CN206675994U - Optics probes into modular system - Google Patents

Optics probes into modular system Download PDF

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Publication number
CN206675994U
CN206675994U CN201720307732.4U CN201720307732U CN206675994U CN 206675994 U CN206675994 U CN 206675994U CN 201720307732 U CN201720307732 U CN 201720307732U CN 206675994 U CN206675994 U CN 206675994U
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CN
China
Prior art keywords
optics
building block
building blocks
block unit
light emitting
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201720307732.4U
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Chinese (zh)
Inventor
苏锐强
谢燕琴
王佳盛
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
GUANGDONG BAN BAO PUZZLE TOY CO Ltd
Original Assignee
GUANGDONG BAN BAO PUZZLE TOY CO Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by GUANGDONG BAN BAO PUZZLE TOY CO Ltd filed Critical GUANGDONG BAN BAO PUZZLE TOY CO Ltd
Priority to CN201720307732.4U priority Critical patent/CN206675994U/en
Application granted granted Critical
Publication of CN206675994U publication Critical patent/CN206675994U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a kind of optics to probe into modular system, including frame building block unit, optics group and light emitting module, frame building block unit includes multiple connecting rod building blocks and multiple latch building blocks, connecting rod building blocks and light emitting module are provided with least one jack, latch building blocks are provided with least two can form the plug that grafting coordinates with the jack, multiple connecting rod building blocks form frame building block unit by multiple latch building blocks, and optics group and light emitting module are separately mounted on frame building block unit.The beneficial effect of the utility model against existing technologies is, the structure of this product is simple, cost is low, installation consolidates, it is convenient and swift to splice, building blocks experiment suit is spliced by bolt-type, more changes of building blocks, detachable, reducible characteristic are allowed to be played, student is allowed to will appreciate that optical application principle and conventional optical application mechanical realization, be advantageous to the imagination and creativity of training student, coordinate Classroom theory, obtain the knowledge in terms of practice.

