阅读说明：本技术 可学习的外语翻译词汇查询装置及方法 (Learnable foreign language translation vocabulary inquiry device and method ) 是由 冯克江 于 2021-08-16 设计创作，主要内容包括：本发明涉及可学习的外语翻译词汇查询装置及方法,其包括卡片载具,放置有外语翻译词汇其内置有预设外语文字和/或翻译内容；存储装置,放置有卡片载具,并将卡片载具逐次按设定方向输入；输入装置,承接存储装置输入的卡片载具并逐个上顶上升；操作装置,承接存储装置输入的卡片载具以供学习者根据查询学习对应词汇,并在查询学习后,将卡片载具下落送回存储装置中。本发明设计合理、结构紧凑且使用方便。(The invention relates to a device and a method for inquiring foreign language translation words capable of learning, which comprises a card carrier, a card reader and a card reader, wherein the card reader is provided with foreign language translation words, and preset foreign language characters and/or translation contents are arranged in the foreign language translation words; the storage device is used for placing the card carriers and inputting the card carriers in a set direction one by one; the input device is used for receiving the card carriers input by the storage device and jacking up one by one; the operating device is used for receiving the card carrier input by the storage device so that a learner can learn corresponding vocabularies according to inquiry, and after the inquiry and learning, the card carrier falls down and is sent back to the storage device. The invention has reasonable design, compact structure and convenient use.)

1. A foreign language translation vocabulary inquiry device capable of learning is characterized in that: comprises that

The card carrier (1) is provided with foreign language translation words, and preset foreign language characters and/or translation contents are arranged in the foreign language translation words;

a storage device (2) which is used for placing the card carrier (1) and inputting the card carrier (1) in a set direction one by one;

the input device (3) is used for receiving the card carriers (1) input by the storage device (2) and jacking up one by one;

the operating device (4) is used for receiving the card carrier (1) input by the storage device (2) so that a learner can learn corresponding vocabularies according to inquiry, and after the inquiry and learning, the card carrier (1) falls down and is sent back to the storage device (2).

2. The apparatus as claimed in claim 1, wherein: the card carrier (1) comprises a plate-shaped or triangular prism-shaped card seat body (6); a first elastic clamping groove (7) and a second elastic clamping groove (10) for placing the vocabulary cards (5) are respectively arranged on the two outer surfaces of the card holder body (6); a slotted tail hole (9) is formed in the bottom of the first elastic clamping groove (7), and a process channel (8) is formed in the clamping seat body (6) and used for identifying the angle and the position of the card carrier (1);

in the first elastic clamping groove (7), foreign language vocabulary contents are arranged on the vocabulary card (5);

in the second elastic card slot (10), the vocabulary card (5) is provided with translation contents and/or diagrams corresponding to foreign language vocabularies;

the vocabulary card (5) is a plastic plate, a smart label, a cardboard and/or a smart label card.

3. The apparatus as claimed in claim 1, wherein: the storage device (2) comprises a sorting vibration disc (11); a spiral stirring plate (12) is rotated in the arrangement vibration disc (11) and is used for vibrating and stirring the card carriers (1) so that the card carriers (1) are arranged one by one and input;

the output end of the arranging vibration disc (11) is connected with a profiling vibration feeding channel (13), and a profiling process side baffle (14) is arranged above the profiling vibration feeding channel (13), so that the card carriers (1) with different arranging positions are blocked and sent back to the arranging vibration disc (11), and the card carriers (1) with reasonable positions are conveyed; the outlet of the profiling vibration feeding channel (13) is provided with a lower end inlet of an inclined feeding ramp (16) and an elastic clamping hand (15), and the elastic clamping hand (15) is used for blocking or passing a subsequent card carrier (1) to the lower end inlet of the inclined feeding ramp (16);

a feeding push rod (17) is arranged on the inclined feeding ramp (16); a feeding terminal (21) is arranged at an outlet at the upper end of the inclined feeding ramp (16), a feeding automatic upturning unidirectional swinging plate (18) is arranged at the inlet side of the feeding terminal (21), and the feeding automatic upturning unidirectional swinging plate (18) is vertical to the bottom surface of the inclined feeding ramp (16) in a natural state; a terminal process bulge (20) is arranged on the side surface, close to a feeding terminal (21), of the feeding automatic upturning one-way swinging plate (18), and a terminal process bottom hole (19) matched with the terminal process bulge (20) is arranged on the bottom surface of the inclined feeding ramp (16);

the feeding automatic upturning unidirectional swinging plate (18) overturns towards the feeding terminal (21);

the card carrier (1) is pushed upwards in an inclined mode by a feeding push rod (17), the card carrier (1) pushes a feeding automatic upturning unidirectional swing plate (18) to swing downwards to be attached to an inclined feeding ramp (16), and a terminal process bulge (20) enters a terminal process bottom hole (19);

when the card carrier (1) crosses the inclined feeding ramp (16) and reaches the feeding terminal (21), the feeding push rod (17) retracts; the card carrier (1) slides down to abut against a terminal process bulge (20) on the feeding automatic upturning unidirectional swinging plate (18) by utilizing the vertical time difference between the feeding automatic upturning unidirectional swinging plate (18) and the card carrier (1), so that a process gap is generated between the card carrier (1) and the feeding automatic upturning unidirectional swinging plate (18);

a feeding bottom channel (22) is rotatably arranged on the bottom plate of the inclined feeding ramp (16).

