CN205717008U - Delineascope - Google Patents

Abstract

This application discloses a kind of delineascope, including: there is the hollow lamp housing of the opening being formed at end；Power supply adaptor, is arranged in lamp housing, and is connected with external power source by the second end of lamp housing；Lighting module, is arranged in lamp housing, and including circuit board and multiple light emitting diode, circuit board electrically connects with power supply adaptor, and multiple light emitting diodes are electrically installed on circuit boards with luminous when delineascope is opened；Lens, are arranged on lamp housing opening part so that its injection of the light transmission that multiple light emitting diodes send；And adjusting part, it has regulation ring and controller, regulation ring being arranged on lamp housing neighboring from the first end to the longitudinal axis of the second end around lamp housing, operator can make it rotate around longitudinal axis from lamp housing peripheral operation regulation ring, controller is arranged in lamp housing, electrically connect with lighting module and couple with regulation ring, when regulating ring and rotating, the light-emitting mode rotating the multiple light emitting diodes of regulation of controller response regulation ring.

Description

Delineascope

Technical field

This utility model relates to a kind of delineascope.

Background technology

Delineascope is usually used in the places such as stage to produce the illumination atmosphere of change.Existing delineascope generally includes motor and shot-light part, and wherein shot-light part generally includes lamp housing, lighting module and lens.Lighting module and lens are all arranged on lamp housing, and lighting module sends light beam towards lens.Motor can drive shot-light to rotate or swing and produce different illuminating effects.

But, the once installation of existing delineascope, usually can only produce predetermined illuminating effect by the diverse location rotating or swinging of motor.Such delineascope in use can only illuminate in a predetermined pattern, and lighting effect is the most single and can not regulate in real time according to field condition.

This area wish to obtain a kind of can the delineascope of easily real-time live regulation light illumination mode.

Utility model content

In order to solve above-mentioned technical problem, this utility model provides a kind of novel delineascope, including:

The lamp housing of hollow, has the opening being formed at end；

Power supply adaptor, is arranged in described lamp housing, and is connected with external power source by the second end of described lamp housing；

Lighting module, is arranged in described lamp housing, and it has:

Circuit board, electrically connects with described power supply adaptor；

Multiple light emitting diodes, are electrically arranged on described circuit board, in order to luminous when described delineascope is opened；

Lens, are arranged on the opening part of described lamp housing so that the light transmission that sends of the plurality of light emitting diode itself and penetrate；

Adjusting part, it has:

Regulation ring, being arranged on the neighboring of described lamp housing from the first end to the longitudinal axis of the second end around described lamp housing, and can around described fore-aft axis,

Controller, is arranged in described lamp housing, electrically connects with described lighting module and couples with described regulation ring, and when described regulation ring is rotated, described controller is in response to the light-emitting mode rotating the plurality of light emitting diode of regulation of described regulation ring.

By having the adjusting part of the regulation ring on the neighboring being arranged on lamp housing, operator can easily adjust the light-emitting mode of the light emitting diode in described delineascope near delineascope, thus be conveniently adjusted the light illumination mode of delineascope.Such as, by adjusting part, the brightness of projecting light, color etc. can be directly adjusted near lamp housing by operator easily.Operator passes through rotating adjustment ring, by means of the color of adjusting part regulation light, thus can realize different colored light efficiencies, such as kaleidoscope, flicker starry sky, ice cloud crystal, volcanic cloud etc..

In the preferred scheme of one, described adjusting part also includes regulating shifting part, and it is arranged between described regulation ring and described controller, and engages with them；The rotation of described regulation ring causes described regulation shifting part to move, thus actuates the control switch being arranged on described controller so that described controller regulates the light-emitting mode of the plurality of light emitting diode.

In the preferred scheme of one, described regulation ring can be around described longitudinal axis bidirectional rotation.By such bidirectional rotation, the light illumination mode of delineascope can the most back and forth adjust.

In the preferred scheme of one, described regulation shifting part includes the first side leg, the second side leg and intermediate support leg, described first side leg and the second side leg are symmetrical about described intermediate support leg, and this regulation shifting part is between described first side leg and the second side leg and the end of described intermediate support leg is pivotally mounted on the inwall of described lamp housing so that it can swing around the regulation pivot parallel with the longitudinal axis of described lamp housing；Wherein, described first side leg and the second side leg control switch with described the first control switch and second controlled in switch respectively and engage, the second end of described intermediate support leg pass the notch outputed on the wall of described lamp housing highlight and with described regulation engagement of loops；

Wherein, the rotation of described regulation ring can actuate the second end of described intermediate support leg, described regulation shifting part is pivoted around described regulation pivot, causes described first side leg or the second side leg to actuate described the first of described controller respectively and control switch or the second control switch.

