-electric module and extend the power line of described insulation bonnet.

Further, described illuminator also includes the face ring being assembled in described metallic lamp body opposite side and the connector that described metallic lamp body and face ring are fixed connection.

Further, described illuminator also includes the jump ring that is assembled in metallic lamp body or face ring.

Further, described illuminator also includes the card being assembled in outside metallic lamp body and the jump ring being assembled in described card one end, and described card, metallic lamp body and face ring connect by connector is fixing.

Further, described illuminator also includes being contained in the reflector in metallic lamp body and between optical-electric module and optical element, and described optical element is diffusion face shield.

Further, described metallic lamp body includes roof and the sidewall downwardly extended from roof, described ring include being positioned at sidewall and with the base portion of sidewall contact and the carrier supporting diffusion face shield, described optical-electric module, reflector and diffusion face shield are between described roof and carrier.

Further, described optical-electric module includes substrate and is arranged at the LED light source on described substrate and drives power supply.

Further, described substrate is provided with through hole, is provided through described through hole the buckle arm coordinated with base board fastener in described insulation bonnet.

Further, described substrate is additionally provided with hole, location, in described insulation bonnet, is additionally provided with the locating dowel coordinated with hole, described location.

Further, described illuminator also includes the keeper that described substrate and described insulation bonnet are fixed connection, is provided with the locating dowel with installing hole in described insulation bonnet, and described keeper is contained in described installing hole through described substrate.

Further, described metallic lamp body realizes being connected by integrated mode with described insulation bonnet.

Further, being provided with passage, location conduit and be provided with fixing arm between passage and location conduit in described insulating lid body, described power line extends described insulation lid by described passage, and described illuminator also includes the keeper being contained in the conduit of location.

Further, described insulation bonnet is provided with a breach, and described power line is provided with the Stress Release portion being contained in described breach and coordinating with described insulation bonnet clamping.

Compared to prior art, metallic lamp body in the illuminator that this utility model provides has the feature of good heat conductivity, optical-electric module is placed in metallic lamp body simultaneously, therefore, when be positioned at metallic lamp body and be positioned on optical-electric module LED light source produce heat time, heat can pass through metallic lamp body and leave rapidly, thus avoiding the temperature in metallic lamp body too high and affecting use quality and the service life of LED light source.Simultaneously as LED light source and driving power supply are integrated on a substrate, having saved the space of illuminator, therefore, the illuminator that this utility model provides also adapts to the trend of miniaturization.

Accompanying drawing explanation

Accompanying drawing described herein is used for providing being further appreciated by of the present utility model, constitutes a part of the present utility model, and schematic description and description of the present utility model is used for explaining this utility model, is not intended that improper restriction of the present utility model.In the accompanying drawings:

The three-dimensional assembly diagram of the illuminator that Fig. 1 provides for this utility model first embodiment；

Another angle three-dimensional assembly diagram of the illuminator that Fig. 2 provides for this utility model first embodiment；

Fig. 3 is the part isometric assembling figure of Fig. 1；

Fig. 4 is the three-dimensional exploded view of Fig. 1；

Fig. 5 is the part isometric assembling figure of Fig. 2；

Fig. 6 is the three-dimensional exploded view of Fig. 2；

Fig. 7 is the profile of line A-A along Fig. 1；

Fig. 8 is the profile of line B-B along Fig. 2；

The three-dimensional assembly diagram of the illuminator that Fig. 9 provides for this utility model the second embodiment；

Another angle three-dimensional assembly diagram of the illuminator that Figure 10 provides for this utility model the second embodiment；

Figure 11 is the part isometric assembling figure of Fig. 9；

Figure 12 is the three-dimensional exploded view of Fig. 9；

Figure 13 is the part isometric assembling figure of Figure 10；

Figure 14 is the three-dimensional exploded view of Figure 10；

Figure 15 is the profile of line C-C along Fig. 9；

Figure 16 is the profile of line D-D along Figure 10；

The three-dimensional assembly diagram of the illuminator that Figure 17 provides for this utility model the 3rd embodiment；

Another angle three-dimensional assembly diagram of the illuminator that Figure 18 provides for this utility model the 3rd embodiment；

Figure 19 is the part isometric assembling figure of Figure 17；

Figure 20 is the three-dimensional exploded view of Figure 17；

Figure 21 is the part isometric assembling figure of Figure 18；

Figure 22 is the three-dimensional exploded view of Figure 18；

Figure 23 is the profile of E-E line along Figure 17.

