CN115604449A - Translation pen capable of projecting images - Google Patents

Abstract

The invention discloses a translation pen capable of projecting images, and relates to the technical field of image communication. The portable application is convenient to form through the arrangement of the projection translation pen structure, the traditional translation function is realized, translated languages can also form corresponding character images for projection, the translation pen is more convenient to use, the communication conversion application from the languages to the images is further achieved, the support structure is arranged, the support which is convenient to unfold is convenient to form, the pen body can be conveniently arranged on a desktop and can project against the wall, the multifunctional projection board structure is arranged, when the portable translation pen is not used, the projection lens is convenient to seal to form sealed dustproof protection, when the projection position is not suitable, the projection board with the adjustable angle and distance is convenient to provide, translation is convenient to check, the white board is convenient to be drawn out according to the use requirement to form a convex mirror for enlarged projection, and a more complete auxiliary function is provided.

Description

Translation pen capable of projecting images

Technical Field

The invention relates to the technical field of image communication, in particular to a translation pen capable of projecting images.

Background

With the rapid progress of the society, the application range of the recording type translation pen is wider and wider, but due to different application conditions, certain defects exist in the application process of the translation pen, and the current sound is easy to appear when interference exists in the process of direct translation due to the fact that mechanical sound translation playing is often performed, so that the translation listening effect is affected, and therefore a new solution needs to be provided for the problems.

Disclosure of Invention

The invention aims to provide a translation pen capable of projecting images, which aims to solve the existing problems that: in the process of direct translation, because mechanical sound translation is often played, current sound is easy to appear when interference exists, and the translation listening effect is influenced.

In order to achieve the purpose, the invention provides the following technical scheme: a translation pen capable of projecting images comprises a projection translation pen structure, wherein the projection translation pen structure comprises a pen body shell, a projection module, a sliding carrier block, a radio receiving module and a broadcasting module, the inner side of one end of the pen body shell is connected with the sliding carrier block in a sliding mode, one end of the sliding carrier block is fixedly connected with a magnetic absorption end block, one end and the other end of the top end of the sliding carrier block are respectively provided with the radio receiving module and the broadcasting module, one end, far away from the sliding carrier block, of the pen body shell is connected with the projection module in a rotating mode, and the magnetic absorption end block is connected with the pen body shell in a magnetic absorption mode;

preferably, the projection translation pen structure further comprises a storage battery, a translation chip, a single chip microcomputer, a control module and a switching module, wherein the storage battery is used for providing a power supply, the control module is used for forming power-on starting and control application, the radio module and the broadcast module are both connected with the translation chip, the input end of the single chip microcomputer is connected with the translation chip through the switching module, and the output end of the single chip microcomputer is electrically connected with the projection module;

preferably, a placing support structure is fixedly connected to the bottom end of one end of the projection translation pen structure, the placing support structure comprises a driving derivation module and a driven support module, and the driven support module is fixedly connected to the bottom end of one end of the driving derivation module;

preferably, the projection translation pen structure is far away from the bottom fixedly connected with multifunctional projection plate structure at one end of the support structure, the multifunctional projection plate structure comprises a distance adjusting module and an angle adjusting module, the top of the distance adjusting module is fixedly connected with the projection translation pen structure, and the two sides of the distance adjusting module are fixedly connected with the angle adjusting module.

Preferably, the two sides of the projection module are fixedly connected with rotating columns, the rotating columns are rotatably connected with the pen body shell, the outer side of one side of each rotating column is fixedly connected with a basic positioning plate, a plurality of first assembling holes are formed in the inner side of the basic positioning plate, a second assembling hole is formed in the inner side, close to one side of the basic positioning plate, of the pen body shell, a threaded positioning rod is connected to the inner side of each first assembling hole through threads, and the threaded positioning rod and the second assembling holes are in clearance fit.

Preferably, the active derivation module includes that the locating shell is carried, the locating plate is extended, first motor, first conduction push rod, eccentric push pedal, the linkage push rod that folds up, first guide slide rail, atress displacement slider and atress post, the bottom fixedly connected with of extending locating plate one end carries the locating shell, one side of carrying the locating shell has first motor through the fix with screw union coupling, the first conduction push rod of output fixedly connected with of first motor, first conduction push rod rotates with carrying the locating shell to be connected, the outside fixedly connected with eccentric push pedal of first conduction push rod, one side of eccentric push pedal rotates and is connected with the linkage push rod that folds up, the first guide slide rail of bottom fixedly connected with of extending the locating plate, the bottom sliding connection of first guide slide rail has the atress displacement slider, one side fixedly connected with atress post of atress displacement slider, the top of the linkage push rod that folds up is connected with the rotation of atress post.