In the preferred scheme of one, described regulation ring includes setting within it on periphery and spaced apart multiple projections, when described regulation ring rotates, the plurality of protruding can sequentially with the second end in contact of described intermediate support leg, thus actuate the pivot of described regulation shifting part.

In the preferred scheme of one, described regulation ring is arranged in the recess being formed on described lamp housing neighboring so that the neighboring of described regulation ring and described lamp housing form substantially continuous smooth outer surface.Thus achieve the profile of the substantially smooth of lamp housing and streamline.

In the preferred scheme of one, the neighboring of described regulation ring is provided with the surface character being easy to grasp.

In the preferred scheme of one, described regulation ring is arranged between the opening of described lamp housing and described lens.Advantageously, regulation ring is arranged on other position of lamp housing neighboring also dependent on the requirement of lamp housing moulding or other side.

In the preferred scheme of one, the second end of described lamp housing is sealed and installed with metal screws socket.Such metal screws socket makes described delineascope can use on the interface of any coupling.

Waterproof seal in the preferred scheme of one, between also including the waterproof seal being arranged between described adjusting part and described lamp housing and being arranged on the opening of described lens and described lamp housing.These sealing members contribute to realizing the water proofing property that lamp housing is overall so that it can use out of doors the most under water.

In the preferred scheme of one, described delineascope also includes:

Being arranged on the motor in described lamp housing, be positioned at the side contrary with described opening of described lighting module, described motor is electrically connected with described power supply adaptor and has the motor drive shaft extended towards described opening；Wherein, described circuit board has opening, and but described motor drive shaft is through described opening not in contact with described circuit board；And

Multiaspect refractor, it is fixed on around described motor drive shaft, in described lamp housing between described lighting module and described opening, described multiaspect refractor has multiple multi-angle refraction convex lens, and they are formed in the one side away from described lighting module of this multiaspect refractor.

In the preferred scheme of one, delineascope lens are beam splitting lens, and have multiple multi-angle refraction convex lens, and they are formed in the one side towards described multiaspect refractor of described beam splitting lens.

In both schemes, by described motor and the multiaspect refractor being arranged in lamp housing, the light beam that light emitting diode is launched can dissipate at different angles by being reflected by multiaspect refractor and cover bigger region.And the multi-angle refraction convex lens of the beam splitting lens at socket reflects the light by beam splitting lens further out so that the light beam reflected by beam splitting lens can be covered bigger region at different angles and outwards project.Meanwhile, by the multiaspect refractor rotated and the light emitting diode of beam scintillation in different colors, delineascope can produce the light efficiency of the similar kaleidoscope of various excellence, flicker starry sky, ice cloud crystal, volcanic cloud etc..

In the preferred scheme of one, described beam splitting lens is hemispherical beam splitting lens.

In the preferred scheme of one, delineascope also includes the division board being arranged between described lighting module and described motor, and described division board has plate hole, and described motor drive shaft through described plate hole and does not contacts with described plate hole.By this division board, motor can not be affected by high temperature produced by operating light emitting diode.

In the preferred scheme of one, described lighting module has memory function so that the light penetrated from described opening when being re-energised after described delineascope power-off is identical with the light of injection before power-off.

In the preferred scheme of one, by rotating described regulation ring, it is possible to regulate the characteristics such as the brightness of described delineascope, glow color.

The invention also discloses a kind of delineascope, including:

The lamp housing of hollow, has the opening being formed at end；

Power supply adaptor, is arranged in described lamp housing, and is connected with external power source by the second end of described lamp housing；

Lighting module, is arranged in described lamp housing, and it has:

Circuit board, electrically connects with described power supply adaptor；

Multiple light emitting diodes, are electrically arranged on described circuit board, in order to luminous when described delineascope is opened；

Lens, are arranged on the opening part of described lamp housing so that the light transmission that sends of the plurality of light emitting diode itself and penetrate；

Adjusting part, it has:

Regulation ring, operator is operable to described regulation ring makes it rotate,

Controller, wired or wirelessly couples with described lighting module and described regulation ring, and when described regulation ring is rotated, described controller is in response to the light-emitting mode rotating the plurality of light emitting diode of regulation of described regulation ring.

