KR200291781Y1 - language instruction device using a character card - Google Patents

Abstract

The present invention is to give a code corresponding to the character card information in black and white color on the character card frequently used for learning Hangul or English to children from 2 to 10 years old, printed in black and white color The present invention relates to a language learning apparatus using a text card that detects a code using a light sensor and provides information about a text card. In particular, the present invention provides a black text information on a back of dozens of text cards. Coded with white and white marks, each piece of information about the character card is recorded as voice data, compressed into digital data, and stored in memory. The voice data of the sentences to be created by the letter card combination. After compressing the data into the data and storing it in the memory, if a predetermined code is displayed in a black and white color character card on the designated card plate of the character card learning apparatus of the present invention, the code for the character card is analyzed. It reads the voice data of the corresponding character card stored in the memory and outputs it through the speaker. When the combination of the character cards completes a sentence, the voice of the completed sentence is read in the sentence voice data stored in the memory. It has a function of telling, in the way that a parent or teacher teaches the child by showing a picture with the existing simple letter card, the child himself puts the letter card on the card board using the letter card learning apparatus of the present invention. When released, information about the text card is spoken and several text cards are combined. When a sentence is formed, information about the sentence is spoken by voice, providing an environment in which the child can learn by himself / herself through the letter card, and also through the letter card and sentence learning and language listening lessons. In addition, a single sentence can be completed by using a combination of letters using multiple letter cards, thus creating a combined learning effect that combines cognitive and thinking skills.

Description

Language instruction device using a character card}

The present invention relates to a device for language learning with a character card recognition function, which prints a code for recognizing card information on a character card widely used for children's education, and automatically recognizes a pattern printed on a character card. A photo sensor can be attached to the learning device, and when the text card is placed on the learning device, the code information for the text card is automatically analyzed, and the voice information corresponding to the text card is read from the memory and played by voice. The present invention relates to a language learning apparatus using a character card that automatically reads voice data of a sentence from a memory and sounds it when a sentence is completed by a character card combination.

It is well known that children are good at learning, including attaining language skills. In particular, in early childhood, 80% of the brain is completed before the age of three, and a good music to give children a good concentration, memory and learning effects have been reported. As such, early education is important due to the theory that it has great learning ability in childhood, and in response to this, foreign language education, which was previously taught in middle school or above, has recently begun in elementary school, and furthermore, in kindergarten or preschool. Even young children are teaching foreign languages. In line with these times, educational materials and voice output toy devices using text cards are being released that can raise children's visual or auditory interests and increase educational effects.

Widely used for the education of children of low age, the character card is printed on the thick paper card for children's education. It is mainly used for studying letters and cognitive education about animals or objects. It is a card. Showing children visual media such as color books and text cards can help them develop the ability to recognize and focus on objects. However, the conventional education method using a text card made of paper has a problem in that the amount of educational information provided by the text card is limited and a passive education method must be helped by neighboring adults.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, the first object of the present invention is a character card recognition function for outputting a voice corresponding to the information code for the character card printed on the character card The present invention provides a language learning apparatus for outputting voice data.

A second object of the present invention is to generate a code for a sentence made by a combination of a character card through a code combination of a character card, and to output a speech corresponding to a sentence. To provide a learning device.

The third object of the present invention is to detect whether the character card is placed on the card plate through the optical sensor, and then detect the information code for the character card through the optical sensor for detecting the character card and store the character card in the memory device. Analyzes the voice storage information for the text card by comparing it with the code information, and outputs the text card information as voice data through this information, checks whether the combination of the text cards completes a sentence, and creates a sentence code. After comparing and analyzing whether the sentence code information exists in the sentence code previously stored in the memory storage device, the voice storage information for the sentence card is analyzed, and the sentence card information is output as the voice data through the information. To provide a language learning device using a letter card.

1) is an application example of the present invention,

2) is an overall system configuration of the present invention,

3) is a detailed configuration diagram of the N card code processing unit of the card code processing unit of FIG. 2);

4) shows a detailed configuration diagram of the card recognition unit of FIG. 2;

5) shows a detailed configuration diagram of the central control unit of FIG. 2),

6) shows an example of generating a sentence output code,

7 shows an example of the code data configuration.

Figure 1 of the present invention shows an example of the appearance of the product. In the example of Fig. 1, three types of character cards are used in the product, and the card plates on which the character cards are to be placed are divided into A card 10, B card 11, and C card 12.

