CN106110679A - A kind of photoelectric sensing module for smart electronics building blocks - Google Patents

Abstract

The present invention discloses a kind of photoelectric sensing module for smart electronics building blocks, the parts such as including high level input, data/address bus input, signal input part, low level input, high level output end, data/address bus outfan, signal output part, low level output end, taper bowl bodies, module handler, analog-digital converter, digital to analog converter, splicing construction body, upper cover housing, input fixing body, outfan fixing body, optical-electric module.The present invention uses special taper bowl-shape protection structure, can limit photoelectric sensor and be only capable of the ambient light intensity of capture setting incident area；Photoelectric sensor and processor are controlled sensitivity, trigger value and environmental correction coefficient by data/address bus by actuator.The photoelectric sensing module of the present invention, uses the unified splicing construction of particular design, according to demand different types of module can be carried out free splicing, builds form realizing any form of building blocks.The intelligent building block module of the present invention, bridging arrangement is succinct, easy to use.

Description

A kind of photoelectric sensing module for smart electronics building blocks

Technical field

The present invention relates to intelligent toy technical field, be specifically related to a kind of photoelectric sensing mould for smart electronics building blocks Block.

Background technology

Front a lot of circuit class experimental products all exist with a kind of absolute version, it is impossible to the product of frame for movement class Being used together, its splicing, circuit connect and all there is various restriction, and user is difficult to the demand according to oneself and idea is freely spelled Connect, it is difficult to transfer youngsters and children for building structure and the cognition of circuit theory.In order to solve this problem, it is necessary to carry Go out a kind of can independent assortment, the intelligence according to user's idea free splicing, modularity building blocks, meet user and carrying out building blocks splicing During, experience enjoyment that electronic control circuit brings and learn relevant knowledge.To this end, the present invention provides a kind of for intelligence The photoelectric sensing module of electronic building blocks, can sense the light intensity setting incidence range, produces different voltage according to light intensity Intensity thus realize utilize light intensity that smart electronics building blocks splicing system is automatically controlled.The intelligent building blocks related to of the present invention System is made up of multiple intelligence building block module (abbreviation building block module).

Summary of the invention

The present invention proposes a kind of photoelectric sensing module for smart electronics building blocks, can sense the light setting incidence range Line strength, produces different voltage strength according to light intensity thus realizes utilizing light intensity to smart electronics building blocks splicing system Automatically control.

The purpose of the present invention realizes at least through one of following technical scheme.

A kind of photoelectric sensing module for smart electronics building blocks, including high level input, data/address bus input, letter Number input, low level input, high level output end, data/address bus outfan, signal output part, low level output end, cone Shape bowl bodies, module handler, analog-digital converter, digital to analog converter, splicing construction body, upper cover housing, input fixing body, defeated Go out to hold fixing body, circuit board and optical-electric module；

Described taper bowl bodies mainly includes bowl edge, inverted cone face and installs buckle；Described bowl along be one with fillet just Square planar body edge, is socketed on outside inverted cone face；Taper surface is dark or opaque material so that side light source cannot Reach the bottom of taper surface；Described inverted cone face and installation buckle are integrated attachment structure, and taper bowl bodies is by installing buckle Install with the draw-in groove on circuit board and be connected；

Described optical-electric module is placed on bottom the inverted cone face of taper bowl bodies, is required to be opening shape the most non-bottom described inverted cone face The structure closed, and be connected with welding circuit board；Described optical-electric module receives the incidence formed by inverted cone face upper end open Ambient light in region, according to light intensity output voltage signal；Described optical-electric module is connected with analog-digital converter, is believed by voltage Number be converted to digital signal by analog-digital converter, and further by digital data transmission to module handler；Described modulus turns The reference-calibrating magnitude of voltage of parallel operation is arranged by the actuator of intelligence modular system by data/address bus；Described optical-electric module and data The data/address bus connection at bus input end place, and by actuator, optical-electric module is set by the data/address bus of intelligence modular system Sensitivity and trigger value；