Detailed description of the invention

For making the purpose of this utility model, technical scheme and advantage clearly, below in conjunction with this utility model specific embodiment and corresponding accompanying drawing, technical solutions of the utility model are clearly and completely described.Obviously, described embodiment is only a part of embodiment of this utility model, rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of this utility model protection.

Fig. 1 to Fig. 8 shows a kind of illuminator 100 that this utility model first embodiment provides.As shown in Figures 1 to 8, this illuminator 100 includes: metallic lamp body 1, it is contained in the optical-electric module 2 in metallic lamp body 1, reflector 3 and diffusion face shield 4, it is assembled in metallic lamp body 1 side and the insulation lid 5 that be connected fixing with optical-electric module 2, be electrically connected to optical-electric module 2 and from insulation the outward extending power line 6 of lid 5, it is assembled in metallic lamp body 1 opposite side and by optical-electric module 2, reflector 3 and diffusion face shield 4 are positioned the face ring 7 in metallic lamp body 1, it is installed on face ring 7 both sides and is respectively provided with two cards 8 of jump ring 9 and by metallic lamp body 1, face ring 7 and fixing two connectors 10 connected of card 8, in preferred implementation of the present utility model, connector 10 is screw.Above-mentioned illuminator 100 can be an embedded LED down lamp for room lighting or shot-light.It should be noted that in other interchangeable embodiments, can only include optical-electric module and lens in the metallic lamp body of illuminator.Diffusion face shield 4 and lens are optical element.

Illustrate below for the annexation between each element and the element in the illuminator 100 that this utility model first embodiment provides.

As shown in Figures 3 to 8, metallic lamp body 1 is in barrel-shaped, and it can be made up of thermal conductive metallic materials such as aluminum, and it has high thermal conductivity.Metallic lamp body 1 includes roof 11 and is vertically extended downwards and be the sidewall 13 of annular by the edge of roof 11.There is the host cavity 14 that can house optical-electric module 2, reflector 3, diffusion face shield 4 and part face ring 7, as shown in Figure 5 in metallic lamp body 1.Concrete, roof 11 is provided with a through hole 111, and by this through hole 111, insulation lid 5 can be connected to optical-electric module 2, as shown in Figures 7 and 8.Sidewall 13 is provided with two the first corresponding circular holes 131, and this first circular hole 131 can allow connector 10 pass through.

As shown in Figures 3 to 8, optical-electric module 2 includes substrate 21, is arranged at the LED light source 22 of substrate 21 side and is arranged at the LED drive power (not shown) of substrate 21 opposite side.One end of power line 6 is soldered on aforesaid substrate 21 and external power source can be transferred to LED drive power, and LED drive power can drive LED light source 22 luminous.LED drive power includes some components and parts, includes but not limited to that LED drives controller chip, rectification chip, resistor, capacitor, electric fuse and coil etc..