On the card plate where each type of character card is to be placed, an optical sensor 14 for card recognition for recognizing whether each character card is placed on the card plate and an optical sensor 13 for card analysis for reading information codes for each card Is on each card face. The optical sensor 13 for card analysis present in each card plate differed in position depending on the card plate, in order to distinguish the types of each card. That is, the card information code to be displayed on the character card to be placed on each card plate is displayed in black or white at the same position as the light sensor located on each card plate. Therefore, when different types of cards are placed on an arbitrary card plate, the part detected by the light sensor is to be read by a specific code. This is the purpose of the card corresponding to the card plate when various types of cards are placed on the card plate. To distinguish between them correctly. As an example of this division, if the card corresponding to the A card is placed on the A card plate 10, the position of the light sensor and the code on the card can be exactly matched to determine whether the corresponding card. If the B card is placed on the A card plate 10, if the entire surface of the letter card is processed in black or white except for the part where the code is placed, all read codes are read as "1" or "0". You can see that this card is not. For the card reading, the character card placed on the card plate is white or black on the whole face. If the face is white, the part corresponding to the code is displayed in black. It will be printed in white. If the data code for the information corresponding to each card is displayed on one side of the character card in this way, the data code value displayed on the character card can be detected using the optical sensor 13 for card analysis. . The optical sensor used in the present invention uses the characteristics of light with respect to color. When the optical signal is transmitted, when the color of the reflective surface is black, the amount of light reflected is small, and when it is white, the amount of light is increased. In this way, by receiving the amount of light reflected from the reflective surface and converting it to a data value of digital value "1" in the case of black and a digital value "1" in the case of white, information on the reflective surface can be read. Of course, if the amount of reflected light is small, it can be converted to "1", and it can be converted to "0", which can be selectively applied according to the purpose of development. In the present invention, the case where the reflective surface is black will be described as "0" and the case where white is "1".

In the example of the product of Figure 1), when the user puts each card on the card plate, the voice information for each card is output, and when all three types of cards are placed on the card plate, sentence information for the three card combinations If the sentence is all composed of normal results, voice information about the sentence is output. For example, when A card 10 is "I" character, B card 11 is "LIKE" character, and C card 12 is "APPLE" character, "I" character on A card plate 10 When the card is released, the voice "I" is output, and when the "LIKE" text card is placed on the B card plate 11, the voice "LIKE" is output, and the "APPLE" text card is placed on the C card plate 13. When released, the voice “APPLE” is output, followed by the text “I LIKE APPLE”. In this way, by using a character card, when children learn a language, the effect of combining the learning of the character and the sentence composed of the combination of characters, by providing the effect, it is possible to simultaneously create the effects of the character, sentence and listening learning.

In FIG. 1, one optical sensor 14 for card recognition exists in each card plate, and four optical sensors 13 for card analysis exist in each card plate. The optical sensor 14 for card recognition periodically transmits an optical signal to perform a function of checking whether a card is placed on a card plate. If there is no text card on the card plate, there is no reflected optical signal. When a card is placed on a random card plate, reflected light is present to detect the presence of a card. If there is no text card on each card board, no optical signal is sent from the optical sensor 13 for card analysis. If a text card is present on any card board, only the card information code for the card board is detected. Optical signal is sent from the optical sensor for analysis. This is to reduce power consumption when light transmission by a plurality of optical sensors occurs periodically and to prevent an error on code detection.

In the case of Fig. 1, as an example of the product configuration, the product can be configured by increasing the number of card types rather than the three types of cards. In the following detailed description of the present invention, the technical details will be described with reference to the concept of processing the Nth card, which means any number, starting with the first card as the A card. In the detailed description below, [1: N] means that the Nth data bit is a set of the first data bit, and [A: N] is the random Nth data bit in the Ath data bit. Means a set of.

FIG. 2) is an overall system configuration diagram of the present invention, and the detailed description of the present invention will be described with reference to FIG.

As shown in FIG. 2, the overall system configuration includes a card recognition unit 20 for detecting whether a character card is placed on each card plate and an A card code processing unit 21 for detecting a code printed on a character card placed on the card plate. N card code processing unit 22 corresponding to any N card in the system, a central control unit 23 for controlling the operation of the entire system, a storage memory 24 storing all data related to a character card, and a storage memory 24 ), Card code data storage section 25 having code data for the character card, sentence code data storage section 26 storing sentence code data, and card voice data storage having voice data for the character card. 27, a sentence voice data storage unit 28 for storing sentence voice information generated by a combination of text cards, and an ER for storing a guide voice for an ERROR when an error occurs. The voice data read from the storage memory 24 by the central control unit 23 is composed of a ROR voice data storage unit 29, and the voice data having a function of restoring the compressed voice data into the original voice data. The decoder unit 30, the D / A unit 31 for converting the digital voice data DVOICE_DATA output from the voice data decoder unit 30 into an analog signal, and the analog voice signal output from the D / A unit 31 ( Voice amplification unit 32 for amplifying a voice signal to output VOICE_OUT) through the speaker and a speaker 33 for outputting the voice signal as a sound.

The overview of the operation of the whole system is as follows.

