CN113229616B - Voice braille converter and conversion method thereof - Google Patents

Abstract

The invention discloses a voice braille converter and a conversion method thereof, and the voice braille converter comprises a conference table, wherein a first cavity is arranged in the conference table, a first through groove which upwards penetrates through the conference table is arranged in the upper side surface of the first cavity, a first spring groove is arranged in the top wall of the first cavity, a braille printer is arranged in the first cavity, the braille printer is positioned on the right side of the first through groove, and the first spring groove is positioned on the left side of the first through groove; when meeting data needs to be recorded, the invention can cut the paper bearing the information and discharge the paper; the invention can automatically supplement the original paper pulp, and avoid the regenerated paper from being broken or thinned to influence the effect of Braille printing.

Description

Voice braille converter and conversion method thereof

Technical Field

The invention relates to the technical field of voice and text conversion, in particular to a voice braille converter and a conversion method thereof.

Background

The text-to-speech technology is a sound generation technology based on sound synthesis technology, which can convert the text in the computer into continuous natural language communication.

The information flow is large in the conference and the information needs to be fed back in time, which is a great challenge for the deaf-mute, and at present, no product applying the voice-braille conversion is available in the market, so that the deaf-mute is difficult to directly participate in the conference.

Disclosure of Invention

The present invention aims to provide a voice braille converter and a converting method thereof, which are used for overcoming the defects in the prior art.

The voice braille conversion machine comprises a conference table, wherein a first cavity is arranged in the conference table, a first through groove which upwards penetrates through the conference table is arranged in the upper side surface of the first cavity, a first spring groove is arranged in the top wall of the first cavity, a braille printer is arranged in the first cavity, the braille printer is positioned on the right side of the first through groove, the first spring groove is positioned on the left side of the first through groove, the upper side surface of the first spring groove is connected with a first blade through a first spring, a cutting groove is arranged in the bottom wall of the first cavity, a first electromagnet capable of attracting the first blade is arranged in the bottom wall of the cutting groove, a second spring groove is arranged in the bottom wall of the first cavity, the second spring groove is positioned on the left side of the first spring groove, and a steering mechanism is arranged in the first spring groove, the direction of motion of the paper printed with the braille can be changed by the steering mechanism, a cavity II is arranged in the conference table, a motor I is arranged in the bottom wall of the cavity II, a rotating shaft I is arranged on the upper side of the motor I, a plurality of staggered blades II are arranged on the rotating shaft I, a push plate is arranged on the rotating shaft I and is positioned at the lower side of the blades II, a through hole I which upwards penetrates into the cavity I is arranged in the top wall of the cavity II, the through hole I is positioned at the left side of the spring groove II, a flow passage which is communicated with a tap water pipe is arranged on the rear wall of the cavity II, a ball valve is arranged in the flow passage, a cavity III is arranged in the conference table, a through hole II which leftwards penetrates into the cavity II is arranged in the left wall of the cavity III, and a detection system is arranged in the through hole II, detecting system can detect the entering the paper pulp concentration of No. two through-holes to the allotment, be equipped with regenerating unit in No. three cavitys, regenerating unit can be with getting into the paper pulp regeneration of No. three cavitys becomes the paper, be equipped with in No. three cavity roof and upwards link up to No. three through-holes in a cavity, No. three through-holes are located the right side of braille printer, and No. three through-holes the conference table with the connecting block has set firmly on the right flank of No. three cavitys, set firmly on the connecting block and can guide the regenerated paper to get into the guiding mechanism of braille printer, be equipped with voice receiving module in the side on the conference table.

Optionally, the steering mechanism comprises a first sliding block connected with the lower side surface of the second spring groove through a second spring, a second electromagnet capable of attracting the first sliding block is arranged on the lower side surface of the second spring groove, the upper side surface of the first sliding block is arc-shaped, a third spring groove is arranged in the right side surface of the first sliding block, the left side surface of the third spring groove is connected with the second sliding block through a third spring, the upper right corner of the second sliding block is concave, the lower side surface of the second sliding block inclines towards the upper right, a placing groove with an upward opening is arranged in the right side surface of the second spring groove in a communicating manner, a fourth through hole which upwards runs through the conference table is arranged in the upper side surface of the first cavity, the fourth through hole is arranged on the upper side surface of the second spring groove, a motor groove is arranged in the right side surface of the fourth through hole, and a second motor is arranged in the rear side surface of the motor groove, and a friction wheel is arranged on the front side surface of the second motor through a driving shaft.