Signal input part is connected with analog-digital converter by wire, and the voltage signal of acquisition is converted to numeral letter by analog-digital converter Number, and pass to module handler by wire；If there are two groups of signals to be produced by signal input part and optical-electric module simultaneously The raw signal of telecommunication, then A-D converter then by the amplitude averaged of two groups of signals of telecommunication, is further converted to digital signal； The voltage signal of acquisition is converted to digital signal by analog-digital converter, and passes to processor by wire；Processor will process The result obtained with computing passes to digital to analog converter with digital signal, and digital to analog converter converts digital signals into simulation letter Number, and export from signal output part；

High level input, data/address bus input, signal input part and low level input that is four input are arranged on defeated Enter to hold in fixing body；The high level of the upper intelligence building block module overlapped with described photoelectric sensing module in intelligence modular system is defeated Go out end, data/address bus outfan, signal output part and low level output end and correspondingly contact connection with described four inputs, from And realize described photoelectric sensing module and access whole intelligence modular system；High level output end, data/address bus outfan, signal are defeated Go out end and low level output end that is four outfan is arranged in outfan fixing body；With described photoelectric transfer in intelligence modular system The next intelligence high level input of building block module, data/address bus input, signal input part and the low level of sense module overlap joint Input correspondingly contacts connection with described four outfans, provides electric energy and information for the next intelligence building block module；High level Input is directly connected with high level output end by high level wire；Low level input is direct with low by low level wire Level output end is connected；Data/address bus input is direct and data/address bus outfan by wire；At described optical-electric module, module Reason device, analog-digital converter and digital to analog converter are all connected with high level wire and low level wire, and obtain power supply；

Described splicing construction body includes pedestal, male boss, installs draw-in groove, female periphery body of wall, female square and female cylinder； Female periphery body of wall, female square and female cylinder collectively constitute several female grooves, and the quantity of female groove is by female side The quantity of block and female cylinder is determined；Energy accurately plugging in fitting between described male boss and described groove, when building blocks When the male boss of the female groove of module and another building block module assembles, both can produce the magnitude of interference of appropriateness, and generation rubs Wiping power；

Described upper cover housing includes shell, connects boss, housing buckle and optical-electric module installation cavity；The housing card of upper cover housing Button and the installation card slot fit installation of splicing construction body, make upper cover housing and splicing construction body be connected as an entirety；Photoelectricity mould Block installation cavity is used for accommodating taper bowl bodies；Multiple connection boss is set on shell, for being connected with other building block modules.

Further, described actuator be intelligence modular system an independent signal control module, include processor, LCD display, key-press input, communication interface and power supply interface etc., processing routine that processor is embedded, user can pass through actuator Set button, as information input terminal, is carried out the coding of information, and is exported by communication interface and right by actuator Intelligence building block module is set.

Further, optical-electric module has internal EEPROM, power down can preserve setting value；Optical-electric module passes through data/address bus Connect with actuator, and sensitivity and trigger value can be set by actuator；By actuator, user can arrange 10 grades sensitive Degree, corresponding numeral 0-9, under different sensitivity sets, the corresponding different exporting change amount of identical incident illumination variable quantity, spirit Sensitivity is the highest, and exporting change amount is the biggest；By actuator, user can arrange 10 grades of trigger values, and corresponding numeral 0-9, in difference Trigger value set under, trigger output incident intensity different.

Further, processor is connected with actuator by data/address bus, and can pass through actuator identification optical-electric module, uses Family can be that optical-electric module distributes recognition coding by actuator；User can pass through actuator set environment correction factor；Environment is repaiied Produced by positive coefficient and analog-digital converter, the product of digital signal is transferred to digital to analog converter as operation result.

Further, described optical-electric module uses photoelectric sensor.

Further, described male boss is cylindrical shape, has 1 ~ 4 cylinder, and these cylinders are arranged on base On seat.

Further, the corner angle A that described inverted cone face is corresponding is 45 ~ 75 degree.

Further, the quantity of described female groove is consistent with the quantity of male boss.

