CN206930853U - Projection kaleidoscope - Google Patents
Projection kaleidoscope Download PDFInfo
- Publication number
- CN206930853U CN206930853U CN201720681548.6U CN201720681548U CN206930853U CN 206930853 U CN206930853 U CN 206930853U CN 201720681548 U CN201720681548 U CN 201720681548U CN 206930853 U CN206930853 U CN 206930853U
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- convex lens
- optically focused
- gear
- projection
- support base
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Abstract
The utility model is on a kind of projection kaleidoscope, it includes a housing, one smooth feeding mechanism, one tumbler, one film unit, one mirror barrel and a projection convex lens, spaced one first support base and one second support base are set in the housing, the light feeding mechanism is located at second support base and towards first support base, the tumbler is located at first support base, the film unit is all located at the tumbler with the mirror barrel, and the film unit is located between the light feeding mechanism and the mirror barrel, and the tumbler drives the film unit to be rotated backward with the mirror barrel, the projection convex lens is located at the housing and towards the mirror barrel.By the light feeding mechanism, film unit, mirror barrel and the configuration of projection convex lens, image projection can be come out and supply more people to watch together, and counter-rotational film unit can increase the variability of image with mirror barrel.
Description
Technical field
The utility model is a kind of projection kaleidoscope, the projection that can espespecially come out the image projection formed in kaleidoscope
Formula kaleidoscope.
Background technology
Existing kaleidoscope includes a cylinder, forms a space in the cylinder, the both ends of the cylinder form one first and opened respectively
Mouth and one second opening, the kaleidoscope set a pattern unit in the first opening of the cylinder, and in the space of the cylinder
One mirror barrel is set, wherein, the pattern unit has multicolour, and the kaleidoscope allows the pattern unit by the reflection of light
Image forms diverse image via the multiple reflections of the mirror barrel.
However, people are intended to know that when the diverse image that the kaleidoscope shows is, it is necessary to by eyes close to the cylinder
Second be open and watch, existing kaleidoscope can only provide a people viewing, can not show and more people are provided while watched.
Utility model content
The technical problems to be solved in the utility model is:A kind of projection kaleidoscope is provided, it is uncommon thereby to improve existing ten thousand flower
Cylinder can only provide people viewing, the problem of can not showing for more people while watch.
Technical solution of the present utility model is:A kind of projection kaleidoscope is provided, it includes a housing, a light is supplied
Device, a tumbler, a film unit, a mirror barrel and a projection convex lens, the housing one assembly space of interior formation, and
The leading flank of the housing forms a projection mouth, and the projection mouth connects the assembly space, between the housing is set at the assembly space
Every one first support base and one second support base of arrangement, first support base is adjacent to the leading flank of the housing, second support
The trailing flank of the neighbouring housing of seat, the light feeding mechanism are provided in the second support base of the housing and towards first supports
Seat, the light feeding mechanism includes an illuminating part and an optically focused convex lens group, the illuminating part are arranged on second support base, and the optically focused is convex
Microscope group is arranged on the illuminating part, and the tumbler is provided in the first support base of the housing, and the tumbler includes one and driven
Moving part and a driving member, the actuator are located at first support base, and the driving member is located at first support base and connects the driving
Part, the film unit are located on the driving member of the tumbler, and are located at the rotation towards the optically focused convex lens group, the mirror barrel
On the driving member of device, the both ends of the mirror barrel are located at this respectively for the film unit and the projection mouth, the projection convex lens
At the projection mouth of housing and towards the mirror barrel, wherein, the tumbler drives the film unit and the mirror barrel reverse
Rotate.
Projection kaleidoscope as described above, the mirror barrel include three facial plane reflecting optics, three facial plane reflection
Eyeglass is connected and forms the cylindrical member of triangle, and the three facial planes reflecting optics corral forms a reflection space.
Projection kaleidoscope as described above, the mirror barrel include multiaspect plane reflection eyeglass, the multiaspect plane reflection
Eyeglass is connected and forms the cylindrical member of polygon, and the multiaspect plane reflection eyeglass corral forms a reflection space.
