CN205230399U - Conductive pattern reading device and applied device's interaction platform - Google Patents

Abstract

The utility model discloses a conductive pattern reading device and applied device's interaction platform is through the capacitance value of responding to, detect each electrically conductive response piece to discernment on the medium different conductive pattern correspond the code, realized the reading of medium conductive pattern, and sound generating mechanism sends corresponding sound according to the code drive speaker that corresponds. Need not to set up chip and/or coil through printing conductive pattern on the medium in the medium, consequently effectively reducing the manufacturing cost of medium, more importantly only needs sticker or card simple to use to operate, can touch or place sound or the music that can acquire corresponding content according to the design of difference, and this technique product function is many, abundant in content, moreover different places can be arranged in to sticker or card, at any time nimble the use. The utility model discloses be not limited to the pronunciation chip, can utilize different chips to do different output, for example light, image, image or action etc..

Description

A kind of conductive pattern reading device and apply the interaction platform of this device

Technical field

The utility model relates to sounding electronic product, particularly a kind of conductive pattern reading device and apply the interaction platform of this device.

Background technology

Electronic sound reading matter is a kind of intelligence development reading matter helping child development vision, the sense of hearing and manipulative ability, children through placement or can touch different cards or paster obtains its corresponding sound or music, increase the interest of reading matter and interactive, break the mode of learning that Shen is vexed, children can be resided and learns in amusement.This technical products structure is simple, easy to use, if use interesting to listen to music or splendid contents, can cultivate the good behavior custom of children, be particularly suitable for children and use.

Just a lot of big and small dissimilar electronic sounding book is had to meet the demand in market on the market at present.And the employing technical requirement of this product and be functionally other products can not and.Meanwhile, the cost of this technical products is higher.

Electronic sounding book on the market generally all can use traditional electronic component as the printed circuit board (PCB) of hardboard, electric wire and metal clips (being commonly called as the young sheet of pot) etc., the conduction of the upper metal clips of its operation and stable rebound resilience can provide that a conducting is good, the on-off action of feel high-quality, but press metal clips and need certain dynamics, certain difficulty can be formed for young children.Moreover be placed in the hardboard printed circuit board (PCB) under metal clips, its thick and hard speciality also adds the limitation of installing space.

Also the e-book of picture mosaic sounding is had at present, it is by voice built-in in picture mosaic card or coding chip, picture mosaic card is positioned in the position of e-book correspondence depression, by conductive contact blade, the voice in picture mosaic card or coding chip data are read, and send corresponding sound, and the described conductive contact blade mode that also replaceable one-tenth RFID identifies identifies, but, in above-mentioned technical scheme, cost is too high, the more important thing is, owing to needing built-in chip in picture mosaic card, in order to avoid the wafer damage in card, described picture mosaic card needs enough thickness, greatly can increase production cost so undoubtedly, and can not be applied on thinner card or paster, its applicability and portability deficiency.

Utility model content

For solving the problem, the purpose of this utility model be to provide without the need to identify built-in chip in medium can complete identify sounding, realize the strong a kind of conductive pattern reading device of product lighting, applicability and apply the interaction platform of this device.

The technical scheme that the invention for solving the technical problem adopts is:

A kind of conductive pattern reading device, comprise sensor circuit plate and the medium being printed with corresponding coded conductive pattern, described medium divides the conduction induction zone having or more, described conductive pattern is printed in corresponding conduction induction zone, described sensor circuit plate comprises one or more the conduction sensor block corresponding with described conduction induction zone, also comprise the induction chip for responding to, detecting each conduction sensor block capacitance described, each conducts electricity sensor block and is connected described induction chip with on sensor circuit plate.

Different conductive patterns on described medium are to there being different codings, the induction chip of described sensor circuit plate is responded to, detect the capacitance of each conduction sensor block, when described sensor circuit plate be printed with conductive pattern medium contact or near time, the capacitance being printed with the conduction sensor block corresponding to conduction induction zone of conductive pattern changes, induction chip is by the capacitance of each conduction sensor block of induction, converse the coding corresponding to conductive pattern, namely read the conductive pattern on medium.

Further, described sensor circuit plate is provided with public sensor block, described medium is provided with the public induction zone corresponding with described public sensor block, described conductive pattern continuous printing is on public induction zone and conduction induction zone.

Further, the conductive pattern on described medium and medium is by independently parts or formed by two or more parts splits.

Further, corresponding one of the partially conductive pattern on described each parts is independently encoded, another absolute coding corresponding of the conductive pattern between parts after mutual split.