Relative to prior art, the invention have the advantages that

A kind of photoelectric sensing module for smart electronics building blocks of the present invention, uses special taper bowl-shape protection structure, can limit Determine photoelectric sensor and be only capable of the ambient light intensity of capture setting incident area；Photoelectric sensor and processor pass through data/address bus Sensitivity, trigger value and environmental correction coefficient is controlled by actuator.The photoelectric sensing module of the present invention, uses the system of particular design One splicing construction, can carry out free splicing by different types of module according to demand, builds shape realizing any form of building blocks Formula.The intelligent building block module of the present invention, bridging arrangement is succinct, easy to use.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of a kind of photoelectric sensing module for smart electronics building blocks in example.

Fig. 2 is the side structural representation of a kind of photoelectric sensing module for smart electronics building blocks in example；

Fig. 3 is the side structural representation of a kind of photoelectric sensing module for smart electronics building blocks in example；

Fig. 4 is the structural representation (removing upper cover housing) of a kind of photoelectric sensing module for smart electronics building blocks in example；

Fig. 5 is the structural representation of taper bowl bodies in example；

Fig. 6 is the axial plane sectional view of taper bowl bodies in example.

Fig. 7 is the side structural representation of splicing construction body in example；

Fig. 8 is the opposite side structural representation of splicing construction body in example；

Fig. 9 is the top view of Fig. 8.

Figure 10 is the side structural representation of the upper cover housing in example.

Figure 11 is the opposite side structural representation of the upper cover housing in example.

Figure 12 be in example the structural representation installed of outfan fixing body and output end connector；

Figure 13 be in example the structural representation installed of input fixing body and input joint；

Figure 14 be in example the structural representation of infrared sensing module and other electronic building blocks modules splicing.

Figure 15 is the explosive view of Figure 14.

In figure: 1-high level input；2-data/address bus input；3-signal input part；4-low level input；5-is high Level output end；6-data/address bus outfan；7-signal output part；8-low level output end；9-taper bowl bodies；10-module Processor；11-analog-digital converter；12-digital to analog converter；13-splicing construction body；14-upper cover housing；15-input fixing body； 16-outfan fixing body；17-circuit board；18-optical-electric module；91-bowl edge；92-taper surface；93-installs buckle；131-pedestal； 132-male boss；133-installs draw-in groove；134-female periphery body of wall；135-female square；136-female cylinder；Outside 141- Shell；142-connects boss；143-housing buckle；144-optical-electric module installation cavity.

Detailed description of the invention

Below with reference to specific embodiment, the invention will be further described, but the enforcement of the present invention and protection are not limited to This, if there being the process of not detailed description especially below, be all that those skilled in the art can refer to prior art realization.

As shown in Fig. 1～Figure 11, a kind of photoelectric sensing module for smart electronics building blocks, including high level input 1, Data/address bus input 2, signal input part 3, low level input 4, high level output end 5, data/address bus outfan 6, signal Outfan 7, low level output end 8, taper bowl bodies 9, module handler 10, analog-digital converter 11, digital to analog converter 12, splicing The parts such as structure 13, upper cover housing 14, input fixing body 15, outfan fixing body 16, circuit board 17, optical-electric module 18.

Such as Fig. 2, Fig. 4, Figure 12, Figure 13, high level input 1, data/address bus input 2, signal input part 3 and low level Input 4 is arranged in input fixing body 15；Aforementioned four input, respectively with intelligence modular system in the light of the present invention The upper intelligence high level output end of building block module of electricity sensing module overlap joint, data/address bus outfan, signal output part and low Level output end contact connects, thus the photoelectric sensing module realizing the present invention accesses whole intelligence modular system；High level is defeated Go out end 5, data/address bus outfan 6, signal output part 7 and low level output end 8 to be arranged in outfan fixing body 16；Above-mentioned four Individual outfan, the respectively height of building block module intelligent with the bottom that the photoelectric sensing module of the present invention overlaps with intelligence modular system Level input, data/address bus input, signal input part contact connection with low level input, for the next intelligence building block module Electric energy and information are provided；

As shown in Figure 5, Figure 6, described taper bowl bodies 9 mainly includes that bowl is along 91, inverted cone face 92 and installation buckle 93；Described bowl Along 91 be one with the square-shaped planar body edge of fillet, be socketed on outside inverted cone face 92；Taper surface is dark or not Transparent material so that side light source is unable to reach the bottom of taper surface；Described inverted cone face 92 and installation buckle 93 company of being integrated Access node structure, taper bowl bodies 9 is connected with the draw-in groove installation on circuit board 17 by installing buckle 93.