In a kind of preferably scheme of above-mentioned delineascope, described adjusting part positions away from the lamp housing of described hollow.

Accompanying drawing explanation

In an illustrative manner, described more fully an embodiment of the disclosure hereinafter with reference to accompanying drawing, in the accompanying drawings:

Fig. 1 is the overall perspective of an embodiment of the delineascope of the application.

Fig. 2 is the partial sectional view of an embodiment of the delineascope of the application.

Fig. 3 is the explosive view of the delineascope shown in Fig. 2.

Fig. 4 is the perspective view of the delineascope shown in Fig. 2 and 3, wherein removes lens.

Fig. 5 is the top view removing delineascope after lens shown in Fig. 4.

Fig. 6 is the perspective view of an embodiment of the regulation ring of the delineascope of the application.

Fig. 7 shows the control switch in an embodiment of the adjusting part of the delineascope of the application and regulation shifting part.

Fig. 8 shows the multiaspect refractor in an embodiment of the delineascope of the application and circuit board.

Detailed description of the invention

Describe an exemplary embodiment of the disclosure referring now to accompanying drawing, use similar reference number to represent similar element the most all the time.In the following description, for purposes of explanation, elaborate that many details are to provide thorough understanding of the present disclosure.But, the disclosure can be implemented in the case of not having these details, and is not limited to exemplary embodiments disclosed herein.

As Figure 1-3, this application provides a kind of delineascope 100, it includes the lamp housing 12 of hollow, and lamp housing 12 has the opening 120 being formed at end.Power supply adaptor 11 is arranged in described lamp housing 12, and is connected with external power source by the second end of described lamp housing 12.Lighting module 6 is arranged in described lamp housing 12, and has: the circuit board 61 electrically connected with power supply adaptor 11；With multiple light emitting diodes 62, they are electrically arranged on described circuit board 61, in order to luminous when described delineascope 100 is opened.Lens 1 are arranged at the opening 120 of lamp housing 12 so that the light transmission that sends of multiple light emitting diode 62 itself and penetrate.

Delineascope 100 includes adjusting part 9, and it has regulation ring 91, and operator can be from lamp housing 12 peripheral operation regulation ring 91 rotating from the first end to the longitudinal axis of the second end about lamp housing 12.Adjusting part 9 also includes controller 93, and this controller 93 electrically connects with lighting module 6 and couples with regulation ring 91, and when regulating ring 91 and being rotated, controller 93 is in response to the light-emitting mode rotating the multiple light emitting diodes 62 of regulation of regulation ring 91.

In one embodiment, regulation ring 91 being arranged on the neighboring of lamp housing 12 from the first end to the longitudinal axis of the second end around lamp housing 12.

In one embodiment, controller 93 is arranged on lamp housing 12 inside.

In a preferred embodiment, adjusting part 9 also includes regulating actuator, and this regulation actuator carrys out the regulation action of mechanically actuator control 93 in response to the rotation regulating ring 91.Regulation actuator can be the form of regulation shifting part 92.This regulation shifting part 92 is arranged between regulation ring 91 and controller 93, and engages with them；The rotation of regulation ring 91 causes regulating shifting part 92 and moves, thus actuates the control switch 931 being arranged on controller 93 so that controller 93 regulates the light-emitting mode of multiple light emitting diode 62.In one embodiment, controlling switch 931 can fix by controlling switch fixture 9311, and this control switchs fixture 9311 and can such as be connected on the inwall of lamp housing 12 or form with the inside of lamp housing 12.Specifically, by rotating adjustment ring 91, it is possible to the multifrequency nature of regulation delineascope 100, such as brightness, glow color etc..Such regulation can be continuous print, it is possible to for intermittent.

Figure 4 and 5 more clearly illustrate the structure of adjusting part 9.

In a preferred embodiment, regulation ring 91 can be around longitudinal axis bidirectional rotation.By such bidirectional rotation, the light illumination mode of delineascope 100 can the most back and forth adjust.