Preferably, the driven support module comprises an internally-arranged carrying frame, a support rod, a transmission rib plate and an anti-slip pad, the extending positioning plate is far away from the internally-arranged carrying frame which is fixedly connected with the bottom end of one end of the carrying positioning shell, the bottom end of the internally-arranged carrying frame is rotatably connected with the support rod, the anti-slip pad is fixedly connected with the bottom end of the support rod, one side, far away from the stress column rod, of the bottom end of the stress displacement sliding block is rotatably connected with the transmission rib plate, and the stress displacement sliding block is connected with the support rod through the transmission rib plate.

Preferably, the distance adjusting module includes that built-in carrying on the shell, guide spout, linkage commentaries on classics board, second conduction push rod, move and lead thrust module, third conduction push rod, second guide slide rail, first cooperation and move the displacement piece and extend the transfer board, the inboard fixedly connected with second guide slide rail of built-in carrying on the shell, the guide spout has been seted up to the both sides of built-in carrying on the shell, the outside sliding connection of second guide slide rail one end has first cooperation and moves the displacement piece, the both sides fixedly connected with of first cooperation displacement piece extends the transfer board, it is clearance fit with the guide spout to extend the transfer board, the top that built-in carrying on the shell inboard is rotated and is connected with the linkage commentaries on classics board, the inboard one end fixedly connected with that keeps away from first cooperation displacement piece of built-in carrying on the shell moves the thrust module, it is connected through second conduction push rod to move between thrust module and the linkage commentaries on classics board, the top of first cooperation displacement piece is rotated and is connected with third conduction push rod, the third conduction push rod rotates with the linkage commentaries on classics board and is connected far away from the one end that first cooperation displacement piece.

Preferably, the power transmission thrust module is matched with the displacement piece including location carrier, third motor, mandrel, built-in guide bar, direction push fork, fork groove, fourth conduction push rod, supplementary atress pole and second, the bottom and the built-in shell fixed connection that carries on of location carrier, screw fixedly connected with third motor is passed through to one side of location carrier, the output fixedly connected with mandrel of third motor, the built-in guide bar of both sides fixedly connected with on location carrier top, the both sides fixedly connected with direction push fork of mandrel, the fork groove has been seted up to the inboard that the direction pushed the fork, the inboard sliding connection of built-in guide bar has fourth conduction push rod, the supplementary atress pole of one end fixedly connected with of fourth conduction push rod, supplementary atress pole is clearance fit with the fork groove, the one end fixedly connected with second that supplementary atress pole was kept away from to the fourth conduction push rod is matched with the displacement piece, the one end sliding connection that first matched with the displacement piece was kept away from to second conduction push rod and second guide slide rail, the one end of second conduction push rod is matched with the rotation of displacement piece, the other end of second conduction transfer board is connected with the rotation of second conduction push rod.

Preferably, the angle adjustment module includes first rotation carrier block, second motor, initiative dwang, second rotation carrier block, driven dwang, interior vanning, printing opacity convex mirror, inserts and pushes away groove, projection blank, shutoff end block and bolt, one of them extend the first rotation carrier block of one side fixedly connected with of transmission board, another extend the first rotation carrier block of one side fixedly connected with second of transmission board, screw fixedly connected with second motor is passed through to one side of first rotation carrier block, the output fixedly connected with initiative dwang of second motor, the second rotates the carrier block and keeps away from one side rotation that extends the transmission board and is connected with driven dwang, the top of driven dwang and the equal fixedly connected with in top of initiative dwang are incasement, the inboard of incasement has been seted up and has been inserted and has been pushed away the groove, the one end fixedly connected with printing opacity convex mirror of incasement, the inboard sliding connection that inserts and pushes away the groove has projection blank end block and shutoff end block, the shutoff is located the top of projection end block, the shutoff passes through bolted connection with the blank end block.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention is convenient to form portable application by setting the projection translation pen structure, not only realizes the traditional translation function, but also can form the translated language into corresponding character images for projection, is more convenient to translate and use, thereby achieving the communication conversion application from the language to the images;