Optionally, detection device is including locating No. four cavities in the conference table, be equipped with in No. four cavity diapire and link up to down No. five through-holes in No. two through-holes, be equipped with No. three motors in No. four cavity roof, No. three motor downside are installed and are extended to No. two axis of rotation in No. five through-holes, No. two are equipped with the thread disc in the axis of rotation, and the thread disc is located in No. five through-holes, be equipped with in No. four cavity roof and upwards link up the feed inlet of conference table, and be equipped with solid-state graininess native paper pulp in No. four cavities, be equipped with the sensor in No. two through-hole roofs.

Optionally, guiding mechanism is including locating a guide block and No. two guide blocks of connecting block left surface, a guide block is located in No. three cavities, and the side processing of going up of a guide block has smooth connection in a chamfer of connecting block, No. two guide blocks are located in a cavity, and the downside processing of No. two guide blocks has smooth connection in No. two chamfers of connecting block.

Optionally, the regenerating device comprises a first guide plate arranged on the left side surface of the third cavity, a fifth cavity is arranged in the conference table, the fifth cavity is positioned at the rear side of the third cavity, a fourth motor is arranged on the rear side surface of the fifth cavity, the front side surface of the fourth motor is arranged to penetrate forwards into the third cavity and is rotatably connected with a third rotating shaft in the front side surface of the third cavity, a fourth rotating shaft is rotatably connected in the front wall of the third cavity and penetrates backwards into the fifth cavity, the third rotating shaft and the fourth rotating shaft are mutually connected through a first gear, the first gear is positioned in the fifth cavity, extrusion shafts are respectively arranged on the third rotating shaft and the fourth rotating shaft and are positioned in the third cavity, a support frame is fixedly arranged on the bottom wall of the third cavity, the side of going up of support frame sets firmly No. two guide plates, the side of going up of No. two guide plates with the side coplane of going up of a guide block, be equipped with in No. three cavitys and carry out the shearing mechanism that shears to the motion extremely regeneration paper on No. two guide plates.

Optionally, shearing mechanism is including locating a spout in No. five cavity trailing flanks, sliding connection has No. three sliders about in the spout, No. three slider leading flanks install No. five axis of rotation, and be equipped with a connecting rod in No. five axis of rotation, the rear end of No. four axis of rotation is equipped with No. two connecting rods, No. six axis of rotation of trailing flanks internal rotation connection of No. two connecting rods, and No. six axis of rotation rotate connect in No. one the connecting rod, No. five axis of rotation link up forward extremely in No. three cavities and rotate connect in the leading flanks of No. three cavities, No. three cavity front and back wall internal rotation is connected with No. seven axis of rotation, be equipped with two actuating mechanism in No. five axis of rotation, be located respectively No. two guide plate front and back both sides.

Optionally, the actuating mechanism comprises a third connecting rod arranged on the fifth rotating shaft, a second sliding groove is formed in the end face of the third connecting rod, a third sliding block is connected to the seventh rotating shaft in a rotating mode, the third sliding block is connected to the second sliding groove in a sliding mode, a third blade is arranged on the side face of the third sliding block far away from the second sliding groove, a recovery mechanism is arranged in the third cavity, and waste materials cut by the actuating mechanism can be recovered by the recovery mechanism.

Optionally, the recycling mechanism comprises a cavity six arranged in the left wall of the cavity three, the cavity six is positioned at the lower side of the through hole two, the rear wall of the cavity five is rotationally connected with a driving shaft penetrating into the cavity three, the driving shaft is connected with the rotating shaft three through a synchronous belt, the synchronous belt is positioned in the cavity five, a driving cavity is arranged in the conference table, an extension groove is arranged in the top wall of the driving cavity, the extension groove is positioned at the rear side of the cavity six, the rear side surface of the extension groove is rotationally connected with a driven shaft penetrating into the cavity six, the driven shaft is connected with the driving shaft through a conveyor belt, the front wall and the rear wall of the extension groove are rotationally connected with a rotating shaft eight through a synchronous belt two, the rotating shaft eight is connected with the driven shaft through a conveying groove one is arranged in the top wall of the cavity six, and be equipped with in the transfer chute roof and extend the back down link up to No. two transfer chutes in the No. two cavity roofs right, it has upwards to pass through to extend tank bottom wall internal rotation No. three blades extend to No. nine axis of rotation in the No. two transfer chutes, be equipped with No. two thread discs in No. nine axis of rotation, No. nine axis of rotation diapire internal rotation is connected with No. ten axes of rotation, No. ten axes of rotation through No. three hold-in ranges with No. nine rotation axis connections, and No. ten axes of rotation pass through bevel gear with No. eight axis of rotation hub connections, be equipped with the butt joint board in the cavity roof, be equipped with the heat pipe in the extrusion axle, the side is equipped with the button on the conference table, be equipped with the relief hole in No. three cavity diapalls, the conveyer belt can permeate water.

