CN106597787A - Projector combined type optical color wheel device - Google Patents

Abstract

The invention discloses a projector combined type optical color wheel device which comprises a substrate, a light transmission material, a counterweight sheet material and a glass phosphor body. The glass phosphor body comprises a light transmission area. The light transmission material is fixedly arranged in the light transmission area; the counterweight sheet material is attached on the light transmission material; and the glass phosphor body neighbors the substrate. According to the invention, the density of the counterweight sheet material is different from that of the light transmission material and the light matting property is unlike that of the substrate so as to achieve the effect of both counterweight and time sequence marking and solve the problem with the increase in the working procedures when needed to be externally provided with a counterweight and time sequence marking and the problem with the proneness to come off during the high speed rotation of a color wheel by providing a projector combined type optical color wheel device with simplified procedures and enhanced production performance.

Description

Scialyscope combined optical color wheel device

Technical field

The present invention relates to the device photographed, show or watch or equipment, more particularly to a kind of energy Simplify the scialyscope combined optical color wheel device of production process.

Background technology

The most digital optical processing technique (DLP) developed using moral instrument of existing scialyscope, Which reaches the purpose of color separation with the colour wheel of one rotation of light irradiation, recycles the original of persistence of vision Reason allows the vision of the mankind to produce the combination of shades of colour.

As shown in Figure 10, Figure 11 and Figure 12, existing colour wheel 70 includes a silica gel phosphor body 71 and a light transmissive material 73；Wherein, the shape on the surface in the way of being coated with of silica gel phosphor body 71 A transparent area 712, light transmissive material are formed into more than one chromatic zones 711 and in the way of hollow out 73 transparent areas 712 for being embedded at silica gel phosphor body 71；Existing colour wheel 70 is installed in a motor And in a sequential mark 74 of the motor outer wall attaching black for rotating, in order to calculate, control colour wheel 70 rotating speed, existing scialyscope can project a sensing light, when sensing light is radiated at black Sequential mark 74 on and when being absorbed, scialyscope can the different reflected signals of identification, therefore energy Learn the relative position of other chromatic zoneses 711, and thus calculating, control the rotating speed of colour wheel 70.

Simply existing colour wheel 70 due to silica gel phosphor body 71 it is different from the proportion of light transmissive material 73, Have when colour wheel 70 rotates dynamic balancing it is not good cause noise to produce, mechanical shock and motor hold Flimsy problem, it is therefore desirable to arrange more than one counterweight 75 to keep balance when rotating, But the extra counterweight 75 for arranging increased colour wheel making operation, when rotating also easily with throwing Other components of shadow machine are interfered, and are even had counterweight 75 in the case where colour wheel 70 is rotated and are subjected to Centrifugal action and the problem deviate from；Furthermore, existing colour wheel 70 is pasted in the motor outer wall for rotating The sequential mark 74 of one black, except needing to add one stickup sequential mark 74 in making Program outside, with viscose glue attach sequential mark 74 when colour wheel 70 is rotated, equally have de- The problem for falling, it follows that existing colour wheel 70 is still made progress and the space for improving in structure.

The content of the invention

In order to solve counterweight set by existing colour wheel and sequential mark on manufacturing process caused by Operation increase and colour wheel run up it is lower hold caducous problem, the present invention arranges a density not It is same as the counterweight sheet material of light transmissive material to replace the counterweight and sequential mark installed by existing colour wheel, In addition to it can simplify the operation of colour wheel making, improve production capacity, counterweight or sequential note can also be avoided Number problem for coming off when rotated.

The present invention solves the scialyscope combined optical color wheel device proposed by technical problem, its bag Include：

One glass phosphor body, which is the plate body for having photic fluorescent property, and the glass phosphor body has One axle center and an installation hole, a transparent area and at least one chromatic zones are included, the installation hole sets In the axle center of the glass phosphor body, the transparent area is the breach for connecting the installation hole, described Chromatic zones is arranged around the installation hole；

At least one film plating layer body, which is adjacent with the glass phosphor body；

One light transmissive material, which is fixedly arranged on the transparent area；And

One counterweight sheet material, its density are different from the light transmissive material, and it is saturating that the counterweight sheet material is incorporated into this Luminescent material.

Preferably, described scialyscope combined optical color wheel device, wherein described weight stack Material is the lamellar body of stainless steel.