Further, described conduction sensor block can be consistent with the conduction shape of induction zone, size, can also be inconsistent, but position is corresponding.

Further, shape, the size of described public sensor block and public induction zone can be consistent, can also be inconsistent, but position are corresponding.

Further, described medium is card, paster, film, book, block figure, building blocks, magnet, paper product or non-paper product etc., but is not limited thereto, and the conductive pattern on described medium is conduction printing carbon slurry, silver slurry, blanching or cold wave etc., but is not limited thereto.

Further, described sensor circuit plate is traditional circuit-board or printed circuit board, and the material of described sensor circuit plate can be fiberboard, PET, paper, extrusion coating paper or any non-metal kind, but is not limited thereto.

Further, described conduction induction zone, conduction sensor block are rectangle, circle, annular, heart or any rule or irregular shape.

Further, described public sensor block, public induction zone are rectangle, circle, annular, heart or any rule or irregular shape.

A kind of interaction platform applying above-mentioned conductive pattern reading device, comprise interaction platform carrier and the described medium being printed with conductive pattern, described interaction platform carrier comprises induction chip, sound-producing device and described sensor circuit plate, described sound-producing device, induction chip are connected successively with sensor circuit plate, institute's induction chip is by conductive pattern corresponding on sensor circuit plate induction medium and convert corresponding coding to, and sound-producing device drives loudspeaker to send corresponding sound according to the coding of correspondence.

Further, described interaction platform carrier is the style of calligraphy, toy, daily necessities, packing box or any type of device, but is not limited thereto.

The beneficial effects of the utility model are:

For a kind of conductive pattern reading device that the utility model adopts, described induction chip by induction, the capacitance detecting each conduction sensor block, thus identifies the correspondence coding of different conductive pattern on medium, achieves the reading to medium conductive pattern, because described medium is just printed with conductive pattern, and without the need to arranging chip and/or coil in medium, therefore the production cost of medium can effectively be reduced, the more important thing is, described medium can select soft or ultra-thin material, as thin card, paster, the paper products such as film or non-paper category, but be not limited thereto, the weight of effective reduction product, improve portability and the variation of product, in addition, adopt the mode identifying conductive pattern, only sensor circuit plate and medium need be touched gently or closely can complete identification, greatly facilitate the use of children, and effectively save installing space.

For a kind of interaction platform applying conductive pattern reading device that the utility model adopts, described induction chip is by induction, the capacitance detecting each conduction sensor block, thus the correspondence of different conductive pattern is encoded on identification medium, achieve the reading to medium conductive pattern, and described sound-producing device drives loudspeaker to send corresponding sound according to the coding of correspondence.The utility model passes through at printing on media conductive pattern without the need to arranging chip and/or coil in medium, therefore the production cost of medium can effectively be reduced, the more important thing is, only need to use simple paster or card to operate, can carry out touching or place the sound or music that can get corresponding contents according to different designs, and this technical products function is many, abundant in content, and described paster or card can be placed in different places, can use flexibly at any time.The utility model is not limited to speech chip, and different chips can be used to do different output, such as light, image, image or action etc.

Accompanying drawing explanation

Below in conjunction with accompanying drawing and example, the utility model is described in further detail.

Fig. 1 is the STRUCTURE DECOMPOSITION figure of the utility model conductive pattern reading device, interaction platform;

Fig. 2, Fig. 3 are the corresponding relation figure of the utility model sensor circuit plate conduction sensor block conductive pattern different from medium;

Fig. 4 is the second example structure view of the utility model sensor circuit plate;

Fig. 5 is the second example structure view of the utility model medium conductive pattern;

Fig. 6 is the topology view that the utility model interaction platform is applied on book;

Fig. 7 is the structural relation view of the utility model draw-in groove and card medium;

Fig. 8 is the positive and negative structural representation of the utility model card;

Fig. 9 is the topology view that the utility model interaction platform is applied on toy;

Figure 10 to Figure 13 is the pattern of other shape of the utility model medium conductive pattern;

Figure 14 is the split schematic diagram of the utility model the 3rd embodiment;

Figure 15 is the split schematic diagram of the utility model the 4th embodiment;

Figure 16 is the split schematic diagram of the utility model the 5th embodiment;

Figure 17 is the split schematic diagram of the utility model the 6th embodiment;

Figure 18 is schematic block circuit diagram of the present utility model.