Regulation shifting part 92 can include the first side leg the 921, second side leg 922 and intermediate support leg 923, first side leg 921 and the second side leg 922 can be symmetrical about intermediate support leg 923, and this regulation shifting part 92 is pivotally mounted on the inwall of lamp housing 12 between the first side leg 921 and the second side leg 922 and at the first end 9231 of intermediate support leg 923 so that it can swing around the regulation pivot 121 parallel with the longitudinal axis of lamp housing；Wherein, the first side leg 921 controls switch 931a and second control switch 931b respectively and engages with the second side leg 922 with first controlled in switching, and the second end 9232 of intermediate support leg 923 passes the notch 15 outputed on the wall of lamp housing and highlights and engage with regulation ring 91.The rotation of regulation ring 91 can actuate the second end of intermediate support leg 923, make to regulate shifting part 92 to pivot around regulation pivot 121, cause the first control switch 931a or second of the first side leg 921 or the second side leg 922 actuator control 93 respectively to control switch 931b.

In one embodiment, regulation ring 91 can include setting within it on periphery and spaced apart multiple protruding 911.When regulating ring 91 and rotating, multiple protruding 911 can sequentially touch with the second end 9232 of intermediate support leg 923, thus actuate the pivot of regulation shifting part 92.

By above-mentioned regulation ring 91 and the structure of regulation shifting part 92, can realize changing the rotary motion of 91 by regulation mechanically to actuate regulation shifting part 92 and move, and and then mechanically corresponding on actuator control 93 controls switch 931a, 931b, thus promote controller that light emitting diode 62 is adjusted.

In one embodiment, regulation ring 91 is arranged in the recess 14 on the neighboring being formed at lamp housing 12 so that the neighboring of regulation ring 91 forms substantially continuous smooth outer surface with the neighboring of lamp housing 12.Thus achieve the profile of the substantially smooth of lamp housing and streamline.

The neighboring of regulation ring 91 is also provided with the surface character 912 being easy to grasp.

In one embodiment, regulation ring 91 is arranged between the opening 120 of lamp housing and lens 1.

Second end of lamp housing 12 is salable is provided with metal screws socket 13.Such metal screws socket 13 is arranged so that delineascope 100 can use on the interface of any coupling.

Delineascope 100 may also include the waterproof seal between the waterproof seal being arranged between adjusting part 9 and lamp housing 12 and the opening 120 being arranged on lens 1 and lamp housing 12.By the sealing member installed rightly, delineascope 100 can realize integral waterproofing so that it can use out of doors the most under water.

Motor 7 may be installed in the space within lamp housing 12, is electrically connected with power supply adaptor 11, and has the motor drive shaft 71 of opening 120 towards lamp housing 12.Lighting module 6 is arranged in the inner space of lamp housing 12, is positioned at the front (i.e. towards the direction of opening 120 of lamp housing 12) of motor 7, is arranged on motor drive shaft 71 around.Circuit board 61 is electrically connected with power supply adaptor 11, and has the hole 611 formed by circuit board 61.Circuit board 61 is arranged on around motor drive shaft 71 by circuit board apertures 611, but does not contact motor drive shaft 71.Light emitting diode 62 can launch the light beam of different colours, and is electrically arranged on the side away from motor 7 of circuit board 61, or on the side contrary with motor 7.Circuit board 61 can control the light-emitting mode of light emitting diode 62, such as flash pattern or normal mode.Power supply adaptor 11 provides power for lighting module 6 and motor 7.

In one embodiment, division board can be installed between lighting module 6 and motor 7, in order to make motor 7 not affected by high temperature produced by operating light emitting diode 62.Division board on the side towards motor 7 of circuit board 61, or can be fixed in lamp housing 12 on the side towards circuit board 61 of motor 7.Division board has the plate hole formed by this division board.Division board is arranged on around motor drive shaft by plate hole, and is fixed on the side towards motor 7 of circuit board 61.

Multiaspect refractor 5 is rotatably installed in the inner space of lamp housing 12, is arranged on around motor drive shaft 71 and is fixed on motor drive shaft 71, and being positioned at the front of lighting module 6.Multiaspect refractor 5 has multiple multi-angle refraction convex lens 51, and they are formed at the front side of the multiaspect refractor 5 away from lighting module 6.Multiaspect refractor 5 can be driven rotation by the motor drive shaft 71 of motor 7.

In one embodiment, the lens 1 of delineascope 100 can be that beam splitting lens, i.e. beam splitting lens 1 are arranged on the opening 120 of lamp housing 12.Beam splitting lens 1 can engage with lamp housing 12, is adhered on lamp housing 12, or is combined with lamp housing 12 by screw thread.Beam splitting lens 1 can be plane, hemispheric, or other suitable shape.In the case of beam splitting lens 1 is hemispheric, it has multiple multi-angle refraction convex lens 111, and they are formed on the rear side towards multiaspect refractor 5 of hemispherical beam splitting lens 1.