The card recognition unit 20 checks the existence of a text card on the card plate and outputs the corresponding information to the central control unit 23. When a character card is placed in a state where there is no character card on the card plate, or when the character card is removed in a state where there is a character card, information on the card plate is provided from the card recognition unit 20 to the central control unit 23. If so, the central control unit 23 performs the following functions. When the character card is placed on the card plate in a situation where there is no text card on the arbitrary card plate, the central control unit 23 causes the code processing unit for the card plate to read the code for the character card. For example, when the A card code processor 21 receives a command from the central control unit 23 to read code information about a character card, the A card code processor 21 is placed on the card plate using an optical sensor. The code value A_DATA [1: N] of the character card is detected and output to the central control unit 23. The central control unit 23 receives the code information (A_DATA [1: N]) for the character card and checks whether the card code values are all "1" or "0", and then the result values are all "0" or "." 1 "outputs audio data on the ERROR contents stored in the ERROR audio data storage 29 of the storage memory 24, and waits for the presence of another card on the card plate again. When the entire data input to the A card code processing unit 21 is not "0" or "1", the central control unit 23 stores the card code data value in the card code data storage unit 25 area of the storage memory 24. It reads and analyzes information about the card's voice data by looking for matching card code values. Since the card code data storage unit 25 has the voice data information value for the corresponding code value, when a matching card code value is found, the card code data storage unit 25 analyzes the information value for the voice data storage area of the card code value, and stores the memory. The voice data corresponding to the text card stored in the card voice data storage unit 27 of (24) is read out and output to the voice data decoder unit 30. If a matching card code value does not exist, the voice data of the ERROR contents stored in the ERROR voice data storage unit 29 of the storage memory 24 is read and output to the voice data decoder unit 30.

In this order, the audio signal for the text card placed on the card board is output. When all the cards are placed on the card board, the sentence code is generated using the code data of each card board. Using the sentence code generated in this way, the central control unit 23 reads the sentence code value stored in the sentence code data storage unit 26 of the storage memory 24, and checks whether there is a matching sentence code. If the generated sentence code does not exist in the sentence data storage 26, the central controller 23 reads out the corresponding ERROR voice data from the ERROR voice data storage 29 and outputs the corresponding ERROR voice data to the voice data decoder 30. . When there is a sentence code value generated in the sentence code data storage unit 26, the sentence voice data to be analyzed and outputted by analyzing the information on the sentence voice data storage area is read from the sentence voice data storage unit 28 and the voice data decoder Output to the unit 30. The voice data stored in the storage memory 24 is compressed digital voice data in order to save memory capacity, and the compressed voice data should be converted into the original voice data, and this function is performed by the voice data decoder 30. do . The voice data decoder 30 converts the compressed voice data EVOICE_DATA into original voice data DVOICE_DATA and outputs the same. The voice data DVOICE_DATA output from the voice data decoder 30 is a digitized signal. The digital voice data is converted into an analog voice signal VOICE_OUT through the D / A unit 31, amplified through the voice amplifier 32, and then output as sound through the speaker 32.

The function of the language learner using the character card is realized by such function configuration, and the detailed function operation for each component is described as follows.

In FIG. 2), the card recognition unit 20 has a function of detecting whether or not a character card is placed on the card plate. 4 shows a detailed configuration of the card recognition unit 20 having this function. As shown in FIG. 4, the card recognition unit 20 includes an optical sensor unit 54, an optical transmission control unit 51, and a card recognition processing unit 52 including the Nth optical sensor 53 from the Ath optical sensor 50. ). The optical sensor is composed of a pair of the optical transmitter 55 and the optical receiver 56, the optical transmitter 55 transmits the optical signal to the outside, the optical receiver 56 receives the reflected light of the transmitted light "0" Output as a digital signal of "or" 1 ". Optical sensors having such a function exist as many as the number of cards to be configured as a product, in the present invention is composed of N optical sensors. When the optical transmission control unit 51 receives the card recognition processing request command from the central control unit 23 of FIG. 2 through the CARD_EN signal, the optical transmission control unit 51 enables the SENSER_EN signal to transmit the optical signal to the outside through the optical transmission unit.

When the SERSER_EN signal is ENABLE, the entire optical transmitter of FIG. 4 transmits the optical signal to the outside, and the reflected light for the optical signal transmitted from each optical transmitter is received by the optical receiver of each optical sensor. The reflected light received by each light receiving unit is outputted from CARD_DATA_A to CARD_DATA_N in the light receiving unit of each light sensor unit and input to the card recognition unit 52. If there is no card on the card plate, there is no reflected light. In this case, the light receiver outputs "0". When a card having a white surface is placed on an arbitrary card plate, the corresponding light receiver receives the reflected light and outputs "1".