4. The apparatus as claimed in claim 1, wherein: the input device (3) comprises a transfer station (23) arranged on one side of a feeding terminal (21) of the storage device (2); a rotary upper poking arm (24) with a cantilever end provided with a poking arm return bend (25) rotates at the transfer station (23); an input channel is arranged above the feeding terminal (21); it comprises a lower passage (26) and an upper passage (27) which are communicated up and down;

the lower feed end (29) side of the lower channel (26) has a lower process cartridge (28) that rides on the inclined loading ramp (16) of the storage device (2); the two side walls of the lower feeding end (29) are provided with lower poking arm adapting grooves (30) used for rotating the upper poking arms (24);

the inner side walls of the lower channel (26) and the upper channel (27) are symmetrically hinged with layered one-way supporting plates (31); the layered one-way supporting plate (31) swings upwards in one way;

an upper ejection output station (32) is arranged above the upper channel (27), two sides of the upper ejection output station (32) are respectively provided with a side-push L-shaped plate (33) and a feeding one-way baffle (34), and the feeding one-way baffle (34) is provided with an upper input end of a feeding inclined channel (35);

for the card carrier (1) which is positioned at the upper ejection output station (32) and supported by the corresponding layer-arranged one-way supporting plate (31), the card carrier (1) is pushed to the feeding inclined channel (35) after the feeding one-way baffle (34) of the card carrier (1) is opened by the side-push L-shaped plate (33); the card carrier (1) slides downwards from the feeding inclined channel (35) to be sent out;

the rotary upper poking arm (24) rotates to swing from bottom to top from a feeding bottom channel (22) of the storage device (2) to enter, so that the card carrier (1) is lifted to a lower feeding end (29), and the card carrier (1) is jacked by a one-way supporting plate (31) arranged in a layered mode to ascend and is supported; in the input channel, the card carrier (1) at the lower layer pushes up and displaces the card carrier (1) at the upper layer.

5. The apparatus as claimed in claim 1, wherein: the operating device (4) comprises a rotary observation platform (36) arranged below the outlet of the feeding inclined channel (35) of the input device (3);

the rotary observation platform (36) is arranged in a hollow mode, the rotary observation platform (36) comprises an outer support, and the outer end portion of the carrying fan plate is hinged to the surrounding inner side wall of the outer support in a surrounding mode; the root part of the carrying fan plate is hinged with the upper end of a lower hinged vertical arm (37); the lower end of the lower hinged vertical arm (37) is hinged with a lower hinged plate (47);

side positioning baffle arms (39) are arrayed on the circumference of the carrying fan plate, a placing station (38) is arranged between the adjacent side positioning baffle arms (39), a turning process hole (40) is arranged at the outer bottom of the placing station (38), and an outer guardrail (41) is arranged on the outer side of the rotary observation platform (36) to prevent the card carrier (1) from sliding outwards; one of the placing stations (38) receives the card carrier (1) fed from the outlet of the inclined channel (35);

a guide loop (42) with an elastic positioning steel ball (43) is arranged at the lower end of the rotary observation platform (36), and the elastic positioning steel ball (43) corresponds to the overturning technical hole (40); a lower base of a pedal lifting mandril (44) with a groove matched with the elastic positioning steel ball (43) is walked on the guide loop (42);

the lower hinged vertical arm (37) is arranged in a hollow manner;

a pedal pressing plate (45) is arranged above the lower hinged plate (47), the outer end of the pedal pressing plate (45) is hinged and fixed through a pressing plate hinged fulcrum (46), and a rotary driving part (48) is arranged on the rack and used for driving the rotary observation platform (36) to rotate;

in a natural state, the inner end of the supporting fan plate is high-pressure, when the hinged plate (47) is pressed down by the pedal pressing plate (45), the lower hinged vertical arm (37) is linked with the rotary observation platform (36) to swing, so that the inner end is lower than the outer end, the card carrier (1) slides to the lower hinged vertical arm (37) along the supporting fan plate to surround the hollow channel, and returns to the arrangement vibration disc (11) positioned below the hollow channel;

a first elastic card slot (7) of a vocabulary card (5) having foreign language vocabulary contents is directed toward a learner.

6. A foreign language translation vocabulary inquiry and learning method is characterized in that: by means of a querying device; the following steps are executed;

s1, the foreign language characters and/or the translated contents are preset in the storage device (2) of the card carrier (1);

s2, the storage device (2) inputs the card carrier (1) to the input device (3) according to the set direction;

s3, the input device (3) receives the card carriers (1) input by the storage device (2) and lifts up one by one;

s4, the operation device (4) receives the card carrier (1) input by the storage device (2) for the learner to learn the corresponding vocabulary according to the query, and after the query, the card carrier (1) falls back to the storage device (2).

7. The learning method of the learnable foreign language translation vocabulary according to claim 6, wherein: in step S1, first, a vocabulary card (5) having foreign language vocabulary contents is inserted into the first elastic card slot (7); then, inserting the vocabulary card (5) with the translation contents and/or the diagrams of the foreign language vocabulary into the second elastic card slot (10); and thirdly, placing the card carrier (1) into a finishing vibration disc (11).