A method for using a voice braille converter comprises the following steps:

firstly, when a meeting begins, a user places a hand in a first cavity through a first through groove, then when someone speaks, a voice receiving module can recognize voice and print data on regenerated paper through a Braille printer, at the moment, the user can receive information through touching the regenerated paper, a fourth motor, a first motor and a heat pipe are electrified when the Braille printer draws the regenerated paper, a ball valve is opened, water enters a second cavity through a flow channel when the ball valve is opened, a first motor drives a first rotating shaft to rotate a second blade and a push plate when the first motor is electrified, the touched regenerated paper in the first cavity can pass through a first through hole and enter the second cavity, the second blade breaks the regenerated paper when rotating, the broken regenerated paper forms paper pulp together with water due to the fact that an abutting plate can reduce the vibration transmitted when the regenerated paper is broken, and then the paper pulp can be squeezed into a second through hole by the rotating push plate, the paper pulp entering the second through hole can pass through the first guide plate and then be heated and extruded into recycled paper by the extrusion shafts, the extruded water can be discharged through the discharge hole, the recycled paper can move on the upper side of the second guide plate, and the recycled paper in the third cavity can move into the first cavity through the third through hole and enter the Braille printer, so that the circulation is completed;

the second step is that the fourth rotating shaft drives the second connecting rod to rotate, the second connecting rod drives the first connecting rod to periodically move through the sixth rotating shaft when rotating, the third sliding block periodically moves left and right at the moment, the third sliding block drives the third connecting rod to periodically move when moving left and right, the third sliding block slides in the second sliding groove and enables the third sliding block to swing, the third sliding block drives the third blade to swing when swinging, and the third blade cuts the recycled paper which exceeds the front side surface and the rear side surface of the second guide plate;

third, cut recycled paper falls on the conveying belt, the driving shaft is driven to rotate through a first synchronous belt when a third rotating shaft rotates, the driving shaft drives the conveying belt to move when the driving shaft rotates, the driven shaft is driven to move at the moment, the recycled paper on the conveying belt is driven to be close to a ninth rotating shaft at the moment, an eighth rotating shaft is driven to rotate through a second synchronous belt when the driven shaft moves, a tenth rotating shaft is driven to rotate through a bevel gear when the eighth rotating shaft rotates, a ninth rotating shaft is driven to rotate through the third synchronous belt, the recycled paper moves into a second cavity through a first conveying groove and a second conveying groove by driving a second threaded disc when the ninth rotating shaft rotates, and the recycling work is finished at the moment;

fourthly, when the user needs to record the speech, the user presses the button and keeps a pressed state, when the button is pressed, the second motor is electrified, the first electromagnet is electrified, the first blade is attracted when the first electromagnet is electrified, the recycled paper in the first cavity is cut off at the moment, the cut recycled paper on the left side can slide into the first through hole at an accelerated speed due to gravity, then the first electromagnet is electrified, at the moment, the first blade slides into the first spring groove and resets due to the elastic force of the first spring, the second electromagnet is powered off after a certain time delay, at the moment, the first sliding block slides upwards until the upper side surface of the concave part of the second sliding block is coplanar with the lower side surface of the first cavity, at the moment, the second sliding block slides into the placing groove due to the elastic force of the third spring, and then the recycled paper printed with braille by the braille printer can move to the upper side of the conference table through the fourth through hole, the section of regenerated paper is clamped by the friction wheel and the right side face of the first sliding block, the second motor drives the friction wheel to rotate and enables the section of regenerated paper to move upwards when being electrified, a user releases the button after recording is completed, the first electromagnet is electrified once again until the regenerated paper is cut off again, the second motor increases power and enables the cut-off regenerated paper to quickly move to the upper side of the conference table through the fourth through hole, the second electromagnet is electrified and the second motor is powered off after a certain time, the first sliding block is attracted until the first sliding block abuts against the second electromagnet when the second electromagnet is electrified, and the lower side face of the second sliding block is an inclined face, so that the second sliding block can slide into the third spring groove in the moving process of the first sliding block, and a section of conference recording is completed;

and fifthly, when the sensor senses that the paper pulp in the second through hole is too little or uneven, the third motor is electrified, the second rotating shaft and the threaded disc are driven to move, and the primary paper pulp in the fourth cavity moves into the second through hole through the fifth through hole and is mixed with the regenerated paper pulp, so that the paper pulp is prevented from being broken when being made into paper through the extrusion shaft.

The invention has the beneficial effects that: the invention can automatically convert the voice information in the meeting into braille, and can break and regenerate the paper bearing the braille after the user acquires the information, and the raw paper can be immediately reused after being processed;

when meeting data needs to be recorded, the invention can cut the paper bearing the information and discharge the paper;

the invention can automatically supplement the original paper pulp, and avoid the regenerated paper from being broken or thinned to influence the effect of Braille printing.