Substrate 21 can be a printed circuit board (PCB), with conducting wire (not shown) on it, by above-mentioned conducting wire, it is possible to LED light source 22 and LED drive power is electrically connected.Substrate 21 is additionally provided with three can with insulation three circular locating openings 23 of lid 5 secure fit and two rectangular through-hole 24 so that insulation lid 5 is assembled to the side of metallic lamp body 1.Hole, location 23 is distributed in substrate 21 in triangular shape and runs through two surfaces up and down of substrate 21.LED light source 22 is some LED luminescence units.Preferably, LED light source 22 and LED drive light source can pass through through hole technology (ThroughHoleTechnology, THT) or surface mounting technology (SurfaceMountTechnology, SMT) is electrically connected on substrate 21.LED light source 22 and LED drive power on optical-electric module 2 can be integrated on two surfaces of substrate 21.Such as, LED light source 22 is arranged at the lower surface of substrate 21, and LED drive power is arranged at the upper surface of substrate 21, and the lower surface of substrate 21 is a surface towards diffusion face shield 4.Owing to LED light source 22 and LED drive power are integrated in substrate 21 so that optical-electric module 2 occupies less space, meet small size illuminator and when inner space is limited, LED light source 22 and LED drive power are taken up space little requirement.Driving the form of power supply: can be that part paster is provided with the side of LED light source 22 at substrate 21, the opposite side of substrate 21 is provided with the plug-in type reducing cost and drives the components and parts of power supply；Can also is that substrate 21 is provided with the whole paster in side of LED light source 22, or at the whole plug-in unit of opposite side or part patch portion plug-in unit.

As shown in Fig. 4, Fig. 6 to Fig. 8, reflector 3 is in horn-like, and it has the first relative end 31 and the second end 32, and the opening 311 on the first end 31 is less than the opening 321 of the second end 32.Reflector 3 can be had the plastics of reflection action by Merlon (Polycarbonate, PC) etc. and make, and a part of light that LED light source 22 sends enters diffusingsurface cover 4 after being reflected the reflection of device 3 inner surface.So, the utilization rate of the light that LED light source 22 sends increases.Concrete, reflector 3 is placed between optical-electric module 2 and diffusion face shield 4, and its first end 31 abuts to optical-electric module 2, and its second end 32 abuts to diffusion face shield 4.

As shown in Figures 3 and 4, diffusion face shield 4 is in flattened round shape, and it can be made up of polymethyl methacrylate (Polymethylmethacrylate, PMMA) or Merlon (Polycarbonate, PC) material.The a part of light sent from the LED light source 22 of optical-electric module 2 is reflected into diffusion face shield 4 through the inner surface of reflector 3, and another light sent from LED light source 22 is directly entered diffusion face shield 4.Now, light is diffused and even light by diffusion face shield 4 so that from the diffusion light luminance gone out of face shield 4 uniformly and illumination angle become big, play the effect of Uniform Illumination.It addition, diffusion face shield 4 is insulating part, also function to the effect of electric insulation.

As shown in Fig. 5 to Fig. 8, insulation lid 5 is made of one piece by plastic material, and it is substantially also in barrel-shaped, and its one end is close to the roof 11 of metallic lamp body 1 and is sealed by the through hole 111 on roof 11.Concrete, insulation lid 5 includes a circular top wall 51 and the annular sidewall 52 downwardly extended from circular top wall 51.Being provided with three locating dowels 53 and two buckle arms 54 in insulation lid 5, three locating dowels 53 and two buckle arms 54 downwardly extend by the inner surface of the roof 51 of insulation lid 5 and form.Three locating dowels 53 can coordinate with hole, location 23 grafting on substrate 21, and two buckle arms 54 can pass two through holes 24 on substrate 21 and be clasped with substrate 21.So, can being mutually permanently connected between insulation lid 5 and optical-electric module 2, meanwhile, insulation lid 5 is also close to the roof 11 of metallic lamp body 1.It addition, insulation lid 5 sidewall 52 be provided with one be available for power line 6 extend insulation lid 5 breach 55.

As shown in Fig. 3 to Fig. 7, power line 6 includes wire 61, the insulation being coated on outside wire 61 is outer by 62 and to take shape in insulation outer by the Stress Release portion 63 outside 62.The generally rectangular shaped bulk in Stress Release portion 63, it can be contained in breach 55 and coordinate with sidewall 52 clamping of insulation lid 5.Concrete, the surface in Stress Release portion 63 is provided with the groove 631 of edge mate that can be corresponding with breach 55.One end of power line 6 is soldered to substrate 21, and the other end of power line 6 extends insulation lid 5 and is connected with external power source.