2. according to the invention, through the arrangement of the placing support structure, the placing at the position required is facilitated, so that a support which is conveniently unfolded is formed, and the pen body is conveniently placed on the desktop and then forms a projection against the wall surface;

3. according to the multifunctional projection board, due to the arrangement of the multifunctional projection board structure, when the multifunctional projection board is not used, the multifunctional projection board is convenient to seal at the position of the projection lens to form sealed dustproof protection, when a proper projection position is not available, the projection board with the adjustable angle and distance is convenient to provide, translation is convenient to check, the white board is convenient to extract according to use requirements to form convex lens enlarged projection, and a more complete auxiliary function is provided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a schematic view of the overall use of the present invention;

FIG. 3 is a schematic diagram of a partial structure of a projection translation pen according to the present invention;

FIG. 4 is a partial structural view of a placement support structure of the present invention;

FIG. 5 is a schematic diagram of a partial structure of an active derivation module according to the present invention;

FIG. 6 is a partial schematic view of a driven carrier module according to the present invention;

FIG. 7 is a schematic view of a partial structure of a multifunctional projection plate according to the present invention;

FIG. 8 is a schematic view of a partial structure of an angle adjustment module according to the present invention;

FIG. 9 is a schematic view of a partial structure of a distance adjustment module according to the present invention;

fig. 10 is a partial structural schematic view of the dynamic thrust module of the present invention.

In the figure: 1. projecting the translation pen structure; 2. placing a support structure; 3. a multifunctional projection plate structure; 4. a pen body housing; 5. a projection module; 6. rotating the column; 7. a base positioning plate; 8. a first fitting hole; 9. a second fitting hole; 10. a threaded positioning rod; 11. a magnetically attracted end block; 12. sliding the carrier block; 13. a radio module; 14. a broadcasting module; 15. an active derivation module; 16. a driven support module; 17. carrying a positioning shell; 18. extending the positioning plate; 19. a first motor; 20. a first conductive push rod; 21. an eccentric push plate; 22. a linked folding push rod; 23. a first guide rail; 24. a force-receiving displacement slide block; 25. a stressed mast; 26. a carrying frame is arranged in the box body; 27. a support rod; 28. a transmission rib plate; 29. a non-slip mat; 30. a distance adjustment module; 31. an angle adjustment module; 32. a first rotating carrier block; 33. a second motor; 34. an active rotating rod; 35. a second rotating carrier block; 36. a driven rotating rod; 37. packing in a box; 38. a light-transmitting convex mirror; 39. inserting into the push groove; 40. a projection white board; 41. plugging the end block; 42. a bolt; 43. a carrying shell is arranged in the shell; 44. a guide chute; 45. a linkage rotating plate; 46. a second conductive push rod; 47. a dynamic guide thrust module; 48. a third conductive push rod; 49. a second guide rail; 50. a first kinematic displacement block; 51. an extension transfer plate; 52. positioning the carrier; 53. a third motor; 54. a mandrel; 55. a guide rod is arranged in the guide rod; 56. a guide pushing fork; 57. a fork groove; 58. a fourth conductive push rod; 59. an auxiliary stress bar; 60. a second cooperating displacement block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

The first embodiment is as follows:

referring to fig. 1-3, an image projectable translation pen includes a projection translation pen structure 1, the projection translation pen structure 1 includes a pen body housing 4, a projection module 5, a sliding carrier block 12, a radio module 13 and a broadcast module 14, the inner side of one end of the pen body housing 4 is slidably connected with the sliding carrier block 12, one end of the sliding carrier block 12 is fixedly connected with a magnetic attraction end block 11, one end and the other end of the top end of the sliding carrier block 12 are respectively provided with the radio module 13 and the broadcast module 14, one end of the pen body housing 4 far away from the sliding carrier block 12 is rotatably connected with the projection module 5, and the magnetic attraction end block 11 is magnetically attracted with the pen body housing 4;