The card recognition processing unit 52 of Fig. 4 receives card recognition detection data CARD_DATA_ [A: N] output from the optical receiver in the state where the SERSER_EN signal is ENABLE, and shows information on the presence or absence of a character card on the card plate. It outputs to the central control part 23 of 2). The optical transmission control unit 51 of FIG. 4 periodically turns the SENSER_EN signal on and off to perform a character card detection operation in order to reduce power consumption due to light transmission and reception.

The card recognition processing unit 52 of Fig. 4) is a case where data input from the light receiving unit of each card plate is converted from a value of "0" to a value of "1", or "0" at a value of the previous "1". The card recognition processing data is output to the central control section 23 of FIG. 2 only through CARD_OUT [A: N] when the value is converted to the value of.

The reason for such data processing is that it is impossible to predict when a character card is placed and removed on each card plate, and thus the card recognition unit 20 periodically uses an optical sensor to determine whether a character card is present on the card plate. To check for the presence of a text card. If there is no text card on the card, the detected value will always be "0" each time the test is made, and "1" will always be detected if there is a text card on the card. If the character card is placed on the card board while the optical sensor output data value of any card board is always "0", the data value changes to "1", and the card with the optical sensor output data value is always "1" When the character card on the board is removed, the data value changes to "0".

After all, the data that is periodically input from each optical sensor of the optical sensor unit 54, meaningful data only when the data value changes from "0" to "1" or "1" to "0" compared to the previous data value Becomes. Therefore, the card recognition processing unit 52 stores previously input data values, and when new data values are input, when the changed values are compared with the previous values, the data recognition values are stored again as the new values. After that, the result values are output to the central controller 23 through the CARD_OUT [A: N] signal.

The meaning of the CARD_OUT [A: N] signal name indicates that the signal from the CARD_OUTA data, the result of detecting the optical sensor of the A card, to the CARD_OUTN data, the result of detecting the optical sensor of the Nth card, is aggregated. In this way, the situation information on the case where the character card is placed on the card plate or the card is removed is accurately detected and provided to the central control unit 23 of FIG. 2, and the CARD_OUT_EN signal when the CARD_OUT [A: N] signal is output. ENABLE to enable the central control unit 23 to correctly receive CARD_OUT [A: N] data. The CARD_OUT [A: N] data is a signal corresponding to 1: 1 to the CARD_DATA_ [A: N] data output from each optical receiver of the optical sensor unit 54. The other is the data value of the CARD_DATA [A: N] signal. The CARD_OUT [A: N] signal will only be output if this is converted from "0" to "1" and from "1" to "0".

5 shows an internal configuration diagram of the central control unit 23.

The central control unit of FIG. 5 is a card recognition data processing unit 60 for receiving and analyzing text card presence information on each card plate inputted from the card recognition unit 20, a power control unit 61 for controlling the main power, and card recognition. The data processing unit 60 receives the processing result information on the card plate, instructs each card code processing unit of FIG. 2) the code detection command of the character card, receives the card code data detected by the corresponding card code processing unit, and receives the character card. The card data analysis control unit 62 and the card data analysis control unit 62, which analyzes the code and the corresponding card voice data storage information, receive the sentence processing request command and the sentence code data, and execute sentence code analysis and sentence voice data storage information. Sentence code analysis control unit 63 for analyzing and processing the card data analysis control unit 62 and sentence code data analysis control unit 63; The voice data control unit 64, the card data analysis control unit 62, and the sentence code analysis control unit which receive voice data processing information and commands and read various voice data stored in the storage memory 24 and output them to the voice data decoder unit 30. 63 receives instructions and information for reading various data stored in the storage memory 24 from the voice data control unit 64, and generates ADDRESS and CONTROL signals for reading data in an arbitrary address in the storage memory 24; And a memory controller 65 for reading out specific data through the DATA bus and outputting the data to the requested controller.

When power is supplied to the entire system and the operation is started, the card recognition data processing unit 60 transmits a card recognition detection request command to the card recognition unit 20 through the CARD_EN signal to detect the presence or absence of a text card on the card plate. . When no data is input from the card recognition unit 20 of FIG. 2 for a predetermined time, the power supply controller 61 turns off the main power by enabling the SBY_CTR signal. This is a function to prevent power consumption when the user does not use it for a certain period. It is determined whether the character card is placed on the card board or not for a certain period of time.