Drawings

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

FIG. 1 is a schematic structural view of a braille converter of the present invention;

FIG. 2 is a schematic diagram of the structure of the cavity at position V in the present invention;

FIG. 3 is a schematic view of the structure at the steering mechanism of FIG. 1;

FIG. 4 is a schematic view of the structure of FIG. 1 at the location of the extension slot;

fig. 5 is a schematic view of the structure at the through hole No. two in fig. 1.

Detailed Description

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1-5, a voice braille conversion machine according to an embodiment of the invention includes a conference table 11, a first cavity 12 is arranged in the conference table 11, a first through groove 13 which upwards penetrates through the conference table 11 is arranged in the upper side of the first cavity 12, a first spring groove 14 is arranged in the top wall of the first cavity 12, a braille printer 20 is arranged in the first cavity 12, the braille printer 20 is positioned on the right side of the first through groove 13, the first spring groove 14 is positioned on the left side of the first through groove 13, the upper side of the first spring groove 14 is connected with a first blade 16 through a first spring 15, a cutting groove 17 is arranged in the bottom wall of the first cavity 12, a first electromagnet 18 which can attract the first blade 16 is arranged in the bottom wall of the cutting groove 17, a second spring groove 19 is arranged in the bottom wall of the first cavity 12, spring groove 19 is located the left side of spring groove 14, and be equipped with steering mechanism 101 in spring groove 14, steering mechanism 101 can change the direction of motion of the paper that is printed with the braille, be equipped with No. two cavities 21 in the conference table 11, be equipped with a motor 22 in No. two cavity 21 diapalls, a pivot 23 is installed to the side on a motor 22, install the No. two blade 24 of a plurality of dislocations on the pivot 23, and install push pedal 25 on the pivot 23, push pedal 25 is located the downside of No. two blade 24, be equipped with in No. two cavity 21 roof and upwards link up to a through-hole 26 in No. one cavity 12, a through-hole 26 is located the left side of No. two spring groove 19, No. two cavity 21 back walls are equipped with the runner that communicates in the water pipe, be equipped with ball valve 27 in the runner, the braille printer is characterized in that a third cavity 28 is arranged in the conference table 11, a second through hole 29 penetrating into the second cavity 21 leftwards is arranged in the left wall of the third cavity 28, a detection system 102 is arranged in the second through hole 29, the detection system 102 can detect the concentration of paper pulp entering the second through hole 29 and allocate the paper pulp, a regeneration device 103 is arranged in the third cavity 28, the regeneration device 103 can regenerate the paper pulp entering the third cavity 28 into paper, a third through hole 30 penetrating upwards into the first cavity 12 is arranged in the top wall of the third cavity 28, the third through hole 30 is positioned on the right side of the braille printer 20, a connecting block 31 is fixedly arranged on the right side surfaces of the third through hole 30, the conference table 11 and the third cavity 28, and a guide mechanism 104 capable of guiding the regenerated paper into the braille printer 20 is fixedly arranged on the connecting block 31, a voice receiving module 32 is arranged in the upper side surface of the conference table 11.

Preferably, the steering mechanism 101 includes a first slider 34 connected to the lower side of the second spring groove 19 through a second spring 33, a second electromagnet 36 capable of attracting the first slider 34 is disposed on the lower side of the second spring groove 19, the upper side of the first slider 34 is arc-shaped, a third spring groove 37 is disposed in the right side of the first slider 34, a second slider 39 is connected to the left side of the third spring groove 37 through a third spring 38, the upper right corner of the second slider 39 is concave, the lower side of the second slider 39 inclines towards the upper right, a placing groove 40 provided with an upward opening is communicated with the right side of the second spring groove 19, a fourth through hole 35 passing through the conference table 11 upward is disposed in the upper side of the first cavity 12, the fourth through hole 35 is disposed on the upper side of the second spring groove 19, and a motor groove 41 is disposed in the right side of the fourth through hole 35, a second motor is arranged in the rear side face of the motor groove 41, and a friction wheel 42 is installed on the front side face of the second motor through a driving shaft.

Preferably, detection device 102 is including locating No. four cavities 43 in the conference table 11, be equipped with in No. four cavities 43 diapire and link up to No. five through-holes 44 in No. two through-holes 29 downwards, be equipped with No. three motor 45 in No. four cavity 43 roof, No. three motor 45 downside is installed and is extended to No. two axis of rotation 46 in No. five through-holes 44, be equipped with fluted disc 47 on No. two axis of rotation 46, and fluted disc 47 is located in No. five through-holes 44, be equipped with in No. four cavity 43 roof and upwards link up the feed inlet of conference table 11, and be equipped with granular native paper pulp of solid-state in No. four cavities 43, be equipped with sensor 48 in No. two through-holes 29 roof.