8. The learning method of the learnable foreign language translation vocabulary according to claim 6, wherein: in the step S2, in step S2,

s2.1, firstly, arranging the card carriers (1) one by an arranging vibration disc (11) and inputting the card carriers into a profiling vibration feeding channel (13); secondly, the profiling process side baffle (14) blocks and returns the card carriers (1) with wrong arrangement positions to the arrangement vibration disc (11), the card carriers (1) with reasonable positions are conveyed to the lower end inlet of the inclined feeding ramp (16), and the elastic clamping hand (15) blocks the subsequent card carriers (1) from reaching the lower end inlet of the inclined feeding ramp (16);

s2.2, firstly, the card carrier (1) is pushed upwards in an inclined way in a turning way by the feeding push rod (17); then, the card carrier (1) presses and swings the feeding automatic upturning unidirectional swinging plate (18) to be attached to the inclined feeding ramp (16), and the terminal process bulge (20) enters the terminal process bottom hole (19); secondly, when the card carrier (1) crosses the inclined feeding ramp (16) and reaches a feeding terminal (21), the feeding push rod (17) retracts; and thirdly, the card carrier (1) slides down to abut against a terminal process bulge (20) on the feeding automatic upturning unidirectional swinging plate (18) by utilizing the vertical time difference between the feeding automatic upturning unidirectional swinging plate (18) and the card carrier (1).

9. The learning method of the learnable foreign language translation vocabulary according to claim 6, wherein: in the step S3, in step S3,

s3.1, firstly, rotating an upper poking arm (24) to swing from bottom to top in a feeding bottom channel (22) of a storage device (2) so that a card carrier (1) is lifted up to a lower feeding end (29), and the card carrier (1) is jacked up by a layered one-way supporting plate (31) to rise and be supported; in the input channel, the card carrier (1) at the lower layer pushes up and displaces the card carrier (1) at the upper layer;

s3.2, for the card carrier (1) which is positioned at the upper ejection output station (32) and supported by the corresponding layer-arranged one-way supporting plate (31), the card carrier (1) is pushed to the feeding inclined channel (35) after the feeding one-way baffle (34) of the card carrier (1) is opened by the side-push L-shaped plate (33); the card carrier (1) slides down and out of the feed chute (35).

10. The learning method of the learnable foreign language translation vocabulary according to claim 6, wherein: in step S4, rotating by means of the rotating observation stage (36);

s4.1, firstly, rotating an unloaded placing station (38) to an outlet of a feeding inclined channel (35) and carrying the card carrier (1) which slides downwards; then, the rotary observation platform (36) is reset, the card carrier (1) is rotated to the front of the learner, the first elastic clamping groove (7) faces the learner, and the second elastic clamping groove (10) faces the bottom;

s4.2, firstly, carrying the high-voltage outer end of the inner end of the fan plate in a natural state; then, when the learner needs to inquire the translation content of the vocabulary in the first elastic clamping groove (7), the learner controls the pedal lifting ejector rod (44) to move to the elastic positioning steel ball (43) corresponding to the first elastic clamping groove (7) to be clamped; secondly, the learner controls the pedal lifting ejector rod (44), the pedal lifting ejector rod (44) ascends to pass through the overturning fabrication hole (40), and the bottom of the front end of the card carrier (1) is lifted upwards, so that the second elastic clamping groove (10) faces the learner;

s4.3, after learning, the pedal pressing plate (45) presses down the lower hinge plate (47), the lower hinge vertical arm (37) is linked with the rotary observation platform (36) to swing, the inner end is lower than the outer end, the card carrier (1) slides to the lower hinge vertical arm (37) along the carrying fan plate to surround the hollow channel, and the card carrier returns to the arranging vibration disc (11) below the hollow channel.

Technical Field

The invention relates to a device and a method for inquiring learnable foreign language translation words.

Background

The card appearance is small and exquisite, mostly is the rectangle, there is convenient to carry's effect, in foreign language study, the most difficult memory of belonging to the word, conventional memory mode is the hard back of the dead memory to books, make the reader produce the tired problem of eye very easily, and books are difficult to carry, cause inconvenience for the reader, can convenient to use person recite through adding corresponding word on the card, and the card easily carries, and the cost is lower, accord with the pace of foreign language study at present. However, the card on the market is not only complex in structure, but also single in function. CN201720748503.6 a foreign language learning card, although providing a set of cards, it has a poor automation level, is not suitable for children or people with difficulty in learning, and is of low interest and low efficiency.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a device and a method for inquiring foreign language translation words capable of learning.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

a foreign language translation vocabulary inquiry device capable of learning comprises

The card carrier is provided with foreign language translation words, and preset foreign language characters and/or translation contents are arranged in the foreign language translation words;

the storage device is used for placing the card carriers and inputting the card carriers in a set direction one by one;

the input device is used for receiving the card carriers input by the storage device and jacking up one by one;

the operating device is used for receiving the card carrier input by the storage device so that a learner can learn corresponding vocabularies according to inquiry, and after the inquiry and learning, the card carrier falls down and is sent back to the storage device.

As a further improvement of the above technical solution:

the card carrier comprises a plate-shaped or triangular prism-shaped card seat body; a first elastic clamping groove and a second elastic clamping groove for placing vocabulary cards are respectively arranged on the two outer surfaces of the card holder body; a slotted tail hole is formed at the bottom of the first elastic clamping groove, and a process channel is formed on the clamping seat body and used for identifying the angle and the position of the card carrier;

in the first elastic clamping groove, foreign language vocabulary contents are arranged on the vocabulary card;

in the second elastic card slot, the vocabulary card is provided with translation contents and/or diagrams corresponding to foreign language vocabularies;

the vocabulary card is a plastic plate, a smart label, a paperboard and/or a smart label card.