Embodiment

With reference to Fig. 1-Figure 18, a kind of conductive pattern reading device of the present utility model, comprise induction chip 100, sensor circuit plate 300 and the medium 400 being printed with conductive pattern 401, medium 400 can be printed with different conductive patterns 401, the coding that conductive pattern 401 correspondences one different on described medium 400 is different, the number of described coding can infinitely expand, described medium 400 can adopt ultra-thin or soft material, as thin card, paster, the paper products such as film or non-paper category, but be not limited thereto, with reference to Fig. 2, shown in Fig. 3, described medium 400 divides the conduction induction zone 402 having or more, described conductive pattern 401 coding different according to it is printed on different conduction induction zones 402, form different conductive patterns 401.

With reference to shown in Fig. 1, Fig. 3, described sensor circuit plate 300 comprises one or more the conduction sensor block 301 corresponding with described conduction induction zone 402.Described induction chip 100 conducts electricity sensor block 301 with each and is connected.Described induction chip 100 is for responding to the capacitance of each conduction sensor block 301 sensor block.

When described sensor circuit plate 300 and the conductive pattern 401 on medium 400 are touched or are close, the conduction induction zone 402 being printed with conductive pattern 401 can change the corresponding capacitance conducted electricity on sensor block 301 with it, described induction chip 100 passes through induction, detects the capacitance on each conduction sensor block 301 thus identify conductive patterns 401 different on medium 400, and obtains the coding corresponding to conductive pattern 401 according to detected capacitance.

Different conductive patterns 401 on described medium 400 are to there being different codings, induction chip 100 is responded to, detect the capacitance of each conduction sensor block 301, when described sensor circuit plate 300 to contact with the medium 400 being printed with conductive pattern 401 or near time, the capacitance being printed with the conduction sensor block 301 corresponding to conduction induction zone 402 of conductive pattern 401 changes, induction chip 100 is by the capacitance of each conduction sensor block 301 of induction, converse the coding corresponding to conductive pattern 401, namely read the conductive pattern 401 on medium 400.

Described sensor circuit plate 300 is traditional circuit-board or printed circuit board, and the material of described sensor circuit plate 300 can be fiberboard, PET, paper, extrusion coating paper or any non-metal kind, but is not limited thereto.

In order to improve the accuracy of detection further, described sensor circuit plate 300 is provided with public sensor block 302, described medium 400 is provided with the public induction zone 403 corresponding with described public sensor block 302, described conductive pattern 401 continuous printing is on public induction zone 403 and conduction induction zone 402, by arranging public induction zone 403 and public sensor block 302, can effectively improve accuracy of detection of the present utility model.

Particularly, described conduction sensor block 301 and the conduction shape of induction zone 402, size are identical, and shape, the size of public sensor block 302 and public induction zone 403 are identical.The utility model conduction induction zone 402, the pattern of conduction sensor block 301 can adopt as Fig. 2, rectangle shown in Fig. 3, described medium 400 and sensor circuit plate 300 are rectangle, described public induction zone 403 and public sensor block 302 are strip, be arranged at the middle part of medium 400 and sensor circuit plate 300 respectively, described conduction induction zone 402, the distribution of conduction sensor block 301 is arranged at public induction zone 403, the both sides of public sensor block 302, certainly, described public induction zone 403 and public sensor block 302 are except being arranged at middle part, can also because of in requisition for being arranged at different positions, described conduction induction zone 402, conduction sensor block 301 is except being arranged at both sides, can also because of in requisition for being arranged at different positions, in the present embodiment, the conduction induction zone 402 of both sides, public induction zone 403 is respectively provided with 4, certainly, the quantity of conduction induction zone 402 can be set arbitrarily according to actual needs.Described medium 400 is printed with conductive pattern 401 along conduction induction zone 402 and public induction zone 403, conductive pattern 401 printed on each conduction induction zone 402 is interconnected with the conductive pattern 401 that print on public induction zone 403 respectively, is formed integrally, continuous print conductive pattern 401.This design not only allow conductive pattern 401 convenient, reduce the difficulty of printed conductive patterns 401, improve the printing precision of conductive pattern 401, and the conductive pattern 401 conducted electricity on induction zone 402 is interconnected with the conductive pattern 401 on public induction zone 403, the accuracy of identification of induction chip 100 to conduction sensor block 301 capacitance effectively can be improved.

Correspondingly, described conduction induction zone 402, conduction sensor block 301 also can be designed to different shapes, such as Fig. 4, shown in Fig. 5, described medium 400 and sensor circuit plate 300 are all arranged to circle, described conduction induction zone 402 and conduction sensor block 301 are circular ring type, described medium 400 is provided with the public induction zone 403 connecting each conduction induction zone 402 described, in the present embodiment, by printing different conductive patterns 401 on conduction induction zone 402, described induction chip 100 is responded to, detect the capacitance on each ring shaped conductive sensor block 301, obtain the coding corresponding to different conductive pattern 401.