Preferably, described scialyscope combined optical color wheel device, wherein described chromatic zones It is provided with two and color is different.

Preferably, described scialyscope combined optical color wheel device, wherein described glass firefly The transparent area of body of light includes two installing sides；The profile of the light transmissive material be set to sector and One first arc and two basic change side are included, the two of the light transmissive material is consolidated in the printing opacity with reference to side The two installing sides in area；The counterweight sheet material is attached at the light transmissive material, the wheel of the counterweight sheet material Wide is in fan-shaped and with one first arc, radius and the light transmissive material of the first arc of the counterweight sheet material The first arc radius it is equal, the first arc of the counterweight sheet material aligns the first arc of the light transmissive material.

Preferably, described scialyscope combined optical color wheel device, which is further provided with and institute State the adjacent substrate of glass phosphor body, the substrate there is an axle center and include one be nested with hole and Pass through aperture, this is nested with hole located at the axle center of the substrate, and the through hole runs through the substrate；It is described Counterweight sheet material is with the substrate located at the same side of the glass phosphor body.

Preferably, described scialyscope combined optical color wheel device, which is further provided with and institute State the adjacent substrate of glass phosphor body, the substrate there is an axle center and include one be nested with hole and Pass through aperture, this is nested with hole located at the axle center of the substrate, and the through hole runs through the substrate；It is described Counterweight sheet material is with the substrate located at the opposition side of the glass phosphor body.

Preferably, described scialyscope combined optical color wheel device, wherein described glass firefly The transparent area of body of light includes two installing sides；The profile of the light transmissive material be set to sector and One second arc and two basic change side are included, the two of the light transmissive material is consolidated in the printing opacity with reference to side The two installing sides in area；The profile of the counterweight sheet material is connect in sector and with one second arc and two Side is closed, the radius of the second arc of the counterweight sheet material is equal with the radius of the first arc of the light transmissive material, First arc of the neat light transmissive material of the second arc patch of the counterweight sheet material, two engagements of the counterweight sheet material When two installing of the transparent area is consolidated in.

Preferably, described scialyscope combined optical color wheel device, which is further provided with and institute State the adjacent substrate of glass phosphor body, the substrate there is an axle center and include one be nested with hole and Pass through aperture, this is nested with hole located at the axle center of the substrate, and the through hole runs through the substrate.

Preferably, described scialyscope combined optical color wheel device, wherein described film plating layer Body is provided with two, and the two film plating layer bodies are respectively located at the opposition side of the glass phosphor body.

Preferably, described scialyscope combined optical color wheel device, wherein described film plating layer Body includes metal and oxidation film layer.

The present invention technological means obtained by beneficial effect be：The scialyscope of the present invention is combined It is different that formula optics color wheel device combines density with the light transmissive material of the transparent area located at glass phosphor body In the counterweight sheet material of light transmissive material, counterweight sheet material can be made while having the work(of sequential mark and counterweight concurrently Effect, compared with existing colour wheel, the counterweight sheet material of the present invention is except integrating installing sequential mark Outside the production capacity that flow process, lifting colour wheel with counterweight makes, existing colour wheel can be more avoided in rotation When generation timing sequence mark situation about coming off.

Description of the drawings

Fig. 1 is the side view of the color block module using the first preferred embodiment of the invention.

Fig. 2 is the rearview of the color block module using the first preferred embodiment of the invention.

Fig. 3 is the element exploded view of the optics color wheel device of the first preferred embodiment of the invention.

Fig. 4 is the part sectioned view of the optics color wheel device of the first preferred embodiment of the invention.

Fig. 5 is the part sectioned view of the optics color wheel device of the second preferred embodiment of the invention.

Fig. 6 is the part sectioned view of the optics color wheel device of the 3rd preferred embodiment of the invention.

Fig. 7 is the part sectioned view of the optics color wheel device of the 4th preferred embodiment of the invention.

Fig. 8 A are luminous mechanism schematic diagram of the film plating layer body of present invention when being reflective film plating layer.

Fig. 8 B are luminous mechanism schematic diagram of the film plating layer body of present invention when being reflective film plating layer.

Fig. 8 C are luminous mechanism schematic diagram of the film plating layer body of present invention when being reflective film plating layer.

Fig. 9 A be the present invention film plating layer body be penetration film plating layer when luminous mechanism schematic diagram.