The card recognition data processing unit 60 instructs the card recognition detection request command through the CARD_EN signal and receives CARD_OUT [A: N] data as an input when the CARD_OUT_EN signal input from the card recognition processing unit 52 of FIG. 4 is ENABLE. After entering, check the data changed from "0" to "1" or "1" to "0" among the entered data bits. The data changed from "0" to "1" is when the character card is placed while the character card is not present in the card plate. The data changed from "1" to "0" is when the character card placed on the card plate is removed. to be . The detection method of this data conversion is performed by storing previously input data values and comparing them with newly input data values. When a specific data bit value changes from "0" to "1", or "1" to "0", the card recognition data processing unit 60 transmits the card data analysis control unit 62 to the corresponding card plate through the CARD_INFO signal. Provide information about That is, when a character card is placed on the Nth card plate among the N card plates, the CARD_OUTN data value among the CARD_OUT [A: N] data input by the card recognition processing unit 52 of Fig. 4) is "0" to "1". The card recognition data processing unit 60 of FIG. 5 transmits information to the card data analysis control unit 62 that a character card exists in the Nth card plate. When the card data analysis control unit 62 receives the information on the Nth card plate through CARD_INFO, the card code detection request is made through the N_ENABLE signal to the N card code processing unit 22, which is a code processing unit for the Nth card plate of FIG. 2). Pass the command.

When the card data analysis control unit 62 receives the information on which a character card exists on a specific card plate from the card recognition data processing unit 60, the information on whether a character card on each card plate exists in the card data analysis control unit 62 is present. Set the flag data bit to record the code, and set the flag for that card version. This is to determine whether the composition of each character card is a sentence card. For example, in the case of Fig. 1), when three types of character cards are normally placed on each card plate, an example of constituting one sentence is shown. When the character card is placed on the A card plate 10, the card data. The analysis control unit 62 sets the flag for the A card plate to " 1 ", and stores that the character card exists in the A card plate. When the character cards are placed in the B card plate 11 and the C card plate 12 in order, the card data analysis control unit 62 also sets the B card flag and the C card flag to "1" in order.

The card data analysis control unit 62 performs sentence code processing when all three flags are set to "1" after the character card processing. Therefore, the presence or absence of a character card on each card plate is very important for the function processing. In the above example, when the character card is placed on the A card plate and then removed, the card recognition data processing unit 60 receives data whose value of CARD_OUTA, which is a detection result value for the A card plate, is changed from "1" to "0". This information is transmitted to the card data analysis control unit 62 via CARD_INFO. Upon receiving this information, the card data analysis control unit 62 resets the A card flag from " 1 " to " 0 " to remember that no card is present in the A card plate.

The [A: N] _ENABLE signal of the card data analysis control unit 62 controls the card code detection request to the card code processing unit provided in each card plate. The meaning of the [A: N] _ENABLE signal is a group of code detection request signals for the N card code processing unit 22 of the arbitrary Nth card board in the A card code processing section 21 of the A card slot as shown in FIG. 2). It is written as.

3) shows an internal configuration diagram of the N card code processing unit 22 of the N card code processing unit 22 installed on the Nth card plate in the A card code processing unit 21 installed on the A card plate in FIG. 2). The internal configuration diagram of the other card code processing unit is the same as the internal configuration of FIG. 3), and can be replaced by the functional description of the N card code processing unit of FIG. That is, the internal configuration requirements of the card code processing unit are configured the same, but the signals input and output are separated from each code processing unit and are connected to the central control unit 23.

In the configuration diagram of the N card code processing unit of FIG. 3, the internal structure of the code processing unit includes an optical sensor unit 45 for detecting a code of an external character card and an optical transmission control unit 41 for controlling the optical signal transmission of the optical sensor. An N card code processing unit 43 for processing the signal detected by the sensor as data. In FIG. 3, when the optical data transmission control unit 41 receives the card code detection request command from the card data analysis control unit 62 of FIG. 5 through the N_ENABLE signal, the optical transmission control unit 41 enables and disables SENSER_EN for a predetermined time. The SENSER_EN signal is connected to each optical transmitter of the optical sensor unit 45 of FIG. 3, so that all the optical transmitters of the N card code processing unit transmit the optical signal during the time SENSER_EN is enabled, It is reflected or absorbed from the card surface. In other words, the white color of the reflective surface is reflected by the optical signal and received by the light receiving unit. If the reflective surface is black, the optical signal is absorbed from the reflective surface and there is no signal reflected. In this way, the code printing portion of the character card is displayed at the same position as the position of the optical sensor of each card code processor, whereby the code of the character card using the optical sensor can be detected. In the present invention, the number of optical sensors for detecting each code is also N by implementing the number of codes displayed on the character card as N. Therefore, even in the configuration diagram of the N-th N card code processor of FIG. 3, there are N optical sensors, and the optical receiver output of each optical sensor becomes one data bit. In this manner, while SENSER_EN is ENABLE, N pieces of data from DATA1 to DATAN output from each optical sensor are input to the N card code processing unit 43.

The N card code processing unit 43 receives N signals input from the optical sensor unit 45 while SENSER_EN is ENABLE and converts them into digital data. The card data analysis control unit 62 of FIG. 5 activates the N_DATA_EN signal for a predetermined time to read the code for the Nth character card from the N card code processing unit 43 of FIG. 3 while SENSER_EN is ENABLE. When N_DATA_EN is ENABLE, the N card code processing unit 43 outputs the N_DATA [1: N] data input from the optical sensor unit 45 and converted into digital signals to the card data analysis control unit 62 of FIG.