As shown in Fig. 3, Fig. 4, Fig. 7 and Fig. 8, face ring 7 can be made up of metal material, it include being contained in metallic lamp body 1 in vertically circular base portion 71, be arranged at edge part 72 that base portion 71 outer surface is horizontal circle ring-type and be arranged at the carrier 73 that base portion 71 inner surface is horizontal circle ring-type.This carrier 73 supports diffusion face shield 4, and base portion 71 is affixed on metallic lamp body 1 sidewall 13 inner surface.Optical-electric module 2, reflector 3 and diffusion face shield 4 are placed between metallic lamp body 1 roof 11 and the carrier 73 of face ring 7.The base portion 71 of face ring 7 is provided with two the second corresponding circular holes 711, and this second circular hole 711 aligns with the first circular hole 131, it is also possible to allow connector 10 pass through.

As shown in Fig. 1 to Fig. 6 and Fig. 8, card 8 is made up of metal material, its curved lamellar, fits in sidewall 13 outer surface of metallic lamp body 1.Card 8 is provided with two the 3rd corresponding circular holes 81, and the 3rd circular hole 81 and first circular hole the 131, second circular hole 711 can also allow connector 10 pass through.

As shown in Figure 1, Figure 2 and shown in Fig. 8, jump ring 9 is assembled in one end of card 8, and it is also made up of metal material.It is separately installed with two cards 8 of jump ring 9 and is affixed on that the sidewall 13 of metallic lamp body 1 is outer and fixing with metallic lamp body 1 to be connected.By face ring 7, card 8 and jump ring 9, illuminator 100 can be installed on an installation foundation (not shown).

It should be noted that in other interchangeable embodiments, can not also include card in illuminator 100, jump ring can be directly mounted on face ring or metallic lamp body.

In this utility model first embodiment, the connector 10 in illuminator 100 can be screw, and certainly in other interchangeable embodiment, connector 10 is also other location structure.Connector 10 sequentially passes through the 3rd circular hole the 81, first circular hole 131 and the second circular hole 711 makes two cards 8, metallic lamp body 1 and face ring 7 be fixed together.So, it is positioned at the optical-electric module 2 of metallic lamp body 1 host cavity 14, reflector 3 and diffusion face shield 4 and obtains location in the vertical direction.

Fig. 9 to Figure 16 shows a kind of illuminator 100a that this utility model the second embodiment provides.As shown in Fig. 9 to Figure 16, this illuminator 100a includes: metallic lamp body 1a, it is contained in the optical-electric module 2a in metallic lamp body 1a, reflector 3a and diffusion face shield 4a, it is assembled in metallic lamp body 1a side and fixes the insulation lid 5a being connected with optical-electric module 2a, be electrically connected to optical-electric module 2a and from insulation the outward extending power line 6a of lid 5a, it is assembled in metallic lamp body 1a opposite side and by optical-electric module 2a, reflector 3a and diffusion face shield 4a is positioned the face ring 7a in metallic lamp body 1, it is installed on ring 7a both sides, face and is respectively provided with two card 8a of jump ring 9a and by metallic lamp body 1a, face ring 7a and card 8a fixes two connector 10a of connection.Above-mentioned illuminator 100a can be an embedded LED down lamp for room lighting or shot-light.It should be noted that in other interchangeable embodiments, can only include optical-electric module and lens in the metallic lamp body of illuminator.Diffusion face shield 4a and lens are all properly termed as optical element.

Illuminator 100 structure that the structure of the illuminator 100a that this utility model the second embodiment provides provides with first embodiment is essentially identical, for the structure of similar elements, repeats no more herein.