Fig. 9 B be the present invention film plating layer body be penetration film plating layer when luminous mechanism schematic diagram.

Fig. 9 C be the present invention film plating layer body be penetration film plating layer when luminous mechanism schematic diagram.

Figure 10 is the side view of existing colour wheel.

Figure 11 is the front view of existing colour wheel.

Figure 12 is the exploded view of existing colour wheel.

Description of reference numerals：

10 substrates

11 are nested with hole

12 through holes

121 inner arcs

122 outer arcs

20 light transmissive materials

21 first arcs

22 second arcs

23 combine side

30 counterweight sheet materials

31 first arcs

32 second arcs

33 jointing edges

40 glass phosphor bodies

41 installation holes

42 transparent areas

421 installing sides

43 chromatic zoneses

50 film plating layer bodies

60 motors

70 colour wheels

71 glass phosphor bodies

711 chromatic zoneses

712 transparent areas

73 light transmissive materials

74 sequential marks

75 counterweights

The first sequential of T1

The second sequential of T2

The 3rd sequential of T3

B blue light lasers

B1 blue lights

G green glows

Y gold-tinteds.

Specific embodiment

In order to be able to understand the technical characteristic and beneficial effect of the present invention in detail, and can come according to content Realize, below, further with preferred embodiment as shown in drawings carrying out specifically It is bright：

Refer to shown in Fig. 1, Fig. 2 and Fig. 3, the scialyscope combined optical colour wheel dress of the present invention The first preferred embodiment put includes：One substrate 10, a light transmissive material 20, a counterweight sheet material 30th, a glass phosphor body 40 and a film plating layer body 50；The scialyscope combined optical color of the present invention Wheel apparatus are installed in a motor 60 and form color wheel module and revolved by the driving of the motor 60 Turn.

As shown in Figures 2 and 3, the substrate 10 be opaque circular plate body, the substrate 10 With an axle center and include one and be nested with hole 11 and pass through aperture 12, this be nested with hole 11 provide in The substrate 10 is run through in the axle center of the substrate 10, the through hole 12；The substrate 10 adopts aluminium system Into the profile of the through hole 12 of the substrate 10 is the sector with the axle center of the substrate 10 as the center of circle And an inner arc 121 and an outer arc 122 are included, the inner arc 121 of the through hole 12 is near the base Plate 10 is nested with hole 11, and the outer arc 122 of the through hole 12 is nested with hole away from the substrate 10 11, the radius of the inner arc 121 of the through hole 12 is less than the half of the outer arc 122 of the through hole 12 Footpath；In the first preferred embodiment, the arc length of the inner arc 121 of the through hole 12 is passed through less than this The arc length of the outer arc 122 of perforation 12.

As shown in Figures 2 and 3, the profile of the light transmissive material 20 is for sector and includes one first Arc 21, one second arc 22 and two basic change side 23, the first arc 21 of the light transmissive material 20 Radius of the radius more than or equal to the inner arc 121 of the through hole 12, the of the light transmissive material 20 Radius of the radius of two arcs 22 less than or equal to the outer arc 122 of the through hole 12；It is excellent first In selecting embodiment, the arc length of the first arc 21 of the light transmissive material 20 is interior with the through hole 12 The arc length of arc 121 is equal, arc length and the through hole 12 of the second arc 22 of the light transmissive material 20 Outer arc 122 arc length it is equal.

As shown in Figures 2 and 3, the counterweight sheet material 30 be density different from the light transmissive material 20 and Lamellar body of the extinction different from the substrate 10, the counterweight sheet material 30 are attached at the light transmissive material 20, Make the light transmissive material 20 expose some to pass through for light, the counterweight sheet material 30 is stainless steel Lamellar body, the profile of the counterweight sheet material 30 is in fan-shaped and have one first arc 31, one second arc 32 and two jointing edges 33, radius and the light transmissive material of the first arc 31 of the counterweight sheet material 30 The radius of 20 the first arc 21 is equal, and the radius of the second arc 32 of the counterweight sheet material 30 is less than should The radius of the second arc 22 of light transmissive material 20；In the first preferred embodiment, the weight stack The arc length of the first arc 31 of material 30 is equal with the arc length of the first arc 21 of the light transmissive material 20, The arc length of the second arc 32 of the counterweight sheet material 30 is less than the second arc 22 of the light transmissive material 20 Arc length, when the counterweight sheet material 30 is attached at the light transmissive material 20, the of the counterweight sheet material 30 One arc 31 align the light transmissive material 20 the first arc 21；In application, also can be by the weight stack The arc length of the second arc 32 of material 30 is set to phase with the arc length of the second arc 22 of the light transmissive material 20 Deng, the first arc 31 of the counterweight sheet material 30 arc length less than the light transmissive material 20 the second arc 22 Arc length, when the counterweight sheet material 30 is attached at the light transmissive material 20, the counterweight sheet material 30 Second arc 32 align the light transmissive material 20 the second arc 22；During assembling, the colour wheel mould can be calculated The dynamic balancing numerical value of block is determining the size of the counterweight sheet material 30.