The storage device comprises a sorting vibration disc; a spiral stirring plate is rotated in the arrangement vibration disc and is used for vibrating and stirring the card carriers so as to arrange and input the card carriers one by one;

the output end of the arranging vibration disc is connected with a profiling vibration feeding channel, and a profiling process side baffle is arranged above the profiling vibration feeding channel, so that the card carriers which are not arranged at the arranging position are blocked and sent back to the arranging vibration disc, and the card carriers with reasonable positions are conveyed; the outlet of the profiling vibration feeding channel is provided with a lower end inlet of the inclined feeding ramp and an elastic clamping hand, and the elastic clamping hand is used for blocking or passing a subsequent card carrier to the lower end inlet of the inclined feeding ramp;

a feeding push rod is arranged on the inclined feeding ramp; a feeding terminal is arranged at an outlet at the upper end of the inclined feeding ramp, a feeding automatic upturning unidirectional swinging plate is arranged at the inlet side of the feeding terminal, and the feeding automatic upturning unidirectional swinging plate is vertical to the bottom surface of the inclined feeding ramp in a natural state; a terminal process bulge is arranged on the side surface, close to the feeding terminal, of the feeding automatic upturning one-way swinging plate, and a terminal process bottom hole matched with the terminal process bulge is formed in the bottom surface of the inclined feeding ramp;

the feeding automatic upturning one-way swinging plate overturns towards the feeding terminal;

the card carrier is pushed upwards in an inclined mode by the feeding push rod, the card carrier enables the feeding automatic upturning one-way swinging plate to be pressed and swung downwards to be attached to the inclined feeding ramp, and the terminal process bulge enters the terminal process bottom hole;

when the card carrier crosses the inclined feeding ramp to reach the feeding terminal, the feeding push rod retracts; the card carrier slides down to abut against a terminal process bulge on the automatic loading upturning unidirectional swinging plate by utilizing the time difference between the vertical state of the automatic loading upturning unidirectional swinging plate and the gliding time difference of the card carrier, so that a process gap is generated between the card carrier and the automatic loading upturning unidirectional swinging plate;

a feeding bottom channel is rotatably arranged on the bottom plate of the inclined feeding ramp.

The input device comprises a transfer station arranged on one side of a feeding terminal of the storage device; a rotary upper shifting arm with a cantilever end provided with a shifting arm return bend is rotated at the transfer station; an input channel is arranged above the feeding terminal; it comprises a lower passage and an upper passage which are communicated up and down;

one side of the lower feeding end of the lower channel is provided with a lower process clamping seat riding on an inclined feeding ramp of the storage device; two side walls of the lower feeding end are provided with lower poking arm adapting grooves used for rotating the upper poking arms;

the inner side walls of the lower channel and the upper channel are symmetrically hinged with one-way supporting plates in a layered mode; the layered one-way supporting plate swings upwards in one way;

an upper ejection output station is arranged above the upper channel, a side-push L-shaped plate and a feeding one-way baffle are respectively arranged at two sides of the upper ejection output station, and the feeding one-way baffle is provided with an upper input end of a feeding inclined channel;

for the card carriers which are positioned at the upper top output station and supported by the corresponding layer provided with the one-way supporting plates, the side-push L-shaped plate opens the feeding one-way baffle plate of the card carrier and then pushes the card carrier to the feeding inclined channel; the card carrier slides downwards from the feeding inclined channel and is sent out;

the rotary upper poking arm rotates to swing from bottom to top in a channel at the bottom of the feeding of the storage device, so that the card carrier is lifted to the lower feeding end, and the card carrier is jacked by a one-way supporting plate arranged on the top layer to rise and is supported; in the input channel, the card carrier of the lower layer pushes up the card carrier of the upper layer to displace.

The operating device comprises a rotary observation platform arranged below the outlet of the feeding inclined channel of the input device;

the rotary observation platform is arranged in a hollow manner and comprises an outer bracket, and the surrounding inner side wall of the outer bracket is surrounded and hinged with the outer end part of the carrying fan plate; the root part of the carrying fan plate is hinged with the upper end of a lower hinged vertical arm; the lower end of the lower hinged vertical arm is hinged with a lower hinged plate;

side positioning baffle arms are arrayed on the circumference of the carrying fan plate, a placing station is arranged between the adjacent side positioning baffle arms, a turnover process hole is arranged at the outer bottom of the placing station, and an outer guardrail is arranged on the outer side of the rotary observation platform to prevent the card carrier from sliding outwards; one of the placing stations is used for receiving the card carrier output by the outlet of the feeding inclined channel;

a guide loop with an elastic positioning steel ball is arranged at the lower end of the rotary observation platform, and the elastic positioning steel ball corresponds to the overturning process hole; a lower base of a pedal lifting mandril with a groove matched with the elastic positioning steel ball is walked on the guide ring;

the lower hinged vertical arm is arranged in a hollow surrounding manner;

a pedal pressing plate is arranged above the lower hinged plate, the outer end of the pedal pressing plate is hinged and fixed through a pressing plate hinged fulcrum, and a rotary driving part is arranged on the rack and used for driving the rotary observation platform to rotate;

in a natural state, the inner end of the supporting fan plate is high-pressure and the outer end is pressed down by the pedal pressing plate, the hinged plate is linked to rotate the observation platform to swing through the lower hinged vertical arm, so that the inner end is lower than the outer end, the card carrier slides to the lower hinged vertical arm along the supporting fan plate to surround the hollow channel, and returns to the arrangement vibration disc below the hollow channel;

the first elastic card slot of the vocabulary card with the foreign language vocabulary contents faces the learner.