through the arrangement of the sliding insertion, the magnetic attraction end block 11 drives the sliding carrier block 12 to slide on the inner side of the pen body shell 4, and the magnetic attraction end block 11 and the pen body shell 4 are magnetically attracted and fixed to form a seal when the pen body shell is sealed, so that the dust seal of the radio module 13 and the broadcast module 14 is conveniently formed, and the use influence caused by dust entering of the radio module 13 and the broadcast module 14 is avoided;

the projection translation pen structure 1 further comprises a storage battery, a translation chip, a single chip microcomputer, a control module and a switching module, wherein the storage battery is used for providing a power supply, the control module is used for forming power-on starting and control application, the radio module 13 and the broadcasting module 14 are both connected with the translation chip, the input end of the single chip microcomputer is connected with the translation chip through the switching module, and the output end of the single chip microcomputer is electrically connected with the projection module 5;

the voice is recorded by the radio receiving module 13 to form an electric signal which is transmitted to the translation chip, the voice is translated by the translation chip to form another electric signal which is transmitted to the broadcasting module 14 to form sound playing, the electric signal formed after the translation of the translation chip is transmitted to the single chip microcomputer in an auxiliary mode through the switching module, the single chip microcomputer comprises a recognition system, an image-text matching system and a picture forming system, the translated voice is recognized by the recognition system in the single chip microcomputer to belong to any country, corresponding characters are matched by the image-text matching system, images and texts are formed by the picture forming system, and the images and texts are projected and played through the projection module 5, so that the communication conversion application from language to images is achieved.

The second embodiment:

in the present embodiment, on the premise of the first embodiment, a structure of the projection module 5 is provided, which facilitates adjustment of the projection angle;

referring to fig. 3, two sides of the projection module 5 are fixedly connected with rotating columns 6, the rotating columns 6 are rotatably connected with the pen body housing 4, the outer side of one side of the rotating column 6 is fixedly connected with a base positioning plate 7, the inner side of the base positioning plate 7 is provided with a plurality of first assembling holes 8, the inner side of the pen body housing 4, which is close to one side of the base positioning plate 7, is provided with a second assembling hole 9, the inner side of the first assembling hole 8 is connected with a threaded positioning rod 10 through threads, and the threaded positioning rod 10 and the second assembling hole 9 are in clearance fit;

when the angle of the projection module 5 needs to be adjusted, the threaded positioning rod 10 is rotated, the threaded connection of the threaded positioning rod 10 and the first assembling hole 8 is utilized, the threaded positioning rod 10 is laterally displaced, the threaded positioning rod 10 is drawn out from the inner side of the second assembling hole 9 and the inner side of the first assembling hole 8, the basic positioning plate 7 is not limited, the basic positioning plate 7 is rotated, the basic positioning plate 7 is utilized to drive the projection module 5 to rotate to a proper angle, the threaded positioning rod 10 is reset to the inner side of the threaded positioning rod 10 corresponding to the second assembling hole 9 at the moment, the threaded positioning rod 10 is rotated at the moment, the inner side of the second assembling hole 9 is inserted under the guide of the threads on the inner side of the first assembling hole 8, the closed locking of the basic positioning plate 7 is completed, and the angle adjustment is fixed.

Example three:

the embodiment provides a placing support structure 2 on the premise of the second embodiment, so that the device can be conveniently placed on a desktop for translation and projection application, and the application is not required to be supported by hands continuously during application;

referring to fig. 4-6, a placing support structure 2 is fixedly connected to a bottom end of one end of the projection translation pen structure 1, the placing support structure 2 includes a driving derivation module 15 and a driven support module 16, and the driven support module 16 is fixedly connected to the bottom end of one end of the driving derivation module 15;

the active derivation module 15 comprises a carrying positioning shell 17, an extension positioning plate 18, a first motor 19, a first conduction push rod 20, an eccentric push plate 21, a linkage folding push rod 22, a first guide slide rail 23, a stress displacement slide block 24 and a stress column rod 25, wherein the bottom end of one end of the extension positioning plate 18 is fixedly connected with the carrying positioning shell 17, one side of the carrying positioning shell 17 is connected with the first motor 19 through a screw fixing pipe, the output end of the first motor 19 is fixedly connected with the first conduction push rod 20, the first conduction push rod 20 is rotatably connected with the carrying positioning shell 17, the outer side of the first conduction push rod 20 is fixedly connected with the eccentric push plate 21, one side of the eccentric push plate 21 is rotatably connected with the linkage folding push rod 22, the bottom end of the extension positioning plate 18 is fixedly connected with the first guide slide rail 23, the bottom end of the first guide slide rail 23 is slidably connected with the stress displacement slide block 24, one side of the stress displacement slide block 24 is fixedly connected with the stress column rod 25, and the top end of the linkage folding push rod 22 is rotatably connected with the stress column rod 25;