Illuminator 100 structure that the structure of the illuminator 100a that this utility model the second embodiment provides and first embodiment provide is different in that the connected mode that the optical-electric module 2a in illuminator 100a and the connected mode between insulation lid 5a are different from illuminator 100 between optical-electric module 2 and insulation lid 5.Illustrate below for the optical-electric module 2a in illuminator 100a and the connected mode between insulation lid 5a.

As shown in Figure 11 to Figure 16, being realized by some keeper 20a fixing connection between insulation lid 5a and optical-electric module 2a.Concrete, this keeper 20a can be bolt structure.As shown in figure 14, it is provided with the locating dowel 53a with installing hole 531a in insulation lid 5a.Meanwhile, the substrate 21a of optical-electric module 2a is provided with the location hole 23a corresponding with installing hole 531a.Keeper 20a can pass location hole 23a being contained in installing hole 531a, thus what realize between insulation lid 5a and optical-electric module 2a fixing is connected.

Figure 17 to Figure 23 shows a kind of illuminator 100b that this utility model the 3rd embodiment provides.As shown in Figure 17 to Figure 23, this illuminator 100b includes: metallic lamp body 1b, it is contained in the optical-electric module 2b in metallic lamp body 1b, reflector 3b and diffusion face shield 4b, take shape in metallic lamp body 1b side and fix the insulation lid 5b being connected with optical-electric module 2b, be electrically connected to optical-electric module 2b and from insulation the outward extending power line 6b of lid 5b, it is assembled in metallic lamp body 1b opposite side and by optical-electric module 2b, reflector 3b and diffusion face shield 4b is positioned the face ring 7b in metallic lamp body 1b, it is installed on ring 7b both sides, face and is respectively provided with two card 8b of jump ring 9b and by metallic lamp body 1b, face ring 7b and card 8b fixes two connector 10b of connection.Above-mentioned illuminator 100b can be an embedded LED down lamp for room lighting or shot-light.It should be noted that in other interchangeable embodiments, can only include optical-electric module and lens in the metallic lamp body of illuminator.Diffusion face shield 4b and lens are and are properly termed as optical element.

Component structure in the illuminator 100 that component structure in the illuminator 100b that this utility model the 3rd embodiment provides and first embodiment provide is essentially identical, and the two is different in that the connection matching relationship that the metallic lamp body 1b in illuminator 100b and the connection matching relationship between insulation lid 5b are different from illuminator 100 between metallic lamp body 1 and insulation lid 5.

As shown in figure 23, in the present embodiment, insulation lid 5b is shaped in one end of metallic lamp body 1b, and makes insulation lid 5b and metallic lamp body 1b form an entirety, and so, the connection between insulation lid 5b and metallic lamp body 1b is more firm.

As shown in Figure 22 and 23, it also differ in that between the illuminator 100 that the structure of the illuminator 100b that this utility model the 3rd embodiment provides and first embodiment provide, it is provided with between the passage 55b vertically extending and being arranged side by side and location conduit 56b, passage 55b and location conduit 56b in insulation lid 5b and is provided with fixing arm 57b.Illuminator 100b also includes the keeper 20b that can be contained in the conduit 56b of location.

As shown in figure 20, optical-electric module 2b is provided with and is available for the keeper 20b through hole 25b passed through, and so, keeper 20b can pass optical-electric module 2b and be contained in location conduit 56b.When keeper 20 is progressively contained in location conduit 56b, keeper 20b can drive fixing arm 57b to make fixing arm 57b oppress power line 6b and interfere with power line 6b to passage 55b mono-side shifting so that a part of power line 6b is positioned in the passage 55b of insulation lid 5b.So, when power line 6b is pullled, not easily it is subjected to displacement between power line 6b and optical-electric module 2b or loosens.It should be noted that this keeper 20b can be screw.

Additionally, as shown in figure 19, insulation lid 5b sidewall is provided with the depressed part 58b connected with passage 55b.It should be noted that depressed part 58b is short in length compared with passage 55b of the length of vertical direction.Therefore, this depressed part 58b connects with passage 55b and forms L-shaped channel, therefore, extends and extends insulation lid 5b after the power line 6b of passage 55b can bend in the horizontal direction.Certainly, power line 6b can also vertically extend insulation lid 5b, and extends outward insulation lid 5b within the scope of 90 degree formed in the horizontal direction and between vertical direction.