A foreign language translation vocabulary inquiry and study method, with the help of inquiry device; the following steps are executed;

s1, storing the card carrier with preset foreign language characters and/or translation content;

s2, the storage device inputs the card carriers to the input device in a set direction one by one;

s3, the input device receives the card carriers input by the storage device and lifts up one by one;

s4, the operation device receives the card carrier inputted by the storage device for the learner to learn the corresponding vocabulary according to the query, and after the query learning, the card carrier falls down and is sent back to the storage device.

In step S1, first, a vocabulary card having foreign language vocabulary contents is inserted into the first elastic card slot; then, inserting the vocabulary card with the translation contents and/or the diagrams of the foreign language vocabulary into the second elastic card slot; again, the card carrier is placed into a collation shaker tray.

In the step S2, in step S2,

s2.1, firstly, arranging the card carriers one by arranging the vibration disc and inputting the card carriers into a profiling vibration feeding channel; secondly, blocking and returning the card carriers with wrong arrangement positions to the arrangement vibration disc by a profiling process side baffle, conveying the card carriers with reasonable positions to a lower end inlet of the inclined feeding ramp, and blocking subsequent card carriers to the lower end inlet of the inclined feeding ramp by an elastic clamping hand;

s2.2, firstly, the card carrier is pushed upwards in an inclined direction by the feeding push rod; then, the card carrier enables the feeding automatic upturning one-way swinging plate to be pressed and swung downwards to be attached to the inclined feeding ramp, and the terminal process bulge enters the terminal process bottom hole; secondly, after the card carrier crosses the inclined feeding ramp to reach the feeding terminal, the feeding push rod retracts; and thirdly, returning the feeding automatic upturning one-way swinging plate to be in a vertical state and a time difference between the card carrier and the card carrier, and enabling the card carrier to slide downwards to abut against a terminal process bulge on the feeding automatic upturning one-way swinging plate.

In the step S3, in step S3,

s3.1, firstly, rotating the upper poking arm to swing from bottom to top from a material loading bottom channel of the storage device to enter, so that the card carrier is lifted to a lower feeding end, and the card carrier is lifted and supported by a one-way supporting plate arranged on an opening layer; in the input channel, the card carrier on the lower layer pushes up the card carrier on the upper layer for displacement;

s3.2, for the card carriers which are positioned at the upper top output station and supported by the corresponding layer of the unidirectional supporting plates, the card carriers are pushed to the feeding inclined channel after the feeding unidirectional baffle is opened by laterally pushing the L-shaped plates; the card carrier slides down the feed ramp channel for ejection.

In step S4, rotating by means of a rotating observation stage;

s4.1, firstly, rotating the no-load placing station to the outlet of the feeding inclined channel and carrying the card carrier which slides downwards; then, the rotary observation platform is reset, the card carrier with the cards is rotated to the front of the learner, the first elastic clamping groove faces the learner, and the second elastic clamping groove faces the bottom;

s4.2, firstly, carrying the high-voltage outer end of the inner end of the fan plate in a natural state; then, when the learner needs to inquire the translation content of the vocabulary in the first elastic clamping groove, the learner controls the pedal lifting ejector rod to move to the elastic positioning steel ball corresponding to the first elastic clamping groove and is clamped; secondly, the learner controls a pedal lifting ejector rod, the pedal lifting ejector rod ascends through the overturning fabrication hole, and the bottom of the front end of the card carrier is lifted upwards, so that the second elastic clamping groove faces the learner;

s4.3, after learning, the pedal pressing plate presses down the hinged plate, the rotary observation platform swings through linkage of the lower hinged vertical arm, the inner end is lower than the outer end, the card carrier slides to the lower hinged vertical arm along the carrying fan plate to surround the hollow channel, and the card carrier returns to the arrangement vibration disc below the hollow channel.

The invention has the advantages of reasonable design, low cost, firmness, durability, safety, reliability, simple operation, time and labor saving, capital saving, compact structure and convenient use.

Drawings

Fig. 1 is a schematic diagram of the use structure of the invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic structural diagram of the present invention.

Fig. 4 is a schematic structural diagram of the present invention.

Fig. 5 is a schematic diagram of the use structure of the invention.