As shown in Figures 2 and 3, plate body of the glass phosphor body 40 for the photic fluorescent property of tool, The glass phosphor body 40 has an axle center and includes an installation hole 41, a transparent area 42 and extremely A few chromatic zones 43；Wherein, the installation hole 41 is provided in the axle center of the glass phosphor body 40, The transparent area 42 surrounds the installation hole 41 to arrange with described chromatic zones 43；It is being preferable to carry out In scheme, the glass phosphor body 40 is combined into by the glass flourescent film of tool different colours, should Breach that transparent area 42 is formed when being combined by each glass flourescent film and with two installing sides 421, described chromatic zones 43 is the fan-shaped fluorescent with the axle center of the glass phosphor body 40 as the center of circle Layer, described chromatic zones 43 is provided with two and color is different, in application, described chromatic zones 43 for can 400～800nm of excitation wavelength fluorescent layer.

As shown in figure 1, the film plating layer body 50 is formed at the glass phosphor body 40 and is located at the base Between plate 10 and the glass phosphor body 40, in the first preferred embodiment, the film plating layer body 50 is a reflective film plating layer, and which is up to for the reflectance of the light that wavelength is 300～800nm More than 90 percent, the film plating layer body 50 includes metal and oxidation film layer.

It is shown as shown in Figure 2, Figure 3 and Figure 4, in the first preferred embodiment, the light transmissive material 20 two basic change is when installing for two of 23 transparent areas 42 for being consolidated in the glass phosphor body 40 421, the substrate 10 is located at the same side of the glass phosphor body 40 with the counterweight sheet material 30, Using upper, the substrate 10 and the counterweight sheet material 30 also can be located at the phase of the glass phosphor body 40 Toss about.

As shown in figures 2 and 5, the second preferred embodiment of the invention is preferable to carry out with first Scheme is roughly the same, equally include a substrate 10, a light transmissive material 20, a counterweight sheet material 30, One glass phosphor body 40 and a film plating layer body 50；Second preferred embodiment is preferable to carry out with first The difference of scheme is：The radius of the first arc 21 of the light transmissive material 20 is passed through more than or equal to this The radius of the inner arc 121 of perforation 12, the radius of the second arc 22 of the light transmissive material 20 be less than or Equal to the radius with the outer arc 122 of the through hole 12, the second arc 32 of the counterweight sheet material 30 Radius is equal with the radius of the first arc 21 of the light transmissive material 20, and the first of the counterweight sheet material 30 Radius of the radius of arc 31 more than or equal to the inner arc 121 of the through hole 12, the light transmissive material 20 transparent areas 42 that the glass phosphor body 40 is installed in the counterweight sheet material 30, the counterweight sheet material 30 the second arc 32 pastes the first arc 21 of the neat light transmissive material 20；Specifically：The weight stack The arc length of the second arc 32 of material 30 is equal with the arc length of the first arc 21 of the light transmissive material 20, Two jointing edges 33 of the counterweight sheet material 30 are consolidated in the transparent area 42 of the glass phosphor body 40 Two installing sides 421；In application, by the arc length of the first arc 31 of the counterweight sheet material 30 and can be somebody's turn to do The arc length of the second arc 22 of light transmissive material 20 is set to equal, and makes the second of the light transmissive material 20 Arc 22 pastes the first arc 31 of the neat counterweight sheet material 30, two jointing edges 33 of the counterweight sheet material 30 It is consolidated in two installing sides 421 of the transparent area 42 of the glass phosphor body 40.