Projection kaleidoscope as described above, the actuator are located at the leading flank of first support base, and the driving member is located at
The trailing flank of first support base, the driving member include a first gear, a second gear, one the 3rd gear and one the 4th tooth
Wheel, the first gear connect the actuator, and the second gear is engaged with the first gear, and the 3rd gear is nibbled with the second gear
Close, the 3rd gear has a rotating shaft, and the film unit is fixedly arranged on the rotating shaft of the 3rd gear, the 4th gear and this
One gear engages, and the mirror barrel insert group is opposite with the steering of the 4th gear in the 4th gear, and the 3rd gear.
Projection kaleidoscope as described above, the illuminating part include a radiating fin and a luminescence unit, the radiating fin
The leading flank of second support base is located at, the luminescence unit is located at the leading flank of the radiating fin, and the optically focused convex lens group includes one
Group connect cylinder, one first optically focused convex lens and one second optically focused convex lens, this group of connect cylinder are located on the radiating fin and around the hairs
Light unit, the first optically focused convex lens are located in this group of connect cylinder and towards the luminescence units, and have one first convex globoidal, and this
Two optically focused convex lens are located in this group of connect cylinder and towards the first optically focused convex lens, and with one towards the of first convex globoidal
Two convex globoidals, this group of connect cylinder include an inner cylinder and an outer barrel, and the inner cylinder includes one first semi-ring that pairing sets and one the second half
Ring, the first optically focused convex lens are located in the inner cylinder with the second optically focused convex lens, and the outer sleeve is together in the inner cylinder and is arranged on
The radiating fin.
Projection kaleidoscope as described above, described group of connect cylinder include an inner cylinder and an outer barrel, and the inner cylinder includes pairing
One first semi-ring and one second semi-ring set, the first optically focused convex lens are with the second optically focused convex lens positioned at described interior
In cylinder, the outer sleeve is together in the inner cylinder and is arranged on the radiating fin.
The utility model has the advantages that:The light feeding mechanism of the projection kaleidoscope can provide light, pass through the optically focused convex lens
Group is projected to the film unit after focusing on, and by the pattern projection of the film unit to the mirror barrel, and the tumbler drives
The film unit rotates backward with the mirror barrel, allow from the pattern that the film unit is cast out in the mirror barrel mutually
Reflect after moving and reflecting, then diverse image is gone out by the projection convex lens projection imaging, and more people can be provided and watched together.
Brief description of the drawings
Fig. 1 is the Three-dimensional combination diagram of a specific embodiment of the utility model projection kaleidoscope.
Fig. 2 is the perspective exploded view of a specific embodiment of the utility model projection kaleidoscope.
Fig. 3 is the combination partial cutaway schematic of a specific embodiment of the utility model projection kaleidoscope.
Fig. 4 is the light feeding mechanism of a specific embodiment and the solid of film unit of the utility model projection kaleidoscope
Decomposing schematic representation.
Fig. 5 is the stereo decomposing signal of the light feeding mechanism of a specific embodiment of the utility model projection kaleidoscope
Figure.
Fig. 6 is solid of the film unit with the tumbler of a specific embodiment of the utility model projection kaleidoscope
Decomposing schematic representation.
Fig. 7 is film unit, tumbler and the speculum of a specific embodiment of the utility model projection kaleidoscope
The combination schematic side view of cylinder.
Drawing reference numeral
10 housings
11 assembly spaces
12 projection mouths
13 first support bases
14 second support bases
15 bases
Covered on 16
20 smooth feeding mechanisms
21 illuminating parts
21 radiating fins
212 luminescence units
22 optically focused convex lens groups
23 groups of connect cylinders
24 first optically focused convex lens
241 first convex globoidals
25 second optically focused convex lens
251 second convex globoidals
26 inner cylinders
261 first semi-rings
262 second semi-rings
27 outer barrels
30 tumblers
31 actuators
32 driving members
33 first gears
34 second gears
35 the 3rd gears
351 rotating shafts
36 the 4th gears
37 covers
38 the 5th gears
40 film units
41 films
42 first film disks
43 second film disks
50 mirror barrels
51 plane reflection eyeglasses
52 reflection spaces
60 projection convex lens
Embodiment
Coordinate schema and preferred embodiment of the present utility model below, it is predetermined real to reach that the utility model is expanded on further
The technological means taken with new purpose.
Fig. 1 to Fig. 3 is referred to, is a kind of preferred embodiment of the utility model projection kaleidoscope, it includes a housing
10th, a smooth feeding mechanism 20, a tumbler 30, a film unit 40, a mirror barrel 50 and a projection convex lens 60.