Preferably, the guide mechanism 104 comprises a first guide block 57 and a second guide block 58 which are arranged on the left side surface of the connecting block 31, the first guide block 57 is positioned in the third cavity 28, a first chamfer smoothly connected with the connecting block 31 is processed on the upper side surface of the first guide block 57, the second guide block 58 is positioned in the first cavity 12, and a second chamfer smoothly connected with the connecting block 31 is processed on the lower side surface of the second guide block 58.

Preferably, the regenerating device 103 includes a first guide plate 49 disposed on the left side surface of the third cavity 28, a fifth cavity 50 is disposed in the conference table 11, the fifth cavity 50 is located on the rear side of the third cavity 28, a fourth motor 51 is disposed on the rear side surface of the fifth cavity 50, the front side surface of the fourth motor 51 is mounted on a third rotating shaft 52 which penetrates forward into the third cavity 28 and is rotatably connected to the front side surface of the third cavity 28, a fourth rotating shaft 53 is rotatably connected to the front wall of the third cavity 28, the fourth rotating shaft 53 penetrates backward into the fifth cavity 50, the third rotating shaft 52 and the fourth rotating shaft 53 are connected to each other through a first gear 54, the first gear 54 is located in the fifth cavity 50, and a squeezing shaft 55 is disposed on each of the third rotating shaft 52 and the fourth rotating shaft 53, the extrusion shaft 55 is located in No. three cavity 28, the support frame has set firmly on No. three cavity 28 diapire, the side of going up of support frame has set firmly No. two guide plates 56, the side of going up of No. two guide plates 56 with the side coplane that goes up of a guide block 57, be equipped with in No. three cavity 28 and can carry out the shearing mechanism 105 of shearing to the motion to No. two recycled paper on the guide plate 56.

Preferably, the shearing device 105 comprises a first sliding groove 59 arranged in the rear side of the fifth cavity 50, a third sliding block is connected in the first sliding groove 59 in a left-right sliding manner, a fifth rotating shaft 60 is arranged on the front side surface of the third sliding block, a first connecting rod 61 is arranged on the fifth rotating shaft 60, a second connecting rod 62 is arranged at the rear end of the fourth rotating shaft 53, a sixth rotating shaft 63 is rotatably connected to the rear side surface of the second connecting rod 62, and the sixth rotating shaft 63 is rotatably connected in the first connecting rod 61, the fifth rotating shaft 60 penetrates forwards into the third cavity 28 and is rotatably connected in the front side of the third cavity 28, a seventh rotating shaft 64 is rotatably connected to the front wall and the rear wall of the third cavity 28, two actuating mechanisms 106 are arranged on the fifth rotating shaft 60, and the actuating mechanisms 106 are respectively positioned at the front side and the rear side of the second guide plate 56.

Preferably, the executing mechanism 106 includes a third connecting rod 65 arranged on the fifth rotating shaft 60, a second sliding groove 66 is arranged in an end surface of the third connecting rod 65 far away from the fifth rotating shaft 60, a third sliding block 67 is rotatably connected to the seventh rotating shaft 64, the third sliding block 67 is slidably connected to the second sliding groove 66, a third blade 68 is arranged on a side surface of the third sliding block 67 far away from the second sliding groove 66, a recycling mechanism 107 is arranged in the third cavity 28, and the recycling mechanism 107 can recycle waste materials cut by the executing mechanism 106.

Preferably, the recovery mechanism 107 includes a cavity 69 of No. six disposed in the left wall of the cavity 28 of No. three, the cavity 69 of No. six is located at the lower side of the through hole 29 of No. two, a driving shaft 71 penetrating through the cavity 28 of No. three is rotatably connected to the rear wall of the cavity 50 of No. five, the driving shaft 71 is connected to the rotating shaft 52 of No. three through a synchronous belt 70, the synchronous belt 70 of No. one is located in the cavity 50 of No. five, a driving cavity 72 is disposed in the conference table 11, an extending groove 73 is disposed in the top wall of the driving cavity 72, the extending groove 73 is located at the rear side of the cavity 69 of No. six, a driven shaft 74 penetrating through the cavity 69 of No. six is rotatably connected to the rear side of the extending groove 73, the driven shaft 74 is connected to the driving shaft 71 through a conveyor belt 76, an eighth rotating shaft 75 is rotatably connected to the front and rear walls of the extending groove 73, the eighth rotating shaft 75 is connected to the driven shaft 74 through a synchronous belt 77 of No. two, a first conveying groove 78 is arranged in the top wall of the sixth cavity 69, a second conveying groove 79 extending rightwards and then penetrating into the top wall of the second cavity 21 is arranged in the top wall of the first conveying groove 78, a ninth rotating shaft 80 passing through the third blade 68 upwards and extending into the second conveying groove 79 is connected in the bottom wall of the extending groove 73 in a rotating manner, a second threaded disc 81 is arranged on the ninth rotating shaft 80, a tenth rotating shaft 82 is connected in the bottom wall of the ninth rotating shaft 80 in a rotating manner, the tenth rotating shaft 82 is connected with the ninth rotating shaft 80 through a third synchronous belt 83, the tenth rotating shaft 82 is connected with the eighth rotating shaft 75 through a bevel gear 84, a butt joint plate 85 is arranged in the top wall of the first cavity 12, a heat pipe is arranged in the extrusion shaft 55, a button is arranged on the upper side surface of the conference table 11, and a discharge hole 88 is arranged in the bottom wall of the third cavity 28, the conveyor belt 76 is permeable to water.