Conduction induction zone of the present utility model 402 and conduction sensor block 301 can be designed to different shapes, and the heart as shown in Figure 10 to 13 or any rule or irregular shape, be not limited to the above embodiments.

Medium 400 described in the utility model can be card, paster, film, book, block figure, building blocks, magnet, paper product or non-paper product etc., but be not limited thereto, conductive pattern 401 on described medium 400 can be conduction printing carbon slurry, silver slurry, blanching or cold wave, but is not limited thereto.In the utility model, conductive pattern 401 is printed on medium 400, and described printing can adopt different mode of printings, such as smear, transfer printing, silk-screen, also can adopt the technique such as blanching, cold wave, but be not limited thereto.

Further, described medium 400 and the conductive pattern on medium 400 401 can by independently parts or formed by two or more parts splits, with reference to shown in Figure 14, described medium 400 is card or paster, described medium 400 comprises first component 400a and second component 400b, described first component 400a and second component 400b is printed with partially conductive pattern 401a respectively, when after first component 400a and second component 400b split, forms complete conductive pattern 401.After forming concrete conductive pattern by the mode of split; could identify conductive pattern further; certainly; the parts of above-mentioned split are not limited to two and also can adopt multiple; as long as apply identical principle namely belong to protection domain of the present utility model; when being applied in interaction platform, the interactive of product can be improved further, the manipulative ability of training child and mental training.

Further, above-mentioned medium 400 is except can being card or paster, also can be the mutual split of toy article or articles for daily use, such as with reference to shown in Figure 15, described medium 400 is toy building, comprise first component 400a, second component 400b and the 3rd parts 400c, wherein first component 400a, second component 400b and the 3rd parts 400c is printed with partially conductive pattern 401a separately, first component 400a, second component 400b and the 3rd parts 400c and mutual split (being the mode of nested split in the present embodiment), partially conductive pattern 401a on all parts is combined into the conductive pattern 401 of corresponding coding, wherein the mode of split can be selected as required, such as side by side, stack.Except toy building, also can adopt other toy style or adopt daily necessities to carry out the conductive pattern that split forms corresponding coding, will not enumerate at this, as long as use identical principle namely belong to protection domain of the present utility model.

Further, described medium 400 is formed except the conductive pattern of corresponding coding except adopting mutual split, partially conductive pattern on the different parts of composition medium 400 all may correspond to one and independently encodes, such as shown in Figure 16, comprise first component 400a and second component 400b, partially conductive pattern 401a on described first component 400a and second component 400b is corresponding coding ID1 and ID2 respectively, as the coding then corresponding ID3 of the conductive pattern 401 will formed when described first component 400a and second component 400b split.The quantity that parts combine separately is unrestricted, such as, shown in Figure 17, adopts 4 parts 400a, 400b, 400c, 400d with each own coding ID4, ID5, ID6, ID7 to be combined into the medium 400 of 1 coding ID8.Playability and the composability of product can being provided like this, when being applied in interaction platform, expansion and the application performance of product can being provided.

Above-mentioned conductive pattern reading device, may be used in various interaction platform, with reference to Fig. 1, shown in Fig. 6, comprise interaction platform carrier and the described medium 400 being printed with conductive pattern 401, described interaction platform carrier comprises induction chip 100, sound-producing device 200 and described sensor circuit plate 300, also comprise the battery for carrying out powering for above-mentioned device, described sound-producing device 200, induction chip 100 is connected successively with sensor circuit plate 300, speech chip 201 in described sound-producing device 200 saves each conductive pattern 401 and to encode corresponding audio-frequency information, described induction chip 100 is by conductive pattern 401 corresponding on sensor circuit plate 300 induction medium 400 and convert corresponding coding to, sound-producing device 200 drives loudspeaker 202 to send corresponding sound according to the coding of correspondence.The utility model is not limited to speech chip, and different chips can be used to do different output, such as light, image, image or action etc.

Described sound-producing device 200 comprises speech chip 201 and loudspeaker 202, stores coding and the voice signal corresponding with described coding in described speech chip 201.Wherein said induction chip 100 also can be built in speech chip 201 or as shown in Figure 1, speech chip 201 is arranged on one piece of circuit board jointly.