the driven support module 16 comprises an internal carrying frame 26, a support rod 27, a transmission rib plate 28 and an anti-slip pad 29, the bottom end of the extending positioning plate 18, which is far away from one end of the carrying positioning shell 17, is fixedly connected with the internal carrying frame 26, the bottom end of the internal carrying frame 26 is rotatably connected with the support rod 27, the bottom end of the support rod 27 is fixedly connected with the anti-slip pad 29, one side, which is far away from the stress column rod 25, of the bottom end of the stress displacement slide block 24 is rotatably connected with the transmission rib plate 28, and the stress displacement slide block 24 is connected with the support rod 27 through the transmission rib plate 28;

the first motor 19 is controlled to drive the first conduction push rod 20 to complete rotation, the first conduction push rod 20 is used for driving the eccentric push plate 21 to complete rotation, the eccentric arrangement of the eccentric push plate 21 is used for enabling the eccentric push plate 21 to drive the linkage folding push rod 22 to complete angle adjustment in the rotation process, the angle adjustment of the linkage folding push rod 22 is used for deducing the stressed column rod 25 to drive the stressed displacement slide block 24 to complete sliding displacement under the guide of the first guide slide rail 23, the transmission rib plate 28 is used for transmitting the sliding displacement of the stressed displacement slide block 24 to the support rod 27, the support rod 27 is enabled to drive the anti-skid pad 29 to be perpendicular to the desktop after the support rod 27 rotates to a proper angle on the inner side of the built-in carrying frame 26, and the projection translation pen structure 1 is convenient to be placed on the desktop;

example four:

in the third embodiment, on the premise of the third embodiment, the multifunctional projection plate structure 3 for auxiliary projection application is provided, and the multifunctional projection plate structure 3 is utilized to form a plurality of matching applications with different functions;

referring to fig. 7-10, a multifunctional projection plate structure 3 is fixedly connected to a bottom end of the projection translation pen structure 1 far from the end where the support structure 2 is placed, the multifunctional projection plate structure 3 includes a distance adjusting module 30 and an angle adjusting module 31, a top end of the distance adjusting module 30 is fixedly connected to the projection translation pen structure 1, and two sides of the distance adjusting module 30 are fixedly connected to the angle adjusting module 31;

the distance adjusting module 30 comprises an inner mounting shell 43, a guide sliding groove 44, a linkage rotating plate 45, a second transmission push rod 46, a movable guide thrust module 47, a third transmission push rod 48, a second guide sliding rail 49, a first movable displacement block 50 and an extension transmission plate 51, wherein the inner side of the inner mounting shell 43 is fixedly connected with the second guide sliding rail 49, the two sides of the inner mounting shell 43 are provided with the guide sliding grooves 44, the outer side of one end of the second guide sliding rail 49 is slidably connected with the first movable displacement block 50, the two sides of the first movable displacement block 50 are fixedly connected with the extension transmission plate 51, the extension transmission plate 51 is in clearance fit with the guide sliding grooves 44, the top end of the inner side of the inner mounting shell 43 is rotatably connected with the linkage rotating plate 45, one end of the inner mounting shell 43, which is far away from the first movable displacement block 50, the movable guide thrust module 47 is fixedly connected with the linkage rotating plate 45 through the second transmission push rod 46, the top end of the first movable displacement block 50 is rotatably connected with the third transmission push rod 48, and the end of the third transmission push rod 48, which is far away from the first movable displacement block 50, is connected with the linkage rotating thrust plate 45;