Waterproof washer 2 may be installed between the opening 120 of beam splitting lens 1 and lamp housing 12, enters the inner space of lamp housing 12 to prevent water from dividing.

In use, delineascope 100 is engaged with the external power source interface of any coupling by metal screws socket 13.Alternating current from external power source can be converted into unidirectional current by power supply adaptor 11, in order to supply power to motor 7 and lighting module 6.Light emitting diode 62 can be launched the light beam of different colours and to reflect convex lens 51 through the multi-angle of multiaspect refractor 5.Meanwhile, the motor drive shaft 71 of motor 7 drives multiaspect refractor 5 to rotate.When light is projected through multiaspect refractor 5, light can be refracted again, and mixing forms the light beam of different colours further.

Light beam (monochromatic or polychromatic light) further passs through the multi-angle refraction convex lens 111 of beam splitting lens 1, and reflects further out by beam splitting lens 1.The light beam reflected by beam splitting lens 1 can be covered bigger region at different angles and outwards project.Meanwhile, by the multiaspect refractor 5 rotated and the light emitting diode 62 of beam scintillation in different colors, delineascope can produce the similar kaleidoscope of various excellence, flash starry sky, ice cloud crystal, the light efficiency of volcanic cloud etc..

In one embodiment, lighting module 6 has memory function so that identical with the light of injection before power-off from the light of opening 120 injection when being re-energised after delineascope 100 power-off.

In one embodiment, adjusting part 9 also can position away from the lamp housing 12 of hollow.Such as, regulation ring 91 is not on lamp housing, but is located remotely from lamp housing 12 but on body of wall convenient to operate, control station.In this case, the light-emitting mode of delineascope 100 in the suitable position away from delineascope 100, can be regulated by regulation regulation ring 91.

Delineascope can be applied to various indoor or exterior product the most independently or in combination.Such as delineascope can be independently used as stage lighting, or is applied to street lamp or inflation dress ornament, forms dynamic cloud effect, or can be built in different cartoon figures or other arbitrary objects and different dazzle beautiful effect realizing.Such as, delineascope may be installed inside transparent or translucent lampshade, engages the pattern realizing outwards projection or the pattern projected backward with this lampshade.Delineascope may be installed to be had in difform inflation dress ornament or other any object.

By such delineascope, the LED light of different colours can reflect to form colourama through too much stricture of vagina dioptric lens plate.The focusing light that the light of mixing produces different angles via the one beam splitting lens that multi-angle polylith convex lens forms casts out, and defines the light efficiency of similar colorful fortune effect.Rotate many stricture of vaginas dioptric lens plate and then can form dynamic many bright clouds lamp effect.The LED of difformity and the beam splitting lens of position and different colours can produce different dynamic luminous efficiencies.

Although the disclosure being shown and described being considered the content of most practical exemplary embodiment the most in this article, but it can having been implemented with other concrete form.Think that presently disclosed embodiment is illustrative and not restrictive the most in all fields.The scope of the present disclosure is indicated by appended claim rather than description before, and being changed in its implication and scope and equivalent that fall is intended to be included within wherein.

Claims (18)

1. a delineascope, including:

The lamp housing of hollow, has the opening being formed at end；

Power supply adaptor, is arranged in described lamp housing, and is connected with external power source by the second end of described lamp housing；

Lighting module, is arranged in described lamp housing, has:

Circuit board, electrically connects with described power supply adaptor；

Multiple light emitting diodes, are electrically arranged on described circuit board, with luminous when described delineascope is opened；

Lens, are arranged on the opening part of described lamp housing, the light transmission that the plurality of light emitting diode sends itself and penetrate；

Adjusting part, it has:

Regulation ring, being arranged on the neighboring of described lamp housing from the first end to the longitudinal axis of the second end around described lamp housing, and can around described fore-aft axis,

Controller, is arranged in described lamp housing, electrically connects with described lighting module and couples with described regulation ring, it is possible in response to the light-emitting mode rotating the plurality of light emitting diode of regulation of described regulation ring.

2. delineascope as claimed in claim 1, it is characterised in that described adjusting part also includes regulating shifting part, and it is arranged between described regulation ring and described controller, and engages with them；The rotation of described regulation ring causes described regulation shifting part to move, thus actuates the control switch being arranged on described controller.

3. delineascope as claimed in claim 1, it is characterised in that described regulation ring can be around described longitudinal axis bidirectional rotation.