The utility model interaction platform carrier can have multiple way of realization, the such as style of calligraphy, toy, daily necessities, packing box or any type of device, but be not limited thereto, described medium 400 can be card, paster, film, book, block figure, building blocks, magnet, paper product or non-paper product etc., but is not limited thereto.When described interaction platform carrier is the style of calligraphy, with reference to shown in Fig. 6, comprise at the bottom of written, book and some pages, described sound-producing device 200 is mounted and fixed at the bottom of book or book side.Described sensor circuit plate 300 is arranged at the bottom of written, book or on page, only need card and sensor circuit plate 300 pairs of good positions, the coding of this chip can be confirmed and the correct sounding of control loudspeaker 202, certainly, also can as shown in Figure 7, at the bottom of written, book or page is provided with the draw-in groove 500 of corresponding card, described card is positioned in draw-in groove 500, this coding corresponding to card conductive pattern 401 can be identified, and send the sound of this coding corresponding.Such as shown in Figure 8, the front of this card is the pattern of apple, and the back side is the conductive pattern 401 corresponding with this apple pattern, when being positioned in draw-in groove 500 by described card, namely sound-producing device 200 sends the English pronunciation of apple, plays teaching, interactive effect.

The circuit theory diagrams of the utility model interaction platform as shown in figure 18.

When described interaction platform carrier is toy, described sensor circuit plate 300 is fixed in toy, if by toy and with function card to good position, identification sounding can be carried out.Described toy can have different forms, such as with reference to shown in Fig. 1, Fig. 9, described toy is toy-seal, described sensor circuit plate 300 is arranged at the bottom of toy-seal, described medium 400 can be card, paster, film, book, block figure, building blocks, magnet, paper product or non-paper product etc., but is not limited thereto.When for card, when toy-seal is positioned on card and the concurrent sound of identifiable design, when for paster, paster can be attached in the first-class optional position of books, desktop or wall by user, only need to allow toy-seal cover on paster, identification sounding can be carried out, in like manner toy-seal is carried out contacting sounding with toy article or household goods, its interactive good, dirigibility is high, playability is better.

Toy, except seal, also can adopt the toy of different forms, and described interaction platform carrier is also not limited to the above-mentioned style of calligraphy or toy.

The above, just preferred embodiment of the present utility model, the utility model is not limited to above-mentioned embodiment, as long as it reaches technique effect of the present utility model with identical means, all should belong to protection domain of the present utility model.

Claims (10)

1. a conductive pattern reading device, it is characterized in that: comprise sensor circuit plate and the medium being printed with corresponding coded conductive pattern, described medium divides the conduction induction zone having or more, described conductive pattern is printed in corresponding conduction induction zone, described sensor circuit plate comprises one or more the conduction sensor block corresponding with described conduction induction zone, also comprise the induction chip for responding to, detecting each conduction sensor block capacitance described, each conducts electricity sensor block and is connected described induction chip with on sensor circuit plate.

2. a kind of conductive pattern reading device according to claim 1, it is characterized in that: described sensor circuit plate is provided with public sensor block, described medium is provided with the public induction zone corresponding with described public sensor block, described conductive pattern continuous printing is on public induction zone and conduction induction zone.

3. a kind of conductive pattern reading device according to claim 1 and 2, is characterized in that: the conductive pattern on described medium and medium is by independently parts or formed by two or more parts splits.

4. a kind of conductive pattern reading device according to claim 3, is characterized in that: corresponding one of the partially conductive pattern on described each parts is independently encoded, another absolute coding corresponding of the conductive pattern between parts after mutual split.

5. a kind of conductive pattern reading device according to claim 2, is characterized in that: shape, the size of described public sensor block and public induction zone are identical.

6. a kind of conductive pattern reading device according to claim 1, is characterized in that: described medium is card or paster, and the conductive pattern on described medium is conduction printing carbon slurry, silver slurry, blanching or cold wave.

7. a kind of conductive pattern reading device according to claim 1, is characterized in that: described conduction induction zone, conduction sensor block are rectangle, circle, annular or heart-shaped.

8. a kind of conductive pattern reading device according to claim 2, is characterized in that: described public sensor block, public induction zone are rectangle, circle, annular or heart-shaped.

9. the interaction platform of application rights requirement 1 to a 8 arbitrary described conductive pattern reading device, it is characterized in that: comprise interaction platform carrier and the described medium being printed with conductive pattern, described interaction platform carrier comprises induction chip, sound-producing device and described sensor circuit plate, described sound-producing device, induction chip are connected successively with sensor circuit plate, institute's induction chip is by conductive pattern corresponding on sensor circuit plate induction medium and convert corresponding coding to, and sound-producing device drives loudspeaker to send corresponding sound according to the coding of correspondence.

10. a kind of interaction platform according to claim 9, is characterized in that: described interaction platform carrier is the style of calligraphy, toy, daily necessities or packing box.