An assembly space 11 is formed in the housing 10, and a projection mouth 12, the projection are formed in the leading flank of the housing 10
Mouth 12 connects the assembly space 11, and the housing 10 sets spaced one first support base 13 and one at the assembly space 11
Second support base 14, first support base 13 is adjacent to the leading flank of the housing 10, and second support base 14 is adjacent to the housing 10
Trailing flank, wherein, the housing 10 has lid 16 on a base 15 and one, and lid 16 covers the base 15 on this, first support base
13 and second support base 14 are to be located at the base 15.
The light feeding mechanism 20 is provided in the second support base 14 of the housing 10 and towards first support base 13, the light
Feeding mechanism 20 includes an illuminating part 21 and an optically focused convex lens group 22, the illuminating part 21 are arranged on second support base 14, and this is poly-
Light convex lens group 22 is arranged on the illuminating part 21, wherein, the luminescence unit 212 is LED, and can send polychromatic light.
The tumbler 30 is provided in the first support base 13 of the housing 10, and the tumbler 30 includes an actuator 31
And a driving member 32, the actuator 31 are located at first support base 13, the driving member 32 is located at first support base 13 and connected
The actuator 31.
The film unit 40 is located on the driving member 32 of the tumbler 30, and towards the optically focused convex lens group 22, wherein, should
Film unit 40 includes a film 41, one first film disk 42 and one second film disk 43, and the first film disk 42 is located at the glue
The leading flank of volume 41, the second film disk 43 are located at the trailing flank of the film 41.
The mirror barrel 50 is located on the driving member 32 of the tumbler 30, and the both ends of the mirror barrel 50 are respectively for this
Film unit 40 and the projection mouth 12, wherein, the tumbler 30 drives the film unit 40 reversely to turn with the mirror barrel 50
It is dynamic, wherein, the mirror barrel 50 includes three facial plane reflecting optics 51, and the three facial planes reflecting optics 51 are connected and form three
Angular cylindrical member, and the corral of three facial planes reflecting optics 51 forms a reflection space 52, or, the mirror barrel 50 is wrapped
The eyeglass of plane reflection containing multiaspect 51, the multiaspect plane reflection eyeglass 51 is connected and forms the cylindrical member of polygon, and this is more
The corral of facial plane reflecting optics 51 forms a reflection space 52.
The projection convex lens 60 is located at the projection mouth 12 of the housing 10 and towards the mirror barrel 50, wherein, the projection is convex
Mirror 60 is biconvex lens.
As shown in Fig. 3, Fig. 6, Fig. 7, the actuator 31 is located at the leading flank of first support base 13, and the driving member 32 is located at
The trailing flank of first support base 13, the driving member 32 include a first gear 33, a second gear 34, one the 3rd gear 35 and
One the 4th gear 36, the first gear 33 connect the actuator 31, and the second gear 34 engages with the first gear 33, and the 3rd
Gear 35 engages with the second gear 34, and the 3rd gear 35 has a rotating shaft 351, and the film unit 40 be fixedly arranged on this
The rotating shaft 351 of three gears 35, the 4th gear 36 engage with the first gear 33, and the insert group of mirror barrel 50 is in the 4th tooth
Wheel 36, and the 3rd gear 35 and the 4th gear 36 steering on the contrary, in addition, the tumbler 30 includes a cover 37,
The cover 37 is located at the trailing flank of first support base 13 and covers the driving member 32, and the driving member 32 is further comprising one the
Five gears 38, the 5th gear 38 connect first support base 13 and the cover 37, and the 5th gear 38 and the 4th gear
36 engagements.
As shown in Figures 2 to 5, the illuminating part 21 includes a radiating fin 211 and a luminescence unit 212, the radiating fin
211 are located at the leading flank of second support base 14, and the luminescence unit 212 is located at the leading flank of the radiating fin 211, and the optically focused is convex
Microscope group 22 includes one group of connect cylinder 23, one first optically focused convex lens 24 and one second optically focused convex lens 25, this group of connect cylinder 23 and is located at this
On radiating fin 211 and around the luminescence unit 212, the first optically focused convex lens 24 are located in this group of connect cylinder 23 and towards the hairs
Light unit 212, and there is one first convex globoidal 241, the second optically focused convex lens 25 be located in this group of connect cylinder 23 and towards this
One optically focused convex lens 24, and with one towards first convex globoidal 241 the second convex globoidal 251, wherein, this group of connect cylinder 23 includes
One inner cylinder 26 and an outer barrel 27, the inner cylinder 26 include one first semi-ring 261 and one second semi-ring 262 that pairing is set, and this first
Optically focused convex lens 24 are located in the inner cylinder 26 with the second optically focused convex lens 25, and the outer barrel 27 is sleeved on the inner cylinder 26 and is arranged on
The radiating fin 211.