the dynamic guide thrust module 47 comprises a positioning carrier 52, a third motor 53, a mandrel 54, an inner installed guide rod 55, a guide push fork 56, a fork groove 57, a fourth conductive push rod 58, an auxiliary stress rod 59 and a second dynamic matching displacement block 60, wherein the bottom end of the positioning carrier 52 is fixedly connected with the inner installed carrying shell 43, one side of the positioning carrier 52 is fixedly connected with the third motor 53 through a screw, the output end of the third motor 53 is fixedly connected with the mandrel 54, two sides of the top end of the positioning carrier 52 are fixedly connected with the inner installed guide rod 55, two sides of the mandrel 54 are fixedly connected with the guide push fork 56, the fork groove 57 is formed in the inner side of the guide push fork 56, a fourth conductive push rod 58 is slidably connected with the inner side of the inner installed guide rod 55, one end of the fourth conductive push rod 58 is fixedly connected with the auxiliary stress rod 59, the auxiliary stress rod 59 is in clearance fit with the fork groove 57, one end of the fourth conductive push rod 58, which is far away from the auxiliary stress rod 59, the second dynamic matching displacement block 60 is fixedly connected with one end of the second guide sliding rail 49, one end of the second dynamic matching displacement block 60 is slidably connected with one end of the second guide sliding rail 49, the second conductive push rod 46 is connected with the second dynamic matching displacement block 46, and the second conductive displacement block 46 is connected with the second conductive sliding plate 46;

the angle adjusting module 31 comprises a first rotating carrier block 32, a second motor 33, a driving rotating rod 34, a second rotating carrier block 35, a driven rotating rod 36, an inner box 37, a light-transmitting convex mirror 38, an inserting push groove 39, a projection white board 40, a blocking end block 41 and a bolt 42, wherein one side of one extending transfer plate 51 is fixedly connected with the first rotating carrier block 32, one side of the other extending transfer plate 51 is fixedly connected with the second rotating carrier block 35, one side of the first rotating carrier block 32 is fixedly connected with the second motor 33 through a bolt, the output end of the second motor 33 is fixedly connected with the driving rotating rod 34, one side of the second rotating carrier block 35 far away from the extending transfer plate 51 is rotatably connected with the driven rotating rod 36, the top end of the driven rotating rod 36 and the top end of the driving rotating rod 34 are both fixedly connected with the inner box 37, the inner side of the inner box 37 is provided with the inserting push groove 39, one end of the light-transmitting convex mirror 38 is fixedly connected with one end of the inner box 37, the inner side of the inserting push groove 39 is slidably connected with the projection white board 40 and the blocking end block 41, the blocking end block 41 is positioned at the top end block of the projection white board 40, and the blocking end block 37 are connected with the blocking end block 37 through the bolt 42;

when a plane which is inconvenient for direct projection exists, the third motor 53 is controlled to drive the spindle 54 to rotate, the guide push fork 56 is driven to rotate synchronously by the rotation of the spindle 54, the guide push fork 56 is driven to push the electric fourth conduction push rod 58 stressed by the auxiliary stress rod 59 to slide and displace on the inner side of the inner guide rod 55 by utilizing the clearance fit between the fork groove 57 and the auxiliary stress rod 59, so that the guide push fork 56 deduces the sliding displacement of the auxiliary stress rod 59 under the guidance of the second guide slide rail 49, the displacement of the second coordination displacement block 60 is transmitted to the linkage rotating plate 45 by utilizing the second conduction push rod 46, so that the linkage rotating plate 45 rotates, at the moment, the rotation of the linkage rotating plate 45 is formed into reverse derivation drive with the second conduction push rod 46 by utilizing the third conduction push rod 48, the first coordination displacement block 50 is driven to adjust, the extension transmission plate 51 is driven by utilizing the first coordination displacement block 50 to adjust the position of the angle adjusting module 31 under the guidance of the guide slide groove 44 until the inner guide box 37 is far away from the projection module 5 until a proper projection position is reached, the projection position is controlled, and the projection board 40 is directly viewed through the projection board 40;

when the projection needs to be enlarged, the bolt 42 is separated from the inner box 37 and the blocking end block 41, the blocking end block 41 is pulled out and inserted into the push groove 39, so that the projection white board 40 loses the compression limit, at the moment, the projection white board 40 is pulled out, the light-transmitting convex lens 38 corresponds to the projection module 5, and the projection of the projection module 5 is enlarged and projected through the light-transmitting convex lens 38, so that the projection is more convenient to watch;