A method for using a voice braille converter comprises the following steps:

firstly, when a meeting begins, a user places a hand in the first cavity 12 through the first through groove 13, then when someone speaks, the voice receiving module 32 recognizes voice and prints data on regenerated paper through the Braille printer 20, the user can receive information through touching the regenerated paper, the Braille printer 20 draws the regenerated paper, the fourth motor 51, the first motor 22 and the heat pipe are electrified, the ball valve 27 is opened, water enters the second cavity 21 through a flow passage when the ball valve 27 is opened, the first motor 22 drives the first rotating shaft 23 to rotate the second blade 24 and the push plate 25 when the first motor 22 is electrified, the touched regenerated paper in the first cavity 12 can enter the second cavity 21 through the first through hole 26, the regenerated paper is broken when the second blade 24 rotates, and the butt joint plate 85 can reduce the vibration transmitted when the regenerated paper is broken, the smashed recycled paper and water form paper pulp, then the paper pulp is driven into the second through hole 29 by the rotating push plate 25, the third rotating shaft 52 is driven to rotate by the fourth motor 51 when being electrified, the fourth rotating shaft 53 is driven to rotate by the first gear 54 when the third rotating shaft 52 rotates, at the moment, the two extrusion shafts 55 rotate, the paper pulp entering the second through hole 29 is heated and extruded into recycled paper by the extrusion shafts 55 after passing through the first guide plate 49, the extruded water is discharged through the discharge hole 88, at the moment, the recycled paper moves on the upper side of the second guide plate 56, due to the first chamfer and the second chamfer, the recycled paper in the third cavity 28 moves into the first cavity 12 through the third through hole 30 and enters the braille printer 20, and at the moment, circulation is completed;

in the second step, the fourth rotating shaft 53 drives the second connecting rod 62 to rotate, the second connecting rod 62 drives the first connecting rod 61 to periodically move through the sixth rotating shaft 63 when rotating, the third sliding block periodically moves left and right at the moment, the third sliding block drives the third connecting rod 65 to periodically move when moving left and right, the third sliding block 67 slides in the second sliding groove 66 and enables the third sliding block 67 to swing, the third sliding block 67 drives the third blade 68 to swing when swinging, and the third blade 68 cuts off the recycled paper which exceeds the front side surface and the rear side surface of the second guide plate 56;

the third step of cut recycled paper falls on the conveyor belt 76, the third rotating shaft 52 drives the driving shaft 71 to rotate through the first synchronous belt 70 when rotating, the driving shaft 71 drives the conveyor belt 76 to move when rotating, the driven shaft 74 is driven to move at the moment, the recycled paper on the conveyor belt 76 is driven to be close to the ninth rotating shaft 80 at the moment, the driven shaft 74 drives the eighth rotating shaft 75 to rotate through the second synchronous belt 77 when moving, the tenth rotating shaft 82 rotates through the bevel gear 84 when the eighth rotating shaft 75 rotates, the ninth rotating shaft 80 rotates through the third synchronous belt 83 when rotating the tenth rotating shaft 82, and the ninth rotating shaft 80 drives the second threaded disc 81 to enable the recycled paper to move into the second cavity 21 through the first conveying groove 78 and the second conveying groove 79 when rotating, so that the recycling work is finished;