When in use, the illuminating part 21 of the light feeding mechanism 20 can emit beam, and light then passes through the optically focused convex lens group
22 the first optically focused convex lens 24 and the second optically focused convex lens 25, the light for projecting this group of connect cylinder 23 are then projected to the film list
Member 40, then the pattern projection of the film unit 40 is passed through into the plane mirror of the mirror barrel 50 into the mirror barrel 50
Piece 51 reflects and refraction, forms diverse image, then is come out diverse image projection imaging by the projection convex lens 60,
During, the tumbler 30 can drive the film unit 40 to be rotated backward with the mirror barrel 50, and the actuator 31 drives should
The first gear 33 of driving member 32 rotates, and first gear 33 drives the second gear 34 to be rotated with the 4th gear 36, second tooth
Wheel is 34 identical with the rotation direction of the 4th gear 36, and with the rotation direction of the first gear 33 on the contrary, the band of second gear 34
Dynamic 3rd gear 35 rotates, and the rotation direction of the 3rd gear 35 is with the rotation direction of the second gear 34 on the contrary, the i.e. the 3rd
The rotation direction of gear 35 is identical with the rotation direction of the first gear 33, and the 3rd gear 35 drives the film unit 40 1
Rise and rotate, the 4th gear 36 drives the mirror barrel 50 to rotate together, so the rotation direction of the film unit 40 is anti-with this
The rotation direction for penetrating lens barrel 50 is opposite.
In summary, the diverse image that the projection kaleidoscope is formed after can the mirror barrel 50 be handled projects
Come, be available for more people to watch together, and counter-rotational film unit 40 and mirror barrel 50, variability can be increased.
Described above is only preferred embodiment of the present utility model, not the utility model is done any formal
Limitation, although the utility model is disclosed above with preferred embodiment, but is not limited to the utility model, any to be familiar with
Professional and technical personnel, in the range of technical solutions of the utility model are not departed from, when in the technology using the disclosure above
Hold the equivalent embodiment made a little change or be modified to equivalent variations, as long as being without departing from technical solutions of the utility model
Hold, any simple modification, equivalent change and modification made according to the technical essence of the utility model to above example, still
Belong in the range of technical solutions of the utility model.
Claims (8)
1. a kind of projection kaleidoscope, it is characterised in that the projection kaleidoscope includes:
One housing, the housing is interior to form an assembly space, and forms a projection mouth, the projection in the leading flank of the housing
Mouth connects the assembly space, and the housing sets spaced one first support base and one second at the assembly space
Support base, first support base is adjacent to the leading flank of the housing, and second support base is adjacent to the trailing flank of the housing;
One smooth feeding mechanism, the smooth feeding mechanism are provided in the second support base of the housing and supported towards described first
Seat, the smooth feeding mechanism includes an illuminating part and an optically focused convex lens group, the illuminating part are arranged on second support base, institute
Optically focused convex lens group is stated to be arranged on the illuminating part;
One tumbler, the tumbler are provided in the first support base of the housing, and the tumbler includes one and driven
Moving part and a driving member, the actuator are located at first support base, and the driving member is located at first support base and company
Connect the actuator;
One film unit, the film unit are located on the driving member of the tumbler, and towards the optically focused convex lens group;
One mirror barrel, the mirror barrel are located on the driving member of the tumbler, the both ends difference of the mirror barrel
Towards the film unit and the projection mouth;
One projection convex lens, the projection convex lens are located at the projection mouth of the housing and towards the mirror barrel;
Wherein, the tumbler drives the film unit to be rotated backward with the mirror barrel.
2. projection kaleidoscope according to claim 1, it is characterised in that the mirror barrel reflects comprising three facial planes
Eyeglass, the three facial planes reflecting optics are connected and form the cylindrical member of triangle, and the three facial planes reflecting optics
Corral forms a reflection space.