Description

Optics probes into modular system
Technical field
It the utility model is related to optics and probe into toy, it is more particularly to a kind of applied to teaching experiment and Optical blockses toy Optics probes into modular system.
Background technology
, it is necessary to which explaining optics probes into theory in physics teaching, in order to make student's sense of reality theoretical to this, religion is utilized It is best that tool, which shows effect, but optical instrument known to the public at present, can only not only realize single overview function, and And because cost is more expensive, student can not be allowed to contact easily.Occurring in the market can be by combining some optical element shapes Into the product of different optical instruments, a kind of multi-functional product as disclosed in the utility model patent that China Patent No. is 92219035.6 Wooden formula simple optical teaching aid, including rectangular box and basic optical component, can group by changing different optical components Synthesize different optical instruments or change the multiplying power of optical instrument.But above-mentioned optical teaching aid is because rectangular box moulding is fixed, Therefore can not variable shaping, for the student of like starting dismounting or block toy, the creativity that can be played is limited, scarce Weary interest.
The content of the invention
Problem to be solved in the utility model is to provide a kind of optics and probes into modular system, and it is spliced by bolt-type accumulates Wood experiment suit, it is simple in construction, cost is low, installation consolidates, splices convenient and swift, be advantageous to imagination and the creation of training student Power.The technical scheme of use is as follows:
Optics probes into modular system, including frame building block unit, optics group and light emitting module, it is characterised in that:Institute Stating frame building block unit includes multiple connecting rod building blocks and multiple latch building blocks, and the connecting rod building blocks and light emitting module are provided with least One jack, the latch building blocks are provided with least two can form the plug that grafting coordinates, multiple connecting rod building blocks with the jack Frame building block unit is formed by multiple latch building blocks, the optics group and light emitting module are separately mounted to frame building block list In member.
In said structure, support frame of the frame building block unit as optics exploration instrument, connecting rod building blocks can be any The structure of geometry, latch building blocks can be the structures of any length, by multiple connecting rod building blocks and multiple latch building blocks not Same combination forms different optical instrument framework moulding.
As preferred scheme of the present utility model, the optics, which probes into modular system, also includes at least one projection screen, institute Projection screen is stated to be placed in front of frame building block unit.Projection screen is placed in front of frame building block unit, is easy to observe various optics Phenomenon result.
As preferred scheme of the present utility model, the optics group includes at least one aperture dividing plate, the aperture Dividing plate is arranged on the front end of frame building block unit, and the light emitting module is arranged on the rear end of frame building block unit.It is real according to optics The Experimental Research requirement for probing into middle pinhole imaging system is tested, aperture dividing plate and light emitting module are separately mounted on frame building block unit, Pinhole imaging system experiment equipment is assembled into, light emitting module transmitting light source, can be on projection screen after light source is by the hole on aperture dividing plate It was observed that the real image to stand upside down.
As the utility model preferred scheme, the optics group includes at least one concave mirror module, the concave surface Mirror module is arranged on the lower end of frame building block unit, and the light emitting module is arranged on the upper end of frame building block unit.According to optics Concave mirror module and light emitting module, are separately mounted to frame building block unit by the Experimental Research requirement of solar cooker in Experimental Research On, solar cooker experiment equipment, light emitting module transmitting light source are assembled into, light source is radiated in concave mirror module, can be in concave mirror The focal point of module experiences higher temperature.
As the utility model preferred scheme, the optics group includes at least one level crossing module, the plane Mirror module is arranged on the front end of frame building block unit, and the light emitting module is arranged on the rear end of frame building block unit.According to optics Level crossing module and light emitting module, are separately mounted to frame building block unit by the Experimental Research requirement of the reflection of light in Experimental Research On, the reflecting experimental equipment of light is assembled into, light emitting module transmitting light source, reflection of the light source Jing Guo level crossing module, can projected Reflected light is observed on screen.
As the utility model preferred scheme, the optics group includes at least one prism module, the Rhizoma Sparganii Mirror module is arranged on the front end of frame building block unit, and the light emitting module is arranged on the rear end of frame building block unit.According to optics Prism module and light emitting module, are separately mounted to frame by the requirement of the Experimental Research of the dispersion of light and the refraction of light in Experimental Research On frame building block unit, prism experiment equipment is assembled into, when light emitting module launches light source, after light source is by prism module, energy Dispersion phenomenon and refraction effect are seen on projection screen.
In said structure, optics group and light emitting module are assembled in frame by the requirement probed into according to different Experiments of Optics On frame building block unit, light irradiation in optics group, can be achieved to probe into pinhole imaging system principle, solar cooker original by light emitting module The refraction principle of reason, the principle of reflection of light, the chromatic dispersion principle of light and light.This optics probe into modular system combination optical principle with Optical application mechanical realization, supporting junior physicses Experiments of Optics, creatively assemble optics and probe into building blocks suit, visually open up Show experiment effect;Coordinate requirement of experiment, by the way that various optical elements are placed in corresponding building blocks suit, optics can be probed into and showed As.
As the further preferred scheme of the utility model:Housing, the housing of level crossing module of the concave mirror module It is equipped with least one and connecting rod building blocks jack identical jack.Module provided with jack passes through latch building blocks connection framework building blocks Unit so that each module is firm to be arranged on frame building block unit.
The beneficial effect of the utility model against existing technologies is, the structure of this product is simple, cost is low, installation is firm, Splice it is convenient and swift, by bolt-type splice building blocks experiment suit, allow student both to will appreciate that optical application principle and conventional optical Using mechanical realization, and can is familiar with optical element, coordinates Classroom theory, obtains the knowledge in terms of practice.Allow building blocks more changes, Detachably, reducible characteristic is played, and obtains more enjoyment, is advantageous to the imagination and creativity of training student, tool There are moral and high playability, create the new market space.
Brief description of the drawings
Fig. 1 is the structural representation of the utility model embodiment 1;
Fig. 2 is the structural representation of the utility model embodiment 2;
Fig. 3 is the structural representation of the utility model embodiment 3;
Fig. 4 is the structural representation of the utility model embodiment 4.
Embodiment
The utility model is specifically described with specific embodiment below in conjunction with the accompanying drawings.
Embodiment 1
As shown in figure 1, the optics in the present embodiment probes into modular system, including frame building block unit 1, aperture dividing plate 2, hair Optical module 3 and projection screen 4, frame building block unit 1 include multiple connecting rod building blocks and multiple latch building blocks, connecting rod building blocks and luminous mould Block 3 is provided with multiple jacks, and latch building blocks are provided with multiple plugs that grafting cooperation can be formed with the jack, and multiple connecting rod building blocks lead to Multiple latch building blocks composition frame building block units 1 are crossed, aperture dividing plate 2 is arranged on the front end of frame building block unit 1, light emitting module 3 Installed in the rear end of frame building block unit 1, projection screen 4 is placed on the front of frame building block unit 1.
The Experimental Research requirement of middle pinhole imaging system is probed into according to Experiments of Optics, module is arranged on frame building block list corresponding to In member 1, pinhole imaging system experiment equipment is assembled into, light emitting module 3 launches light source, can be after light source is by the hole on aperture dividing plate 2 The real image to stand upside down is observed on projection screen 4.
Embodiment 2
As shown in Fig. 2 the difference that the optics in the present embodiment probes into modular system and embodiment 1 is:
The optics probes into modular system, including frame building block unit 1, concave mirror module 5, light emitting module 3, frame building block Unit 1 includes multiple connecting rod building blocks and multiple latch building blocks, and connecting rod building blocks, light emitting module 3 and the housing of concave mirror module 5 are provided with more Individual jack, latch building blocks are provided with multiple plugs that grafting cooperation can be formed with the jack, and multiple connecting rod building blocks pass through multiple insert Building blocks composition frame building block unit 1 is sold, concave mirror module 5 is arranged on the lower end of frame building block unit, and light emitting module 3 is arranged on frame The upper end of frame building block unit 1.
The Experimental Research requirement of middle solar cooker is probed into according to Experiments of Optics, module is arranged on frame building block unit corresponding to On 1, solar cooker experiment equipment is assembled into, light emitting module 3 launches light source, and light source is radiated in concave mirror module 5, can be in concave surface The focal point of mirror module 5 experiences higher temperature.
Embodiment 3
As shown in figure 3, the difference that the optics in the present embodiment probes into modular system and embodiment 1 is:
The optics probes into modular system, including frame building block unit 1, level crossing module 6, light emitting module 3 and projection screen 4, frame building block unit 1 includes multiple connecting rod building blocks and multiple latch building blocks, connecting rod building blocks, light emitting module 3 and level crossing module 6 Housing is provided with multiple jacks, and latch building blocks are provided with multiple plugs that grafting cooperation can be formed with the jack, multiple connecting rod building blocks Frame building block unit 1 is formed by multiple latch building blocks, level crossing module 6 is arranged on the front end of frame building block unit 1, and light mould Block 3 is arranged on the rear end of frame building block unit 1, and projection screen 4 is placed on the side of frame building block unit 1.
The Experimental Research requirement of the reflection of middle light is probed into according to Experiments of Optics, module is arranged on frame building block list corresponding to In member 1, the reflecting experimental equipment of light is assembled into, light emitting module 3 launches light source, reflection of the light source Jing Guo level crossing module 6, can be Reflected light is observed on projection screen 4.
Embodiment 4
As shown in figure 4, the difference that the optics in the present embodiment probes into modular system and embodiment 1 is:
The optics probes into modular system, including frame building block unit 1, prism module 7, light emitting module 3 and projection screen 4, frame building block unit 1 includes multiple connecting rod building blocks and multiple latch building blocks, and connecting rod building blocks and light emitting module 3 are provided with multiple insert Hole, latch building blocks are provided with multiple plugs that grafting cooperation can be formed with the jack, and multiple connecting rod building blocks are accumulated by multiple latches Wood composition frame building block unit 1, prism module 7 is arranged on the front end of frame building block unit 1, and light emitting module 3 is arranged on framework The rear end of building block unit 1, projection screen 4 are placed on the front of frame building block unit 1.
The Experimental Research requirement of the dispersion of middle light and the refraction of light is probed into according to Experiments of Optics, module is arranged on corresponding to On frame building block unit 1, prism experiment equipment is assembled into, when light emitting module 3 launches light source, light source passes through prism module 7 Afterwards, dispersion phenomenon and refraction effect can be seen on projection screen 4.