fourthly, when the user presses the button and keeps a pressed state when the speech needs to be recorded, when the button is pressed, the second motor is electrified and the first electromagnet 18 is electrified, the first electromagnet 18 is electrified to attract the first blade 16, the recycled paper in the first cavity 12 is cut off, the cut recycled paper on the left side can accelerate to slide into the first through hole 26 due to gravity, then the first electromagnet 18 is electrified, at the moment, the first blade 16 slides into the first spring groove 14 and resets due to the elastic force of the first spring 15, the second electromagnet 36 is powered off after a certain time delay, at the moment, the first sliding block 34 slides upwards until the upper side surface of the concave part in the second sliding block 39 is coplanar with the lower side surface of the first cavity 12, at the moment, the second sliding block 39 slides into the placing groove 40 due to the elastic force of the third spring 38, and then the recycled paper printed with braille by the printer 20 can move to the upper side of the conference table 11 through the fourth through hole 35, the section of recycled paper is clamped by the friction wheel 42 and the right side face of the first sliding block 34, the second motor drives the friction wheel 42 to rotate and enable the section of recycled paper to move upwards when being electrified, when a user releases the button after recording is completed, the first electromagnet 18 is electrified again until the recycled paper is cut off again, the second motor increases power and enables the cut-off recycled paper to quickly move to the upper side of the conference table 11 through the fourth through hole 35, the second electromagnet 36 is electrified and the second motor is powered off after a certain time, the second electromagnet 36 attracts the first sliding block 34 until the first sliding block 34 abuts against the second electromagnet 36 when being electrified, and due to the fact that the lower side face of the second sliding block 39 is an inclined face, the second sliding block 39 can slide into the third spring groove 37 in the moving process of the first sliding block 34, and a section of conference recording is completed;

and fifthly, when the sensor 48 senses that the pulp in the second through hole 29 is too little or uneven, the third motor 45 is electrified, the second rotating shaft 46 and the threaded disc 47 are driven to move, and the virgin pulp in the fourth cavity 43 moves into the second through hole 29 through the fifth through hole 44 and is mixed with the recycled pulp, so that the pulp is prevented from being broken when being made into paper through the extrusion shaft 55.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (2)

1. A voice braille converter, includes conference table, its characterized in that: the improved Braille machine comprises a conference table, and is characterized in that a first cavity is arranged in the conference table, a first through groove which upwards penetrates through the conference table is arranged in the upper side of the first cavity, a first spring groove is arranged in the top wall of the first cavity, a Braille printer is arranged in the first cavity, the Braille printer is positioned on the right side of the first through groove, the first spring groove is positioned on the left side of the first through groove, a first blade is connected to the upper side of the first spring groove through a first spring, a cutting groove is arranged in the bottom wall of the first cavity, a first electromagnet capable of attracting the first blade is arranged in the bottom wall of the cutting groove, a second spring groove is arranged in the bottom wall of the first cavity, the second spring groove is positioned on the left side of the first spring groove, a steering mechanism is arranged in the first spring groove, and the motion direction of paper printed with Braille can be changed by the steering mechanism, a second cavity is arranged in the conference table, a first motor is arranged in the bottom wall of the second cavity, a first rotating shaft is arranged on the upper side surface of the first motor, a plurality of second staggered blades are arranged on the first rotating shaft, a push plate is arranged on the first rotating shaft and is positioned on the lower side of the second blades, a first through hole which upwards penetrates into the first cavity is arranged in the top wall of the second cavity, the first through hole is positioned on the left side of the second spring groove, a flow passage which is communicated with a tap water pipe is arranged on the rear wall of the second cavity, a ball valve is arranged in the flow passage, a third cavity is arranged in the conference table, a second through hole which leftwards penetrates into the second cavity is arranged in the left wall of the third cavity, a detection system is arranged in the second through hole and can detect the concentration of paper pulp entering the second through hole, allocating, wherein a regenerating device is arranged in the third cavity, the regenerating device can regenerate paper pulp entering the third cavity into paper, a third through hole which penetrates upwards into the first cavity is arranged in the top wall of the third cavity, the third through hole is positioned on the right side of the Braille printer, connecting blocks are fixedly arranged on the right side surfaces of the third through hole, the conference table and the third cavity, a guide mechanism capable of guiding the regenerated paper into the Braille printer is fixedly arranged on the connecting blocks, and a voice receiving module is arranged in the upper side surface of the conference table;

the steering mechanism comprises a first sliding block connected with the lower side surface of a second spring groove through a second spring, a second electromagnet capable of attracting the first sliding block is arranged on the lower side surface of the second spring groove, the upper side surface of the first sliding block is arc-shaped, a third spring groove is arranged in the right side surface of the first sliding block, the left side surface of the third spring groove is connected with the second sliding block through a third spring, the right upper corner of the second sliding block is concave, the lower side surface of the second sliding block inclines towards the upper right side, a placing groove with an upward opening is communicated and arranged in the right side surface of the second spring groove, a fourth through hole which upwards runs through the conference table is arranged in the upper side surface of the first cavity, the fourth through hole is arranged on the upper side surface of the second spring groove, a motor groove is arranged in the right side surface of the fourth through hole, and a second motor is arranged in the rear side surface of the motor groove, the front side surface of the second motor is provided with a friction wheel through a driving shaft;