Thus, in the present invention, a plurality of card plates may be configured to recognize a character card as in the application example of FIG. 1), and each card plate has a function and an optical sensor of a card code processing configuration diagram as shown in FIG. 3). It is installed. Fig. 3) describes the case for the Nth card, but the function is performed in the same manner in the other card versions. Only signals connected to the central control unit 23 are divided into A_ENABLE card code detection request command A_ENABLE, A_DATA_ [1: N] and A_DATA_EN to receive the detected card code data as shown in FIG. 2). Each is processed under independent control from the central control unit 23. The card data analysis control unit 62 of FIG. 5 receives N_DATA [1: N], which is code detection data of the Nth card, and the data corresponding to this code is shown in FIG. 2). It is analyzed whether it exists in 25). The card code data storage section 25 of the storage memory 24 stores a card code value 80 for the card and voice data corresponding to the code, as in the data configuration example of FIG. 7. Has information (81). The card data analysis control unit 62 is a wrong type of card when the detection code values N_DATA [1: N] of the character card inputted by the card code processing unit 43 of FIG. 3 are all “1” or all “0”. It recognizes and transmits an ERROR voice output command and ERROR information to the voice data control unit 64 through C_DATA. The voice data controller 64 receives the ERROR voice information processing command and information through C_DATA, analyzes the types of errors, and stores the ERROR voice data stored in the ERROR voice data storage unit in the storage memory of FIG. 2 through the memory controller 65. Then, the analyzed ERROR voice data is read out and output to the voice data decoder 30 of FIG. 2 through the EVOICE_DATA signal. When all of the N_DATA [1: N], which are the character card detection code values input to the card data analysis control unit 62, have a specific data value other than "1" or "0", the card data analysis control unit 62 transmits the A_INFO signal. The memory controller 65 transmits a command for reading code information about the N-th card and memory information, and the memory controller 65 is provided from the card code data storage unit 25 of the storage memory 24 of FIG. 2. The data is read and provided to the card data analysis control unit 62. The card code analysis control unit 62 receives the card code value corresponding to the Nth card from the memory control unit 65 and analyzes whether there is a code value that matches the Nth card code detection data value. If the same code value exists, voice data storage information for the text card is found through the card voice data memory information 81 connected to the card code data 80 as in the example of FIG. When the card data analysis control unit 62 sends the voice data memory storage information and the voice output command obtained in this manner to the voice data control unit 64 through C_DATA, the voice data control unit 64 controls the memory control unit 65 through C_INFO. When information and a command about a memory area in which voice data is stored are transmitted to the memory controller, the memory controller 65 reads the designated voice data from the card voice data storage unit 27 of FIG. 2 and sends the voice data controller 64 through the C_INFO signal. The voice data control unit 64 receives the voice data input from the memory control unit 65 and outputs the voice data to the voice data decoder unit 30 of FIG. 2 as an EVOICE_DATA signal.

The card data analysis control unit 62 transmits an ERROR audio output command and ERROR information to the voice data control unit 64 through C_DATA when there is no matching code as a result of analyzing the card code, and the voice data control unit 64. Reads the ERROR voice data stored in the ERROR voice data storage unit 29 in the storage memory 24 through the memory control unit 65 in the same manner as above, and outputs the ERROR voice data as EVOICE_DATA.

As described above, the card data analysis control unit 62 performs a function of outputting the final voice data through code analysis and control on a case where a character card is placed on each card plate. Will be analyzed. As described above, the concept of the sentence processing method is described above. In the case where the letter cards designated as N pieces are placed on each card board in a horizontal or vertical direction, the card data analysis control unit 62 generates a sentence. After detecting and analyzing the code for each card version, if the card code value is normal, set the flag for the card to "1" for sentence processing after completing the processing for the character card, and set the sentence card code through the character card code. Stores the character card code data values for creation.

In the example of FIG. 1), when a normal letter card is placed on the A card plate 10, the card data analysis control unit 62 completes processing for the A letter card when the A card is a normal card, and then sets the A card flag. Set to "1" to record that the character card is placed on the A card plate, and store the character code value for the A card in the internal memory of the card data analysis control unit 62. When a normal letter card is placed on the B card plate After completing processing for the B card, set the B card flag to "1" to record that the letter card is placed on the B card plate, and the character code for the B card. The value is recorded in the card data analysis control unit 62 internal memory. When a normal character card is placed on the C card plate After completing processing for the C card card, record that the character card is placed on the C card plate by setting the C card flag to "1", and the character code for the C card. The value is recorded in the card data analysis control unit 62 internal memory. This example is developed by arranging an arrangement of character cards so that a sentence is completed with three kinds of cards. When all three kinds of cards are normally placed on a card plate, the card data analysis control unit 62 generates the last character. After the processing for the card is completed, since three types of cards are normally placed on each card plate, the sentence processing request command and sentence code information are outputted to the sentence code control section 63 through ALL_DATA. In the sentence code generation method for sentence card processing using each card code, as shown in the example of FIG. 6, the sentence cards are sequentially arranged by arranging codes 70 of each character card recorded in the card data analysis control unit 62 in sequence. Code 71 can be generated. In this way, the sentence code can be easily generated by using the code of each character card, and can be variously used in various ways, but it is basically designed to be generated through the code of the character card.