Wherein: 1. a card carrier; 2. a storage device; 3. an input device; 4. an operating device; 5. vocabulary cards; 6. a chuck body; 7. a first elastic clamping groove; 8. a process channel; 9. slotting a tail hole; 10. a second elastic clamping groove; 11. arranging a vibrating disc; 12. a spiral stirring plate; 13. profiling a vibration feeding channel; 14. profiling a process side baffle; 15. elastic clamping hands; 16. inclining the feeding ramp; 17. a feeding push rod; 18. the feeding automatic upturning unidirectional swinging plate; 19. a terminal process bottom hole; 20. a terminal process bulge; 21. a feeding terminal; 22. a feeding bottom channel; 23. a transfer station; 24. rotating the upper toggle arm; 25. the shifting arm returns to the elbow; 26. a lower channel; 27. an upper channel; 28. a lower process cartridge; 29. a lower feeding end; 30. a lower toggle arm adapter slot; 31. arranging one-way supporting plates in layers; 32. lifting the top and outputting the station; 33. laterally pushing the L-shaped plate; 34. feeding a one-way baffle; 35. feeding an inclined channel; 36. rotating the observation platform; 37. the lower hinged vertical arm; 38. placing a station; 39. a side positioning arm; 40. turning over the fabrication hole; 41. an outer guardrail; 42. a guide loop; 43. elastically positioning a steel ball; 44. a lifting mandril is pedaled; 45. a pedal pressing plate; 46. the pressing plate is hinged with a fulcrum; 47. a lower hinge plate; 48. a rotation driving part.

Detailed Description

As shown in FIG. 1, the device for looking up the learnable foreign language translation vocabulary of the present embodiment includes

A card carrier 1, which is provided with foreign language translation words and is internally provided with preset foreign language characters and/or translation contents;

a storage device 2, on which the card carrier 1 is placed, and which successively inputs the card carrier 1 in a set direction;

an input device 3 for receiving the card carriers 1 input from the storage device 2 and lifting up one by one;

the operating device 4 receives the card carrier 1 input by the storage device 2 so that a learner can learn corresponding vocabularies according to inquiry, and after the inquiry and learning, the card carrier 1 falls down and is sent back to the storage device 2.

The card carrier 1 comprises a plate-shaped or triangular prism-shaped card holder body 6; a first elastic clamping groove 7 and a second elastic clamping groove 10 for placing the vocabulary cards 5 are respectively arranged on the two outer surfaces of the card holder body 6; a slotted tail hole 9 is arranged at the bottom of the first elastic clamping groove 7, and a process channel 8 is arranged on the clamping seat body 6 and used for identifying the angle and the position of the card carrier 1;

in the first elastic card slot 7, foreign language word content is arranged on the word card 5;

in the second elastic card slot 10, the vocabulary card 5 is provided with translation contents and/or diagrams corresponding to foreign language vocabularies;

the vocabulary card 5 is a plastic board, a smart label, a cardboard and/or a smart label card.

The storage device 2 comprises a tidying vibration disk 11; a spiral stirring plate 12 is rotated in the arrangement vibration disc 11 and is used for vibrating and stirring the card carriers 1 so as to enable the card carriers 1 to be arranged one by one and input;

the output end of the arranging vibration disc 11 is connected with a profiling vibration feeding channel 13, and a profiling process side baffle 14 is arranged above the profiling vibration feeding channel 13, so that the card carriers 1 which are not arranged at the arranging position are blocked and sent back to the arranging vibration disc 11, and the card carriers 1 which are arranged at the reasonable positions are conveyed; the outlet of the profiling vibration feeding channel 13 is provided with a lower end inlet of an inclined feeding ramp 16 and an elastic clamping hand 15, and the elastic clamping hand 15 is used for blocking or passing a subsequent card carrier 1 to the lower end inlet of the inclined feeding ramp 16;

a feeding push rod 17 is arranged on the inclined feeding ramp 16; a feeding terminal 21 is arranged at an outlet at the upper end of the inclined feeding ramp 16, a feeding automatic upturning unidirectional swinging plate 18 is arranged at the inlet side of the feeding terminal 21, and the feeding automatic upturning unidirectional swinging plate 18 is vertical to the bottom surface of the inclined feeding ramp 16 in a natural state; a terminal process bulge 20 is arranged on the side surface of the loading automatic upturning one-way swinging plate 18 close to the loading terminal 21, and a terminal process bottom hole 19 matched with the terminal process bulge 20 is arranged on the bottom surface of the inclined loading ramp 16; the feeding automatic upturning unidirectional swinging plate 18 overturns towards the feeding terminal 21;

the card carrier 1 is pushed upwards in an inclined mode by the feeding push rod 17, the card carrier 1 pushes the feeding automatic upturning one-way swinging plate 18 downwards to swing to be attached to the inclined feeding ramp 16, and the terminal process bulge 20 enters the terminal process bottom hole 19;

when the card carrier 1 crosses the inclined feeding ramp 16 to reach the feeding terminal 21, the feeding push rod 17 retracts; the card carrier 1 slides down to abut against a terminal process bulge 20 on the feeding automatic upturning unidirectional swinging plate 18 by utilizing the time difference between the vertical state of the feeding automatic upturning unidirectional swinging plate 18 and the gliding time difference of the card carrier 1, so that a process gap is generated between the card carrier 1 and the feeding automatic upturning unidirectional swinging plate 18;

a feeding bottom channel 22 is rotatably arranged on the bottom plate of the inclined feeding ramp 16.