Claims (8)

1. optics probes into modular system, including frame building block unit, optics group and light emitting module, it is characterised in that:It is described Frame building block unit includes multiple connecting rod building blocks and multiple latch building blocks, and the connecting rod building blocks and light emitting module are provided with least one Individual jack, the latch building blocks are provided with least two can form the plug that grafting coordinates with the jack, and multiple connecting rod building blocks lead to Multiple latch building blocks composition frame building block units are crossed, the optics group and light emitting module are separately mounted to frame building block unit On.
2. optics as claimed in claim 1 probes into modular system, it is characterised in that:The optics, which probes into modular system, also to be included At least one projection screen, the projection screen are placed in front of frame building block unit.
3. optics as claimed in claim 1 probes into modular system, it is characterised in that:The optics group includes at least one Aperture dividing plate, the aperture dividing plate are arranged on the front end of frame building block unit, and the light emitting module is arranged on frame building block unit Rear end.
4. optics as claimed in claim 1 probes into modular system, it is characterised in that:The optics group includes at least one Concave mirror module, the concave mirror module are arranged on the lower end of frame building block unit, and the light emitting module is arranged on frame building block The upper end of unit.
5. optics as claimed in claim 4 probes into modular system, it is characterised in that:The housing of the concave mirror module is provided with extremely Few one and connecting rod building blocks jack identical jack.
6. optics as claimed in claim 1 probes into modular system, it is characterised in that:The optics group includes at least one Level crossing module, the level crossing module are arranged on the front end of frame building block unit, and the light emitting module is arranged on frame building block The rear end of unit.
7. optics as claimed in claim 6 probes into modular system, it is characterised in that:The housing of the level crossing module is provided with extremely Few one and connecting rod building blocks jack identical jack.
8. optics as claimed in claim 1 probes into modular system, it is characterised in that:The optics group includes at least one Prism module, the prism module are arranged on the front end of frame building block unit, and the light emitting module is arranged on frame building block The rear end of unit.
CN201720307732.4U 2017-03-28 2017-03-28 Optics probes into modular system Expired - Fee Related CN206675994U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201720307732.4U CN206675994U (en) 2017-03-28 2017-03-28 Optics probes into modular system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201720307732.4U CN206675994U (en) 2017-03-28 2017-03-28 Optics probes into modular system

Publications (1)

Publication Number Publication Date
CN206675994U true CN206675994U (en) 2017-11-28

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201720307732.4U Expired - Fee Related CN206675994U (en) 2017-03-28 2017-03-28 Optics probes into modular system

Country Status (1)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112451978A (en) * 2020-11-23 2021-03-09 乐聚(深圳)机器人技术有限公司 Control method, device and equipment of building block and storage medium

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112451978A (en) * 2020-11-23 2021-03-09 乐聚(深圳)机器人技术有限公司 Control method, device and equipment of building block and storage medium

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Granted publication date: 20171128

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