When the sentence code data 71 generated as described above is transmitted to the sentence code analysis control unit 63 through ALL_DATA, the sentence code analysis control unit 63 transmits the sentence code data processing command and information through the B_INFO signal. In this case, the memory control unit 65 reads the sentence code data stored in the sentence code data storage unit 26 in the storage memory 24 of FIG. 2 and transmits the sentence code data to the sentence code analysis control unit 63 through the B_INFO signal. . The sentence code analysis control unit 63 compares and analyzes whether there is a matching code among sentence codes received from the card data analysis control unit 62 and sentence codes received from the memory control unit 65. The sentence code data information stored in the sentence code data storage unit 26 in the storage memory 24 is the sentence voice which is the memory position information in which the sentence code information 82 and the sentence voice data for the sentence code are stored as shown in FIG. It consists of data memory information 83, and as many sentence code data as the number of construction purposes are stored. The sentence code analysis control unit 63 sequentially reads sentence code data of FIG. 7 from the sentence code data storage unit 26 of the storage memory 24, and sentence code data input from the card data analysis control unit 62. Compare to the value to see if there is a match. When there is a matching code among the sentence code data to be compared, the sentence voice data memory information 83 is obtained from the matched sentence code data 82, and the information on the memory storage area of the sentence voice data and the sentence voice output through S_DATA. The command is transmitted to the voice data control unit 64. When the voice data controller 64 receives the memory region information and the sentence voice data processing command, the voice data controller 64 reads the voice data stored in the sentence voice data storage unit 28 of the storage memory 24 through the memory controller 65 and outputs them as EVOICE_DATA. . If the sentence code control unit 63 does not have a sentence code that matches the sentence code input by the card data analysis control unit 62 in the sentence code data in the sentence code data storage unit 26, the ERROR voice processing is performed through S_DATA. Command code and ERROR information are output to the voice data control unit 64, and the voice data control unit 64 reads the ERROR voice data stored in the ERROR voice data storage unit 29 through the memory control unit 65 and outputs it to EVOICE_DATA. do . In this way, the EVOICE_DATA output from the voice data control unit 64 is compressed voice data and is voice data output from text card voice data, sentence voice data, and ERROR voice data. EVOICE_DATA, which is compressed voice data, is input to the voice data decoder unit 30 as shown in FIG. 2, and the voice data decoder unit 30 receives this data and converts it into original voice data before compression. 31). The D / A unit 31 performs a processing function of converting a digital signal into an analog signal. The data output from the voice data decoder 30 is a digital signal and must be converted into an analog signal in order to output the signal as a sound through a speaker. Therefore, the DVOICE_DATA output from the voice data decoder 30 is converted into an analog signal VOICE_OUT through the D / A unit 31 and output to the voice amplifier 32. The voice amplifier 32 receives the VOICE_OUT signal as an input and amplifies the voice and outputs it to the speaker 33. Finally, the voice amplifier 32 is output as a sound through the speaker.

As described above, according to the apparatus for learning a language using a text card according to the present invention, the children are fed up with the contents of the text card and the sentence content generated by the combination of the text card so that the children can learn by themselves. Induces curiosity without feeling the effect of maximizing the learning effect of providing complex learning such as learning letters and sentences, language learning, thinking ability improvement and cognitive learning.

Claims (5)