The input device 3 comprises a transfer station 23 arranged on one side of a feeding terminal 21 of the storage device 2; a rotary upper poking arm 24 with a cantilever end provided with a poking arm return bend 25 rotates at the middle rotating station 23; an input channel is arranged above the feeding terminal 21; it comprises a lower channel 26 and an upper channel 27 which are communicated up and down;

the lower feed end 29 side of the lower channel 26 has a lower process cartridge 28 that rides on the inclined loading ramp 16 of the storage device 2; lower toggle arm adapter grooves 30 for rotating the upper toggle arms 24 are provided on both side walls of the lower feeding end 29;

the inner side walls of the lower channel 26 and the upper channel 27 are symmetrically hinged with layered one-way supporting plates 31; the layered one-way supporting plate 31 swings upwards in one way;

an upper ejection output station 32 is arranged above the upper channel 27, a side-push L-shaped plate 33 and a feeding one-way baffle 34 are respectively arranged at two sides of the upper ejection output station 32, and the feeding one-way baffle 34 is provided with an upper input end of a feeding inclined channel 35;

for the card carrier 1 which is positioned at the upper top output station 32 and supported by the corresponding layer-arranged one-way supporting plate 31, the card carrier 1 is pushed to the feeding inclined channel 35 after the feeding one-way baffle 34 is opened by the side-push L-shaped plate 33; the card carrier 1 slides down and is sent out from the feeding inclined channel 35;

the rotary upper poking arm 24 rotates to swing from bottom to top from the feeding bottom channel 22 of the storage device 2, so that the card carrier 1 is lifted to the lower feeding end 29, and the card carrier 1 is lifted by the one-way supporting plate 31 arranged on the top layer and lifted and supported; in the feed channel, the lower card carrier 1 pushes up and displaces the upper card carrier 1. The operating device 4 comprises a rotary observation platform 36 arranged below the outlet of the feeding inclined channel 35 of the input device 3;

the rotary observation platform 36 is arranged in a hollow manner, the rotary observation platform 36 comprises an outer support, and the surrounding inner side wall of the outer support is surrounded and hinged with the outer end part of the carrying fan plate; the root of the carrying fan plate is hinged with the upper end of a lower hinged vertical arm 37; a lower hinge plate 47 is hinged at the lower end of the lower hinge vertical arm 37;

side positioning baffle arms 39 are arrayed on the circumference of the carrying fan plate, a placing station 38 is arranged between the adjacent side positioning baffle arms 39, a turning process hole 40 is arranged at the outer bottom of the placing station 38, and an outer guardrail 41 is arranged on the outer side of the rotary observation platform 36 to prevent the card carrier 1 from sliding outwards; a placing station 38 at one of the positions for receiving the card carrier 1 fed out from the outlet of the inclined channel 35;

a guide loop 42 with an elastic positioning steel ball 43 is arranged at the lower end of the rotary observation platform 36, and the elastic positioning steel ball 43 corresponds to the turnover process hole 40; a lower base of a pedal lifting mandril 44 with a groove matched with the elastic positioning steel ball 43 is walked on the guide ring 42;

the lower hinged vertical arm 37 is arranged in a hollow surrounding manner;

a pedal pressing plate 45 is arranged above the lower hinged plate 47, the outer end of the pedal pressing plate 45 is hinged and fixed through a pressing plate hinged fulcrum 46, and a rotary driving part 48 is arranged on the frame and used for driving the rotary observation table 36 to rotate; in a natural state, when the pedal pressing plate 45 presses down the hinged plate 47, the lower hinged vertical arm 37 is linked to rotate the observation platform 36 to swing to enable the inner end to be lower than the outer end, so that the card carrier 1 slides to the lower hinged vertical arm 37 to surround the hollow channel along the loading fan plate and returns to the arrangement vibration disc 11 positioned below the hollow channel;

the first elastic card slot 7 of the vocabulary card 5 having the foreign language vocabulary contents is directed toward the learner.

The foreign language translation vocabulary inquiry and learning method of the embodiment is realized by an inquiry device; the following steps are executed; s1, storing the card carrier 1 with the foreign language characters and/or the translation content in advance in the storage device 2;

s2, the storage device 2 sequentially inputs the card carriers 1 to the input device 3 in the set direction;

s3, the input device 3 receives the card carriers 1 input by the storage device 2 and lifts up one by one;

s4, the operating device 4 receives the card carrier 1 from the storage device 2 for the learner to learn the corresponding vocabulary according to the query, and after the query, the card carrier 1 falls back to the storage device 2.

In step S1, first, the vocabulary card 5 having the foreign language vocabulary contents is inserted into the first elastic card slot 7; then, the vocabulary card 5 having the translation contents and/or illustrations of the corresponding foreign language vocabulary is inserted into the second elastic card slot 10; again, the card carrier 1 is placed into the tidying vibratory pan 11.

In the step S2, in step S2,

s2.1, firstly, arranging the card carriers 1 one by the arranging vibration disc 11 and inputting the card carriers into the profiling vibration feeding channel 13; secondly, the profiling process side baffle 14 blocks and sends the card carriers 1 with wrong arrangement positions back to the arrangement vibration disc 11, the card carriers 1 with reasonable positions are sent to the lower end inlet of the inclined feeding ramp 16, and the elastic clamping hand 15 blocks the subsequent card carriers 1 from reaching the lower end inlet of the inclined feeding ramp 16;

s2.2, firstly, the card carrier 1 is driven to change direction and lift upwards by the feeding push rod 17; then, the card carrier 1 presses and swings the feeding automatic upturning unidirectional swinging plate 18 downwards to be attached to the inclined feeding ramp 16, and the terminal process bulge 20 enters the terminal process bottom hole 19; secondly, after the card carrier 1 crosses the inclined feeding ramp 16 to reach the feeding terminal 21, the feeding push rod 17 retracts; then, the card carrier 1 slides down to abut against the terminal process protrusion 20 on the feeding automatic upturning unidirectional oscillating plate 18 by utilizing the time difference between the vertical state of the feeding automatic upturning unidirectional oscillating plate 18 and the sliding down time of the card carrier 1.