3rd preferred embodiment of the present invention is as shown in fig. 6, the present invention's the 3rd is preferable to carry out Scheme is roughly the same with the first preferred embodiment, and the difference with the first preferred embodiment is： The setting of the substrate 10 is omitted in the 3rd preferred embodiment, and the film plating layer body 50 can set It is set to a reflective film plating layer or a penetration film plating layer；Due in the 3rd preferred embodiment The setting of the substrate 10 is eliminated, therefore when the film plating layer body 50 is reflective film plating layer, Can on film plating layer body 50 one lighttight layer of body of coating come strengthen reflect effect；And work as the plating Film layer body 50 is penetration film plating layer, and the film plating layer body 50 is optionally coated in the glass The opposite sides of phosphor body 40, or simultaneously drape over one's shoulders in the opposite sides of the glass phosphor body 40 Cover the film plating layer body 50.

4th preferred embodiment of the present invention is as shown in fig. 7, the present invention's the 4th is preferable to carry out Scheme is roughly the same with the second preferred embodiment, and the difference with the second preferred embodiment is： The setting of the substrate 10 is omitted in the fourth preferred embodiment equally, the film plating layer body 50 is wrapped Include metal and oxidation film layer and may be configured as a reflective film plating layer or a penetration film plating layer；Together Sample ground, the setting due to eliminating the substrate 10 in the fourth preferred embodiment, therefore ought Film plating layer body 50 be reflective film plating layer when, can on film plating layer body 50 coating one it is lighttight Layer body come strengthen reflect effect；And work as the film plating layer body 50 for penetration film plating layer, the plated film Layer body 50 is optionally coated in the opposite sides of the glass phosphor body 40, or at this The opposite sides of the glass phosphor body 40 coating simultaneously film plating layer body 50.

Rotate as the colour wheel of the present invention is driven by the motor 60, now with a blue light laser B It is irradiated in the regional of the glass phosphor body 40 and produces the light of different colours, when the blue light It is the first sequential T1 when laser B is irradiated in the transparent area 42 of the glass phosphor body 40, when the indigo plant When light laser B is irradiated in each 43rd area of chromatic zones of the glass phosphor body 40, then respectively Two sequential T2 and the 3rd sequential T3.

The film plating layer body 50 be reflective film plating layer when luminous mechanism as shown in Fig. 8 A to 8C, It is incident to the scialyscope combined optical colour wheel of the present invention first with blue light laser B, first During sequential T1, blue light laser B is irradiated in the transparent area 42 of the glass phosphor body 40 and penetrates The light transmissive material 20 and formed a blue light B1, in the second sequential T2 and three sequential T3, Blue light laser B is irradiated in the chromatic zones 43 of the glass phosphor body 40 and luminescence generated by light, then leads to Cross the film plating layer body 50 and reflect an a green glow G and gold-tinted Y, turn after gold-tinted Y is filtered again It is changed into a HONGGUANG, blue light laser B, green glow G and gold-tinted Y are located at the glass phosphor body 40 the same side, blue light B1 through a series of reflecting optics guiding after, with the blue light thunder Penetrate B, green glow G and gold-tinted Y is located at the same side of the glass phosphor body 40 and is mixed to form One white light.

When the film plating layer body 50 for penetration film plating layer when luminous mechanism such as Fig. 9 A to 9C institutes Show, the scialyscope combined optical colour wheel of the present invention is equally incident to blue light laser B, During the first sequential T1, blue light laser B is irradiated in the transparent area 42 of the glass phosphor body 40 And penetrate the light transmissive material 20 and form a blue light B1, in the second sequential T2 and the 3rd sequential During T3, blue light laser B penetrates the film plating layer body 50, then is irradiated in the glass phosphor body 40 Chromatic zones 43 and luminescence generated by light, and formed an a green glow G and gold-tinted Y, gold-tinted Y can It is changed into a HONGGUANG after filtered again, the HONGGUANG, green glow G and blue light B1 are mixed to form One white light, as the film plating layer body 50 is penetration film plating layer, therefore blue light B1, this is green Light G and gold-tinted Y can be located at the not homonymy of the glass phosphor body 40 with blue light laser B, Compared with luminous mechanism of the film plating layer body 50 for reflective film plating layer, the film plating layer body 50 is to wear It is relatively low that the luminous mechanism of saturating formula film plating layer can simplify more reflection subassembly, cost.