when a good projection environment is achieved, the second motor 33 is controlled to drive the driving rotating rod 34 to rotate, and the driving rotating rod 34 is used for driving the inner container 37 and the driven rotating rod 36 to synchronously rotate until the inner container 37 is separated from the irradiation position of the projection module 5;

when the projector is not used, the projection white board 40 is used for sealing the projection module 5, so that dust is prevented from accumulating at the position of the projection module 5.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. A translation pen capable of projecting images is characterized in that: including projection translation pen structure (1), projection translation pen structure (1) includes handwriting shell (4), projection module (5), slip carrier block (12), radio reception module (13) and broadcast module (14), the inboard sliding connection of handwriting shell (4) one end has slip carrier block (12), the one end fixedly connected with magnetism of slip carrier block (12) is inhaled end block (11), the one end and the other end on slip carrier block (12) top are provided with radio reception module (13) and broadcast module (14) respectively, the one end rotation that sliding carrier block (12) was kept away from in handwriting shell (4) is connected with projection module (5), magnetism is inhaled end block (11) and is inhaled with handwriting shell (4) magnetism and is connected.

2. An image projectable translation pen according to claim 1, wherein: projection translation pen structure (1) still includes battery, translation chip, singlechip, control module and switching module, the battery is used for providing the power, control module is used for forming the circular telegram and opens and control the application, radio module (13) and broadcast module (14) all are connected with the translation chip, the input of singlechip passes through switching module and is connected with the translation chip, the output and projection module (5) electric connection of singlechip.

3. An image projectable translation pen according to claim 1, wherein: the bottom fixedly connected with of projection translation pen structure (1) one end places supporting structure (2), place supporting structure (2) including initiative derivation module (15) and driven support module (16), the bottom fixedly connected with driven support module (16) of initiative derivation module (15) one end.

4. An image projectable translation pen according to claim 1, wherein: the projection translation pen structure (1) is kept away from the multifunctional projection plate structure (3) fixedly connected with the bottom end for placing one end of the support structure (2), the multifunctional projection plate structure (3) comprises a distance adjusting module (30) and an angle adjusting module (31), the top end of the distance adjusting module (30) is fixedly connected with the projection translation pen structure (1), and the two sides of the distance adjusting module (30) are fixedly connected with the angle adjusting module (31).

5. An image projectable translation pen according to claim 1, wherein: the pen with the projection function is characterized in that the two sides of the projection module (5) are fixedly connected with rotating columns (6), the rotating columns (6) are rotatably connected with a pen body shell (4), the outer side of one side of each rotating column (6) is fixedly connected with a basic positioning plate (7), a plurality of first assembling holes (8) are formed in the inner side of each basic positioning plate (7), a second assembling hole (9) is formed in the inner side, close to one side of each basic positioning plate (7), of the pen body shell (4), the inner side of each first assembling hole (8) is connected with a threaded positioning rod (10) through threads, and the threaded positioning rods (10) are in clearance fit with the second assembling holes (9).

6. An image projectable translation pen according to claim 3, wherein: initiative derivation module (15) is including carrying on location shell (17), extending locating plate (18), first motor (19), first conduction push rod (20), eccentric push pedal (21), linkage folding push rod (22), first guide slide rail (23), atress displacement slider (24) and atress post pole (25), the bottom fixedly connected with of extending locating plate (18) one end carries on locating shell (17), one side of carrying on locating shell (17) is connected with first motor (19) through the screw fixed tube, the first conduction push rod (20) of output fixedly connected with of first motor (19), first conduction push rod (20) rotates with carrying on locating shell (17) and is connected, the outside fixedly connected with eccentric push pedal (21) of first conduction push rod (20), one side of eccentric push pedal (21) rotates and is connected with linkage folding push rod (22), the first guide slide rail (23) of bottom fixedly connected with of extending locating plate (18), the bottom sliding connection of first guide slide rail (23) has atress displacement slider (24), one side fixedly connected with of atress displacement slider (24) is connected with the atress post pole (25) and is connected with atress post pole (25) rotation.