In the language learning apparatus using a text card that reads the code printed on the text card and analyzes the sentence code generated by the combination of the voice and the text card corresponding to the text card code and outputs the voice corresponding to the sentence code, A card recognition unit that detects the presence of a character card and periodically outputs detection information by using a light sensor on the presence or absence of a character card on the N character card plates; A card code processing unit for outputting detection data after detecting a code of N character cards placed on the corresponding character card plate by using an optical sensor, when a character card exists in a specific character card plate; A card code data storage unit for storing information on the code data of the character card and information on the voice data storage area corresponding to the card code; A sentence code data storage unit which stores data information on a sentence code and information on a voice data storage area corresponding to the sentence code; A card voice data storage unit for storing voice data to be output as voice with respect to a text code stored in the card code data storage unit; A sentence voice data storage unit for storing voice data to be output as voice with respect to a sentence code stored in the sentence code data storage unit; ERROR voice data storage unit for storing voice data to output ERROR voice when an error occurs according to character code and sentence code analysis; The data storage units are composed of a plurality of block units in a memory, the storage memory including all the storage units as a memory device; A character card code processing command connected to the card recognizing unit, receiving information on which a character card is placed on a character card plate from the card recognizing unit, and transmitting a character card code processing command to the corresponding card code processing unit; The card code value is found by comparing with the data value of the card code stored in the card code data storage unit of the storage memory, and the memory storage area of the voice data for the character card is analyzed. The voice data is read from the data storage unit and output as voice data. When a sentence is completed by a combination of text cards, the sentence code value is compared with the sentence code data value stored in the sentence code data storage unit of the storage memory. To find and store voice data memory for completed sentences. The sentence speech data is read from the sentence voice data storage unit of the storage memory and output as voice data. When the character card code or sentence code is ERROR, the ERROR stored in the ERROR voice data storage unit of the storage memory. A central control unit for reading voice data and outputting the voice data; A voice data decoder connected to the central controller and converting the compressed voice data output from the central controller into pre-compression voice data; A D / A unit connected to the voice data decoder and converting digital voice data output from the voice data decoder into an analog voice signal; An apparatus for learning a language using a text card, which is connected to the D / A unit and includes an audio signal amplifying unit for amplifying the analog signal converted by the D / A unit and outputting the analog signal to the outside through a speaker; In the card recognition unit of claim 1, An optical transmission control unit which receives the card recognition command from the central control unit of claim 1 and simultaneously controls the optical signal transmission through the optical sensor for card recognition installed on the N card plates; N optical transmitters connected to the optical transmitter and configured to transmit or block an optical signal according to an optical signal transmission control signal applied from the optical transmitter; N optical receivers optically connected to the optical transmitter and configured to receive reflected light of an optical signal transmitted to the N optical transmitters and output N received data; And a card recognition processor connected to the optical receiver and receiving the data output from the optical receiver and outputting the corresponding values to the central controller of claim 1 when there are bits in which data values have changed. Language Learning Device Using Cards. In the card code processing unit of claim 1, An optical transmission control unit which receives a code analysis request command for a specific card plate from the central control unit of claim 1 and controls the transmission of an optical signal for analyzing a code for a character card; N optical transmitters connected to the optical transmitter and configured to transmit optical signals according to the optical signal transmission control signal of the optical transmitter; N optical receivers optically connected to the optical transmitter and configured to receive optical signals reflected from the outside and output the digital signals; And a card code processing unit for receiving the N character card code detection data from the optical receiving unit and outputting the detected character code data to the central control unit according to a request of the central control unit of claim 1. In the central control unit of claim 1, After the power is applied, it is connected to the card recognition unit of claim 1, and the card recognition detection request command is applied to the card recognition unit, and if there is no data input from the card recognition unit for a predetermined time, the power off request command is issued. A card recognition data processing unit which performs a power saving function and receives and processes data related to the presence of a character card on an arbitrary character card plate from the card recognition unit; A power control unit connected to the card recognition data processing unit and controlling power by receiving a power control command from the card recognition data processing unit; A memory control unit connected to the storage memory of claim 1 and having a control function of reading data in the storage memory by generating an ADDRESS, DATA, and CONTROL signal necessary for memory control; It is connected to the card recognition data processing unit, receives the character card related information from the card recognition data processing unit, and applies a character card code detection request command to the card code processing unit, and detects data for the character card from the card code processing unit to which the command is applied. Receives and compares with the card code data stored in the card code data storage unit of the first through the memory control unit to compare and analyze whether there is a matching card code, and through the matched card code information for the character card voice data storage area Analyzes the information, outputs text card voice data storage information and processing instructions, If there is no matched card code information, error information and processing instruction are output. A card data analysis control unit which detects whether a combination of character cards completes a sentence, and when a sentence is completed, generates a sentence code using a code of the character card, and outputs a sentence code and a processing instruction; It is connected to the card data analysis control unit, receives a sentence code and processing instructions from the card data analysis control unit and compares the sentence code data stored in the sentence code data storage unit of claim 1 through the memory control unit, and matched sentence code information A sentence code analysis control unit for outputting information and processing instructions for the sentence voice data storage area through the controller, and outputting ERROR information and processing instructions if there is no matching sentence code; It is connected to the card data analysis control unit and the sentence code analysis control unit, and receives voice data storage information and processing instructions from the card data analysis control unit and sentence code analysis control unit, and the various voice data stored in the storage memory of claim 1 through the memory control unit. A language learning apparatus using a text card including a voice data control unit for reading information and outputting the voice data. The method of claim 4, wherein the sentence code data value generation of the card data analysis control unit comprises a sentence code through a code combination of each character card forming the sentence structure when the currently recognized combination of character cards forms a sentence structure. Language learning apparatus using a character card having the characteristic of generating a.