As shown in Fig. 1 and Fig. 4, the glass phosphor body 40 is placed on set installation hole 41 The rotary shaft of the motor 60 and adjacent with the substrate 10；The scialyscope combined optical of the present invention Color wheel device combines density different from the light transmissive material 20 with the light transmissive material 20 and extinction is different In the counterweight sheet material 30 of the substrate 10, using the existing colour wheel of 30 replacement of counterweight sheet material 70 when Sequence mark 74 and counterweight 75, therefore the stickup sequential mark 74 can be integrated and the counterweight 75 is installed Flow process, accelerate the present invention color wheel device manufacturing speed, in addition, can more avoid existing The situation that the sequential mark 74 for having colour wheel 70 comes off under rotation.

Claims (10)

1. a kind of scialyscope combined optical color wheel device, it is characterised in which includes：

One glass phosphor body, which is the plate body for having photic fluorescent property, and the glass phosphor body has There is an axle center and include an installation hole, a transparent area and at least one chromatic zones, should Located at the axle center of the glass phosphor body, the transparent area is to connect one of the installation hole to lack to installation hole Mouthful, described chromatic zones is arranged around the installation hole；

At least one film plating layer body, which is adjacent with the glass phosphor body；

One light transmissive material, which is fixedly arranged on the transparent area；And

One counterweight sheet material, its density are different from the light transmissive material, and it is saturating that the counterweight sheet material is incorporated into this Luminescent material.

2. scialyscope combined optical color wheel device as claimed in claim 1, it is characterised in that Described counterweight sheet material is the lamellar body of stainless steel.

3. scialyscope combined optical color wheel device as claimed in claim 2, it is characterised in that Described chromatic zones is provided with two and color is different.

4. scialyscope combined optical color wheel device as claimed in claim 3, it is characterised in that The transparent area of described glass phosphor body includes two installing sides；The profile of the light transmissive material It is set to sector and includes first arc and two basic change side, two knots of the light transmissive material Close when two installings of the transparent area are consolidated in；The counterweight sheet material is attached at the light transmissive material, The profile of the counterweight sheet material is in sector and has first arc, the first arc of the counterweight sheet material Radius it is equal with the radius of the first arc of the light transmissive material, the alignment of the first arc of the counterweight sheet material First arc of the light transmissive material.

5. scialyscope combined optical color wheel device as claimed in claim 4, it is characterised in that Which is provided with a substrate adjacent with the glass phosphor body, and the substrate has an axle center and bag One is included and has been nested with hole and a through hole, this has been nested with hole located at the axle center of the substrate, and this runs through The substrate is run through in hole；The counterweight sheet material is with the substrate located at the same side of the glass phosphor body.

6. scialyscope combined optical color wheel device as claimed in claim 4, it is characterised in that Which is provided with a substrate adjacent with the glass phosphor body, and the substrate has an axle center and bag One is included and has been nested with hole and a through hole, this has been nested with hole located at the axle center of the substrate, and this runs through The substrate is run through in hole；The counterweight sheet material is with the substrate located at the opposition side of the glass phosphor body.

7. scialyscope combined optical color wheel device as claimed in claim 3, it is characterised in that The transparent area of described glass phosphor body includes two installing sides；The profile of the light transmissive material It is set to sector and includes second arc and two basic change side, two knots of the light transmissive material Close when two installings of the transparent area are consolidated in；The profile of the counterweight sheet material is in fan-shaped and tool There are second arc and two jointing edges, the radius of the second arc of the counterweight sheet material and the printing opacity material The radius of the first arc of material is equal, and the first of the neat light transmissive material of the second arc patch of the counterweight sheet material Arc, two jointing edges of the counterweight sheet material are consolidated in two installing sides of the transparent area.

8. scialyscope combined optical color wheel device as claimed in claim 7, it is characterised in that Which is provided with a substrate adjacent with the glass phosphor body, and the substrate has an axle center and bag One is included and has been nested with hole and a through hole, this has been nested with hole located at the axle center of the substrate, and this runs through The substrate is run through in hole.

9. the scialyscope combined optical color as described in 1,2,3,4 or 7 any one of claim Wheel apparatus, it is characterised in that described film plating layer body is provided with two, two film plating layer bodies point Not located at the opposition side of the glass phosphor body.

10. scialyscope combined optical color wheel device as claimed in any one of claims 1-9 wherein, Characterized in that, described film plating layer body includes metal and oxidation film layer.