Described optical-electric module 18 is placed on bottom the inverted cone face 92 of taper bowl bodies 9, needs bottom described inverted cone face 92 For the most nonocclusive structure of opening shape, and it is welded to connect with circuit board 17；Described optical-electric module 18 receives by inverted cone face 92 Ambient light in the incident area that end opening is formed, according to light intensity output voltage signal；Described optical-electric module 18 and mould Number converter 11 connects, and by analog-digital converter 11, voltage signal is converted to digital signal, and is passed by digital signal further It is defeated by module handler 10；The reference-calibrating magnitude of voltage of described analog-digital converter 11 passes through data/address bus by intelligence modular system Actuator () is arranged in figure slightly；Described actuator is an independent signal control module of intelligence modular system, includes process Device, LCD display, key-press input, communication interface and power supply interface etc., processing routine that processor is embedded, user can be by adjusting Joint button set by device, as information input terminal, carries out the coding of information by actuator, and by communication interface export with And intelligence building block module is set.Described optical-electric module 18 connects with the data/address bus at data/address bus input 2 place, and Sensitivity and the trigger value of optical-electric module 18 are set by the data/address bus of intelligence modular system by actuator.

Such as Fig. 1, signal input part 3 is connected with analog-digital converter 11 by wire, the voltage that analog-digital converter 11 will obtain Signal translation bit digital signal, and pass to processor 10 by wire；If have two groups of signals by signal input part 3 simultaneously And optical-electric module 18 produces the signal of telecommunication, then A-D converter 11 is then by the amplitude averaged of two groups of signals of telecommunication, then enters One step is converted to digital signal；The voltage signal translation bit digital signal that analog-digital converter 11 will obtain, and transmitted by wire To processor 10；The result processed and computing obtains is passed to digital to analog converter 12 with digital signal by processor 10, and digital-to-analogue turns Parallel operation 12 converts digital signals into analogue signal, and exports from signal output part 7.

High level input 1, data/address bus input 2, signal input part 3 and low level input 4 that is four input It is arranged in input fixing body 15；The upper intelligence building block module overlapped with described photoelectric sensing module in intelligence modular system High level output end, data/address bus outfan, signal output part and low level output end correspondingly with described four inputs Contact connects, thus realizes described photoelectric sensing module and access whole intelligence modular system；High level output end 5, data/address bus Outfan 6, signal output part 7 and low level output end 8 that is four outfan are arranged in outfan fixing body 16；Intelligence building blocks In system with the next intelligence high level input of building block module of described photoelectric sensing module overlap joint, data/address bus input, Signal input part correspondingly contacts connection with described four outfans with low level input, provides for the next intelligence building block module Electric energy and information；High level input 1 is directly connected with high level output end 5 by high level wire；Low level input 4 leads to Cross low level wire to be directly connected with low level output end 8；Data/address bus input 2 is the most defeated with data/address bus by wire Go out end 6；Described optical-electric module 18, module handler 10, analog-digital converter 11 and digital to analog converter 12 all with high level wire and Low level wire connects, and obtains power supply.

Such as Fig. 7 ~ Fig. 9, described splicing construction body 13 includes pedestal 131, male boss 132, installs outside draw-in groove 133, female All bodies of wall 134, female square 135 and female cylinder 136 etc..Described male boss 132 is cylindrical shape, generally comprises 1 ~ 4 Individual cylinder, these cylinders are arranged on pedestal 131.Female periphery body of wall 134, female square 135 and female cylinder 136 are altogether With forming several grooves, the quantity of groove has the quantity of female square 135 and female cylinder 136 to be determined.Described male is convex Platform 132 and above-mentioned groove can accurate plugging in fitting, the quantity of usual groove is consistent with the quantity of male boss 132.When one is amassed When the male boss of the female groove of wooden model block and another building block module assembles, both can produce the magnitude of interference of appropriateness, produces Certain frictional force.