7. An image projectable translation pen according to claim 6, wherein: driven support module (16) is including built-in carrying frame (26), cradling piece (27), transmission floor (28) and slipmat (29), extend the built-in carrying frame (26) of bottom fixedly connected with that carrying positioning shell (17) one end was kept away from in locating plate (18), the bottom of built-in carrying frame (26) is rotated and is connected with cradling piece (27), the bottom fixedly connected with slipmat (29) of cradling piece (27), one side that atress displacement slider (24) bottom was kept away from atress post pole (25) is rotated and is connected with transmission floor (28), be connected through transmission floor (28) between atress displacement slider (24) and cradling piece (27).

8. An image projectable translation pen according to claim 4, wherein: the distance adjusting module (30) comprises an inner mounting shell (43), a guide sliding groove (44), a linkage rotating plate (45), a second transmission push rod (46), a dynamic guide thrust module (47), a third transmission push rod (48), a second guide sliding rail (49), a first matching displacement block (50) and an extension transmission plate (51), a second guide slide rail (49) is fixedly connected with the inner side of the inner mounting shell (43), two sides of the built-in carrying shell (43) are provided with guide sliding chutes (44), the outer side of one end of the second guide slide rail (49) is connected with a first matching displacement block (50) in a sliding way, the two sides of the first matching displacement block (50) are fixedly connected with extension transfer plates (51), the extension transfer plate (51) is in clearance fit with the guide chute (44), the top end of the inner side of the built-in carrying shell (43) is rotatably connected with a linkage rotating plate (45), one end of the inner side of the built-in carrying shell (43) far away from the first matching movable displacement block (50) is fixedly connected with a movable guide thrust module (47), the movable guide thrust module (47) is connected with the linkage rotating plate (45) through a second guide push rod (46), the top end of the first matching displacement block (50) is rotationally connected with a third conduction push rod (48), one end of the third conduction push rod (48) far away from the first matching displacement block (50) is rotationally connected with the linkage rotating plate (45).

9. An image projectable translation pen according to claim 8, wherein: the power-driven guide thrust module (47) comprises a positioning carrier (52), a third motor (53), a mandrel (54), an inner guide rod (55), a guide push fork (56), a fork groove (57), a fourth transmission push rod (58), an auxiliary force-bearing rod (59) and a second matching displacement block (60), wherein the bottom end of the positioning carrier (52) is fixedly connected with the inner matching housing (43), the third motor (53) is fixedly connected to one side of the positioning carrier (52) through a screw, the mandrel (54) is fixedly connected to the output end of the third motor (53), the inner guide rod (55) is fixedly connected to the two sides of the top end of the positioning carrier (52), the guide push fork (56) is fixedly connected to the two sides of the mandrel (54), the fork groove (57) is formed in the inner side of the guide push fork push rod (56), the fourth transmission push rod (58) is slidably connected to the inner side of the inner guide rod (55), the auxiliary force-bearing rod (59) is fixedly connected to one end of the fourth transmission push rod (58), the auxiliary force-bearing rod (59) is in clearance fit with the fork groove (57), the second transmission push rod (58), and the second transmission push rod (49) is connected to the second sliding block (60), one end of the second conduction push rod (46) is rotationally connected with the second matching displacement block (60), and the other end of the second conduction push rod (46) is rotationally connected with the linkage rotating plate (45).

10. An image projectable translation pen according to claim 9, wherein: the angle adjusting module (31) comprises a first rotating carrier block (32), a second motor (33), a driving rotating rod (34), a second rotating carrier block (35), a driven rotating rod (36), an inner box (37), a light-transmitting convex mirror (38), an insertion push groove (39), a projection white board (40), a blocking end block (41) and a bolt (42), wherein one side of the extending transfer plate (51) is fixedly connected with the first rotating carrier block (32) and the other side of the extending transfer plate (51) is fixedly connected with the second rotating carrier block (35), one side of the first rotating carrier block (32) is connected with the second motor (33) through a bolt, the output end of the second motor (33) is fixedly connected with the driving rotating rod (34), the second rotating carrier block (35) is far away from one side of the extending transfer plate (51) and is connected with the driven rotating rod (36), the top end of the driven rotating carrier block (36) and the top end of the driving transfer plate (34) are both fixedly connected with the inner box (37), the inner side of the inner box (37) is provided with the insertion push groove (39), one end of the inner side of the inner box (37) is provided with the blocking end of the projection mirror (38), and the inner box (41) is positioned on the inner side of the projection white board (40), the blocking end block (41) is connected with the inner box (37) through a bolt (42).

Images