3. projection kaleidoscope according to claim 1, it is characterised in that the mirror barrel includes multiaspect plane reflection
Eyeglass, the multiaspect plane reflection eyeglass are connected and form the cylindrical member of polygon, and the multiaspect plane reflection eyeglass
Corral forms a reflection space.
4. projection kaleidoscope according to any one of claim 1 to 3, it is characterised in that the actuator is located at institute
State the leading flank of the first support base, the driving member is located at the trailing flank of first support base, and the driving member includes one the
One gear, a second gear, one the 3rd gear and one the 4th gear, the first gear connection actuator, described second
Gear engages with the first gear, and the 3rd gear engages with the second gear, and the 3rd gear has a rotating shaft,
And the film unit is fixedly arranged on the rotating shaft of the 3rd gear, the 4th gear engages with the first gear, described anti-
It is opposite with the steering of the 4th gear in the 4th gear, and the 3rd gear to penetrate lens barrel insert group.
5. projection kaleidoscope according to any one of claim 1 to 3, it is characterised in that the illuminating part includes one
Radiating fin and a luminescence unit, the radiating fin are located at the leading flank of second support base, and the luminescence unit is located at
The leading flank of the radiating fin, the optically focused convex lens group include one group of connect cylinder, one first optically focused convex lens and one second optically focused
Convex lens, described group of connect cylinder are located on the radiating fin and are located at around the luminescence unit, the first optically focused convex lens
In described group of connect cylinder and towards the luminescence unit, and there is one first convex globoidal, the second optically focused convex lens are located at described
Group connect cylinder in and towards the first optically focused convex lens, and with one towards first convex globoidal the second convex globoidal.
6. projection kaleidoscope according to claim 4, it is characterised in that the illuminating part includes a radiating fin and one
Luminescence unit, the radiating fin are located at the leading flank of second support base, and the luminescence unit is located at the radiating fin
Leading flank, the optically focused convex lens group includes one group of connect cylinder, one first optically focused convex lens and one second optically focused convex lens, described group
Connect cylinder is located on the radiating fin and is located at around the luminescence unit, the first optically focused convex lens in described group of connect cylinder simultaneously
Towards the luminescence unit, and there is one first convex globoidal, the second optically focused convex lens be located in described group of connect cylinder and towards
The first optically focused convex lens, and with one towards first convex globoidal the second convex globoidal.
7. projection kaleidoscope according to claim 5, it is characterised in that described group of connect cylinder is included outside an inner cylinder and one
Cylinder, the inner cylinder include one first semi-ring and one second semi-ring that pairing is set, the first optically focused convex lens and described second
Optically focused convex lens are located in the inner cylinder, and the outer sleeve is together in the inner cylinder and is arranged on the radiating fin.
8. projection kaleidoscope according to claim 6, it is characterised in that described group of connect cylinder is included outside an inner cylinder and one
Cylinder, the inner cylinder include one first semi-ring and one second semi-ring that pairing is set, the first optically focused convex lens and described second
Optically focused convex lens are located in the inner cylinder, and the outer sleeve is together in the inner cylinder and is arranged on the radiating fin.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201720681548.6U CN206930853U (en) | 2017-06-13 | 2017-06-13 | Projection kaleidoscope |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201720681548.6U CN206930853U (en) | 2017-06-13 | 2017-06-13 | Projection kaleidoscope |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN206930853U true CN206930853U (en) | 2018-01-26 |
Family
ID=61345237
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201720681548.6U Active CN206930853U (en) | 2017-06-13 | 2017-06-13 | Projection kaleidoscope |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN206930853U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107102443A (en) * | 2017-06-13 | 2017-08-29 | 再兴电子(深圳)有限公司 | Projection kaleidoscope |
| CN114002854A (en) * | 2021-10-25 | 2022-02-01 | 深圳市南天门网络信息有限公司 | Kaleidoscope interaction device based on multimedia technology |
-
2017
- 2017-06-13 CN CN201720681548.6U patent/CN206930853U/en active Active
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107102443A (en) * | 2017-06-13 | 2017-08-29 | 再兴电子(深圳)有限公司 | Projection kaleidoscope |
| CN114002854A (en) * | 2021-10-25 | 2022-02-01 | 深圳市南天门网络信息有限公司 | Kaleidoscope interaction device based on multimedia technology |
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