Such as Figure 10, Figure 11, described upper cover housing 14 mainly includes shell 141, connects boss 142, housing buckle 143 and light Electricity module installation cavity 144 etc.；The housing buckle 143 of upper cover housing 14 coordinates installation with the installation draw-in groove 133 of splicing construction body 13, Upper cover housing 14 and splicing construction body 13 thus be connected as an entirety.It is bowl-shape that optical-electric module installation cavity 144 is used for accommodating taper Body 9；Multiple connection boss 142 is set on shell 141, for being connected with other building block modules.

Further, optical-electric module 18 has internal EEPROM, can preserve setting value with power down；Optical-electric module passes through data Bus connects with actuator, and can arrange sensitivity and trigger value by actuator.By actuator, user can arrange 10 grades Sensitivity, corresponding numeral 0-9, under different sensitivity sets, the corresponding different exporting change of identical incident illumination variable quantity Amount, sensitivity is the highest, and exporting change amount is the biggest.By actuator, user can arrange 10 grades of trigger values, the digital 0-9 of correspondence, Under different trigger values sets, the incident intensity triggering output is different.

Further, processor 10 is connected with actuator by data/address bus, and can pass through actuator identification optical-electric module, User can be that optical-electric module distributes recognition coding by actuator.User can pass through actuator set environment correction factor.Environment Produced by correction factor and analog-digital converter 11, the product of digital signal is transferred to digital to analog converter 12 as operation result.

As an example, such as Figure 14, Figure 15, be in example infrared sensing module splice with other electronic building blocks modules Structural representation.

The announcement of book and teaching according to the above description, those skilled in the art in the invention can also be to above-mentioned embodiment party Formula changes and revises.Therefore, the invention is not limited in detailed description of the invention disclosed and described above, to the present invention's Some modifications and changes should also be as falling in the scope of the claims of the present invention.

Claims (7)

1. the photoelectric sensing module for smart electronics building blocks, it is characterised in that include that high level input (1), data are total Line input (2), signal input part (3), low level input (4), high level output end (5), data/address bus outfan (6), Signal output part (7), low level output end (8), taper bowl bodies (9), module handler (10), analog-digital converter (11), number Weighted-voltage D/A converter (12), splicing construction body (13), upper cover housing (14), input fixing body (15), outfan fixing body (16), electricity Road plate (17) and optical-electric module (18)；

Described taper bowl bodies (9) mainly includes that bowl along (91), inverted cone face (92) and installs buckle (93)；Described bowl edge (91) Be one with the square-shaped planar body edge of fillet, be socketed on inverted cone face (92) outside；Taper surface is dark or impermeable Bright material so that side light source is unable to reach the bottom of taper surface；Described inverted cone face (92) and installation buckle (93) are integrated Attachment structure, taper bowl bodies (9) is connected with the draw-in groove installation on circuit board (17) by installing buckle (93)；

Described optical-electric module (18) is placed on the bottom, inverted cone face (92) of taper bowl bodies (9), (92) end, described inverted cone face Portion is required to be the most nonocclusive structure of opening shape, and is welded to connect with circuit board (17)；Described optical-electric module (18) receives by back taper Ambient light in the incident area that shape face (92) upper end open is formed, according to light intensity output voltage signal；Described photoelectricity Module (18) is connected with analog-digital converter (11), by analog-digital converter (11), voltage signal is converted to digital signal, goes forward side by side One step by digital data transmission to module handler (10)；The reference-calibrating magnitude of voltage of described analog-digital converter (11) passes through data Bus is arranged by the actuator of intelligence modular system；Described optical-electric module (18) and the data at data/address bus input (2) place Bus connects, and is arranged sensitivity and the triggering of optical-electric module (18) by the data/address bus of intelligence modular system by actuator Value；

Signal input part (3) is connected with analog-digital converter (11) by wire, the voltage signal that analog-digital converter (11) will obtain Be converted to digital signal, and pass to module handler (10) by wire；If there are two groups of signals to be inputted by signal simultaneously End (3) and optical-electric module (18) produce the signal of telecommunication, then the amplitude of two groups of signals of telecommunication then is asked for putting down by A-D converter (11) Average, is further converted to digital signal；The voltage signal of acquisition is converted to digital signal by analog-digital converter (11), and leads to Cross wire and pass to processor (10)；The result processed and computing obtains is passed to digital-to-analogue with digital signal and turns by processor (10) Parallel operation (12), digital to analog converter (12) converts digital signals into analogue signal, and exports from signal output part (7)；