4. delineascope as claimed in claim 2, it is characterized in that, described regulation shifting part includes the first side leg, the second side leg and intermediate support leg, described first side leg and the second side leg are symmetrical about described intermediate support leg, and this regulation shifting part is between described first side leg and the second side leg and the end of described intermediate support leg is pivotally mounted on the inwall of described lamp housing so that this regulation shifting part can swing around the regulation pivot parallel with the longitudinal axis of described lamp housing；Wherein, described first side leg and the second side leg control switch with described the first control switch and second controlled in switch respectively and engage, second end of described intermediate support leg passes the notch outputed on the wall of described lamp housing and highlights such that it is able to described regulation engagement of loops；

Wherein, the rotation of described regulation ring can actuate the second end of described intermediate support leg, described regulation shifting part is pivoted around described regulation pivot, causes described first side leg or the second side leg to actuate described the first of described controller respectively and control switch or the second control switch.

5. delineascope as claimed in claim 4, it is characterized in that, described regulation ring includes setting within it on periphery and spaced apart multiple projections, when described regulation ring rotates, the plurality of protruding can sequentially with the second end in contact of described intermediate support leg, thus actuate the pivot of described regulation shifting part.

6. delineascope as claimed in claim 5, it is characterised in that described regulation ring is arranged in the recess being formed on described lamp housing neighboring so that the neighboring of described regulation ring forms continuous print smooth outer surface with described lamp housing.

7. delineascope as claimed in claim 6, it is characterised in that the neighboring of described regulation ring is provided with the surface character being easy to grasp.

8. delineascope as claimed in claim 1, described regulation ring is arranged between the opening of described lamp housing and described lens.

9. delineascope as claimed in claim 1, the second end of described lamp housing is sealed and installed with metal screws socket.

10. delineascope as claimed in claim 9, it is characterised in that the waterproof seal between also including the waterproof seal being arranged between described adjusting part and described lamp housing and being arranged on the opening of described lens and described lamp housing.

11. delineascopes as described in any one in claim 1-10, it is characterised in that described delineascope also includes:

Being arranged on the motor in described lamp housing, be positioned at the side contrary with described opening of described lighting module, described motor is electrically connected with described power supply adaptor and has the motor drive shaft extended towards described opening；Wherein, described circuit board has opening, and described motor drive shaft is through described opening but does not contact described circuit board；And

Multiaspect refractor, it is fixed on around described motor drive shaft, in described lamp housing between described lighting module and described opening, described multiaspect refractor has multiple multi-angle refraction convex lens, and they are formed in the one side away from described lighting module of this multiaspect refractor.

12. delineascopes as claimed in claim 11, it is characterised in that delineascope lens are beam splitting lens, and there is multiple multi-angle refraction convex lens, they are formed in the one side towards described multiaspect refractor of described beam splitting lens.

13. delineascopes as claimed in claim 12, it is characterised in that described beam splitting lens is hemispherical beam splitting lens.

14. delineascopes as claimed in claim 11, it is characterised in that also including the division board being arranged between described lighting module and described motor, described division board has plate hole, described motor drive shaft through described plate hole and does not contacts with described plate hole.

15. delineascopes as described in any one in claim 1-10, it is characterised in that described lighting module has memory function so that the light penetrated from described opening when being re-energised after described delineascope power-off is identical with the light of injection before power-off.

16. delineascopes as described in any one in claim 1-10, it is characterised in that by rotating described regulation ring, it is possible to regulate the brightness of described delineascope, glow color characteristic.

17. 1 kinds of delineascopes, including:

The lamp housing of hollow, has the opening being formed at end；

Power supply adaptor, is arranged in described lamp housing, and is connected with external power source by the second end of described lamp housing；

Lighting module, is arranged in described lamp housing, and it has:

Circuit board, electrically connects with described power supply adaptor；

Multiple light emitting diodes, are electrically arranged on described circuit board, in order to luminous when described delineascope is opened；

Lens, are arranged on the opening part of described lamp housing so that the light transmission that sends of the plurality of light emitting diode itself and penetrate；

Adjusting part, it has:

Regulation ring, operator is operable to described regulation ring makes it rotate,

Controller, wired or wirelessly couples with described lighting module and described regulation ring, and described controller can be in response to the light-emitting mode rotating the plurality of light emitting diode of regulation of described regulation ring.

18. delineascopes as claimed in claim 17, it is characterised in that described adjusting part positions away from the lamp housing of described hollow.