In the step S3, in step S3,

s3.1, firstly, rotating the upper poking arm 24 to swing from bottom to top in the feeding bottom channel 22 of the storage device 2, so that the card carrier 1 is lifted to the lower feeding end 29, and the card carrier 1 is lifted by arranging a one-way supporting plate 31 on the top layer to ascend and be supported; in the input channel, the card carrier 1 at the lower layer pushes up and displaces the card carrier 1 at the upper layer;

s3.2, for the card carrier 1 which is positioned at the upper top output station 32 and supported by the corresponding layer-arranged one-way supporting plate 31, the card carrier 1 is pushed to the feeding inclined channel 35 after the feeding one-way baffle 34 of the card carrier 1 is opened by the side-push L-shaped plate 33; the card carrier 1 slides down and out of the feed chute 35.

In step S4, rotation by means of the rotating observation stage 36;

s4.1, firstly, rotating the no-load placing station 38 to the outlet of the feeding inclined channel 35 and carrying the card carrier 1 which slides downwards; then, the rotary observation platform 36 is reset, and the card carrier 1 is rotated to the front of the learner, the first elastic clamping groove 7 faces the learner, and the second elastic clamping groove 10 faces the bottom;

s4.2, firstly, carrying the high-voltage outer end of the inner end of the fan plate in a natural state; then, when the learner needs to inquire the translation content of the vocabulary in the first elastic clamping groove 7, the learner controls the pedal lifting mandril 44 to move to the elastic positioning steel ball 43 corresponding to the first elastic clamping groove 7 to be clamped; secondly, the learner operates the pedal lifting ejector rod 44, the pedal lifting ejector rod 44 ascends to pass through the overturning fabrication hole 40, and the bottom of the front end of the card carrier 1 is lifted upwards, so that the second elastic clamping groove 10 faces the learner;

s4.3, firstly, after learning, the pedal pressing plate 45 presses down the hinge plate 47, the lower hinge vertical arm 37 is linked with the rotary observation platform 36 to swing, so that the inner end is lower than the outer end, the card carrier 1 slides to the lower hinge vertical arm 37 along the carrying fan plate to surround the hollow channel, and returns to the arrangement vibration disc 11 below the hollow channel.

Through the improvement of the traditional card carrier 1, the English learning activities of children, disabled people and other people are met, and therefore teachers can conveniently replace required words. The storage device 2 facilitates the rapid loading of carriers, the input device 3 realizes the directional one-by-one loading of carriers, the operation device 4 a learner guesses the translation content according to vocabularies, thereby saving a person for turning over the cards in a matching way, the vocabulary cards 5 can be conventional cards or clamping plates, the clamping seat body 6, the first elastic clamping groove 7 is set as required, the process channel 8 realizes the positioning and orientation in the arranging way, the slotted tail hole 9 is convenient to eject the cards from the rear end, the clamping groove is preferably an SD clamping groove, the second elastic clamping groove 10 is the same, the arranging vibration disc 11 and the spiral stirring plate 12 realize the loading of the carriers, the profiling vibration feeding channel 13 and the profiling process side baffle 14 are arranged in a profiling way, thereby ensuring the directional transmission, the elastic clamping hands 15 realize the one-by-one loading, the loading ramp 16 is inclined so as to compensate the height difference, the loading push rod 17 realizes the loading of the carriers, the automatic loading upturning one-way swinging plate 18 realizes the automatic loading on-by-load at the terminal, the terminal technology bottom hole 19 facilitates the entering of a terminal technology bulge 20 and the forward movement of a carrier, a gap is generated between the carrier and a swing plate through the bulge, the process rotation of the loading terminal 21 is realized, the loading bottom channel 22 outputs according to the guiding direction, the transfer station 23 rotates the upper shifting arm 24, and the shifting arm return bend 25 enables the carrier to lift upwards, and the channel is divided into a lower channel 26 and an upper channel 27. The lower process cartridge 28 and the lower feed end 29 achieve lateral guidance, the lower dial arm adapter groove 30 facilitates the passage of the dial arm, the lifting is realized by arranging the unidirectional supporting plate 31 layer by layer, the feeding is realized by jacking the output station 32, the output is realized by laterally pushing the L-shaped plate 33, the feeding unidirectional baffle 34 and the feeding inclined channel 35, the rotary observation platform 36 is driven by the conventional rotation, the lower hinged vertical arm 37 and the lower hinged plate 47 are used for realizing hinged control, the placing station 38 is positioned by the side positioning baffle arm 39, the overturning fabrication hole 40 is used for realizing the matching inclination and the overturning angle of the clamping seat, the outer guard rail 41 is used for realizing the side baffle, the guide ring 42 and the elastic positioning steel ball 43 are used for realizing the positioning of the pedal lifting ejector rod 44, of course, the pressing can be realized through the steel ball by force or matching with the key, the pressing plate is hinged with the fulcrum 46 to realize pressing down through the pedal pressing plate 45, so that the clamping seat slides downwards to return, and the rotation is realized through the rotary driving part 48.

The present invention has been described in sufficient detail for clarity of disclosure and is not exhaustive of the prior art.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; it is obvious as a person skilled in the art to combine several aspects of the invention. And such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.