Compared to prior art, metallic lamp body in the illuminator that this utility model provides has the feature of good heat conductivity, optical-electric module is placed in metallic lamp body simultaneously, therefore, when being positioned at the LED light source generation heat that metallic lamp body is positioned on optical-electric module, heat can pass through metallic lamp body and leave rapidly, thus avoiding the temperature in metallic lamp body too high and affecting use quality and the service life of LED light source.Simultaneously as LED light source and driving power supply are integrated on a substrate, having saved the space of illuminator, therefore, the illuminator that this utility model provides also adapts to the trend of miniaturization.

Above-described instantiation; the purpose of this utility model, technical scheme and beneficial effect have been further described; it is it should be understood that; the foregoing is only specific embodiment of the utility model; it is not limited to this utility model; all within spirit of the present utility model and principle, any amendment of making, equivalent replacement, improvement etc., should be included within protection domain of the present utility model.

Claims (13)

1. an illuminator, it is characterized in that: it includes metallic lamp body, it is contained in the optical-electric module in described metallic lamp body and optical element, is assembled in the side of described metallic lamp body and fixes the insulation bonnet being connected with described optical-electric module and be electrically connected to described optical-electric module and extend the power line of described insulation bonnet.

2. illuminator as claimed in claim 1, it is characterised in that described illuminator also includes the face ring being assembled in described metallic lamp body opposite side and the connector that described metallic lamp body and face ring are fixed connection.

3. illuminator as claimed in claim 1, it is characterised in that described illuminator also includes the jump ring being assembled in metallic lamp body or face ring.

4. illuminator as claimed in claim 2, it is characterised in that described illuminator also includes the card being assembled in outside metallic lamp body and the jump ring being assembled in described card one end, described card, metallic lamp body and face ring connect by connector is fixing.

5. illuminator as claimed in claim 2, it is characterised in that described illuminator also includes being contained in the reflector in metallic lamp body and between optical-electric module and optical element, described optical element is diffusion face shield.

6. illuminator as claimed in claim 5, it is characterized in that, described metallic lamp body includes roof and the sidewall downwardly extended from roof, described ring include being positioned at sidewall and with the base portion of sidewall contact and the carrier supporting diffusion face shield, described optical-electric module, reflector and diffusion face shield are between described roof and carrier.

7. the illuminator as described in any one in claim 1 to 6, it is characterised in that described optical-electric module includes substrate and is arranged at the LED light source on described substrate and drives power supply.

8. illuminator as claimed in claim 7, it is characterised in that described substrate is provided with through hole, is provided through described through hole the buckle arm coordinated with base board fastener in described insulation bonnet.

9. illuminator as claimed in claim 8, it is characterised in that be additionally provided with hole, location on described substrate, be additionally provided with the locating dowel coordinated with hole, described location in described insulation bonnet.

10. illuminator as claimed in claim 7, it is characterized in that, described illuminator also includes the keeper that described substrate and described insulation bonnet are fixed connection, is provided with the locating dowel with installing hole in described insulation bonnet, and described keeper is contained in described installing hole through described substrate.

11. the illuminator as described in any one in claim 1 to 6, it is characterised in that described metallic lamp body realizes being connected by integrated mode with described insulation bonnet.

12. illuminator as claimed in claim 11, it is characterized in that, it is provided with passage, location conduit in described insulating lid body and is provided with fixing arm between passage and location conduit, described power line extends described insulation lid by described passage, and described illuminator also includes the keeper being contained in the conduit of location.

13. the illuminator as described in any one in claim 1 to 6, it is characterised in that described insulation bonnet is provided with a breach, described power line is provided with the Stress Release portion being contained in described breach and coordinating with described insulation bonnet clamping.