High level input (1), data/address bus input (2), signal input part (3) and low level input (4) i.e. four are defeated Enter end to be arranged in input fixing body (15)；In intelligence modular system, the upper intelligence with described photoelectric sensing module overlap joint is amassed The high level output end of wooden model block, data/address bus outfan, signal output part and low level output end correspondingly with described four Input contact connects, thus realizes described photoelectric sensing module and access whole intelligence modular system；High level output end (5), Data/address bus outfan (6), signal output part (7) and i.e. four outfans of low level output end (8) are arranged on outfan and install In body (16)；The high level input of intelligent building block module with the bottom of described photoelectric sensing module overlap joint in intelligence modular system End, data/address bus input, signal input part and low level input correspondingly contact connection with described four outfans, under Position intelligence building block module provides electric energy and information；High level input (1) is direct and high level output end by high level wire (5) it is connected；Low level input (4) is directly connected with low level output end (8) by low level wire；Data/address bus input (2) by wire directly and data/address bus outfan (6)；Described optical-electric module (18), module handler (10), analog digital conversion Device (11) and digital to analog converter (12) are all connected with high level wire and low level wire, and obtain power supply；

Described splicing construction body (13) includes pedestal (131), male boss (132), installs draw-in groove (133), female periphery body of wall (134), female square (135) and female cylinder (136)；Female periphery body of wall (134), female square (135) and female cylinder (136) collectively constituting several female grooves, the quantity of female groove is by female square (135) and the number of female cylinder (136) Amount is determined；Energy accurately plugging in fitting between described male boss (132) and described groove, when the female of a building block module is recessed When the male boss of groove and another building block module assembles, both can produce the magnitude of interference of appropriateness, produces frictional force；

Described upper cover housing (14) includes shell (141), connects boss (142), housing buckle (143) and optical-electric module installation Chamber (144)；The housing buckle (143) of upper cover housing (14) coordinates installation with the installation draw-in groove (133) of splicing construction body (13), makes Upper cover housing (14) and splicing construction body are connected as an entirety；Optical-electric module installation cavity (144) is used for accommodating taper bowl bodies (9)；Multiple connection boss (142) is set on shell (141), for being connected with other building block modules.

A kind of photoelectric sensing module for smart electronics building blocks the most according to claim 1, it is characterised in that: photoelectricity mould Block (18) has internal EEPROM, power down can preserve setting value；Optical-electric module is connected with actuator by data/address bus, and can lead to Overregulate device and sensitivity and trigger value are set；By actuator, user can arrange 10 grades of sensitivity, and corresponding numeral 0-9, not Under same sensitivity sets, the corresponding different exporting change amount of identical incident illumination variable quantity, sensitivity is the highest, exporting change amount The biggest；By actuator, user can arrange 10 grades of trigger values, corresponding numeral 0-9, under different trigger values sets, triggers The incident intensity of output is different.

A kind of photoelectric sensing module for smart electronics building blocks the most according to claim 1, it is characterised in that: processor (10) being connected with actuator by data/address bus, and can pass through actuator identification optical-electric module, user can be light by actuator Electricity module assignment recognition coding；User can pass through actuator set environment correction factor；Environmental correction coefficient and analog-digital converter (11) product of digital signal produced by is transferred to digital to analog converter (12) as operation result.

A kind of photoelectric sensing module for smart electronics building blocks the most according to claim 1, it is characterised in that: described light Electricity module (18) uses photoelectric sensor.

A kind of photoelectric sensing module for smart electronics building blocks the most according to claim 1, it is characterised in that: described public affairs Head boss (132) is cylindrical shape, has 1 ~ 4 cylinder, and these cylinders are arranged on pedestal (131).

A kind of photoelectric sensing module for smart electronics building blocks the most according to claim 1, it is characterised in that: described fall The corner angle A that taper surface (92) is corresponding is 45 ~ 75 degree.

A kind of photoelectric sensing module for smart electronics building blocks the most according to claim 1, it is characterised in that: described mother The quantity of head groove is consistent with the quantity of male boss (132).