the detection device comprises a fourth cavity arranged in the conference table, a fifth through hole which is downwards communicated into the fifth through hole is arranged in the bottom wall of the fourth cavity, a third motor is arranged in the top wall of the fourth cavity, a second rotating shaft which extends into the fifth through hole is arranged on the lower side surface of the third motor, a threaded disc is arranged on the second rotating shaft and is positioned in the fifth through hole, a feed inlet which is upwards communicated with the conference table is arranged in the top wall of the fourth cavity, solid granular native paper pulp is arranged in the fourth cavity, and a sensor is arranged in the top wall of the second through hole;

the guide mechanism comprises a first guide block and a second guide block which are arranged on the left side surface of the connecting block, the first guide block is positioned in the third cavity, a first chamfer smoothly connected with the connecting block is machined on the upper side surface of the first guide block, the second guide block is positioned in the first cavity, and a second chamfer smoothly connected with the connecting block is machined on the lower side surface of the second guide block;

the regenerating device comprises a first guide plate arranged on the left side surface of the third cavity, a fifth cavity is arranged in the conference table, the fifth cavity is positioned at the rear side of the third cavity, a fourth motor is arranged on the rear side surface of the fifth cavity, the front side surface of the fourth motor is installed to penetrate forwards into the third cavity and is rotatably connected with a third rotating shaft in the front side surface of the third cavity, a fourth rotating shaft is rotatably connected in the front wall of the third cavity and penetrates backwards into the fifth cavity, the third rotating shaft and the fourth rotating shaft are mutually connected through a first gear, the first gear is positioned in the fifth cavity, an extrusion shaft is respectively arranged on the third rotating shaft and the fourth rotating shaft, the extrusion shaft is positioned in the third cavity, and a support frame is fixedly arranged on the bottom wall of the third cavity, the upper side surface of the supporting frame is fixedly provided with a second guide plate, the upper side surface of the second guide plate is coplanar with the upper side surface of the first guide block, and a shearing device capable of shearing the recycled paper moving to the second guide plate is arranged in the third cavity;

the shearing device comprises a first sliding groove arranged in the rear side surface of the fifth cavity, a third sliding block is connected in the first sliding groove in a left-right sliding mode, a fifth rotating shaft is mounted on the front side surface of the third sliding block, a first connecting rod is arranged on the fifth rotating shaft, a second connecting rod is arranged at the rear end of the fourth rotating shaft, a sixth rotating shaft is connected in the rear side surface of the second connecting rod in a rotating mode, the sixth rotating shaft is connected in the first connecting rod in a rotating mode, the fifth rotating shaft penetrates forwards into the third cavity and is connected in the front side surface of the third cavity in a rotating mode, the front wall and the rear wall of the third cavity are connected with a seventh rotating shaft in a rotating mode, two executing mechanisms are arranged on the fifth rotating shaft and are located on the front side surface and the rear side surface of the second guide plate respectively;

the executing mechanism comprises a third connecting rod arranged on the fifth rotating shaft, a second sliding groove is arranged in the end face of the third connecting rod far away from the fifth rotating shaft, a third sliding block is rotatably connected to the seventh rotating shaft and is connected to the second sliding groove in a sliding manner, a third blade is arranged on the side face of the third sliding block far away from the second sliding groove, a recycling mechanism is arranged in the third cavity, and waste materials cut by the executing mechanism can be recycled by the recycling mechanism;

the recovery mechanism comprises a cavity III arranged in the left wall of the cavity III, the cavity III is positioned at the lower side of the through hole II, the rear wall of the cavity V is rotationally connected with a driving shaft penetrating into the cavity III, the driving shaft is connected with a rotating shaft III through a synchronous belt, the synchronous belt I is positioned in the cavity V, a driving cavity is arranged in the conference table, an extending groove is arranged in the top wall of the driving cavity, the extending groove is positioned at the rear side of the cavity VI, the rear side surface of the extending groove is rotationally connected with a driven shaft penetrating into the cavity VI, the driven shaft is connected with the driving shaft through a conveyor belt, an eight rotating shaft is rotationally connected with the front wall and the rear wall of the extending groove through a synchronous belt II, the eight rotating shaft is connected with the driven shaft through a conveying groove I, and a conveying groove I is arranged in the top wall of the cavity VI, and be equipped with in the transfer chute roof and extend the back down link up to No. two transfer chutes in the No. two cavity roofs right, it has upwards to pass through to extend tank bottom wall internal rotation No. three blades extend to No. nine axis of rotation in the No. two transfer chutes, be equipped with No. two thread discs in No. nine axis of rotation, No. nine axis of rotation diapire internal rotation is connected with No. ten axes of rotation, No. ten axes of rotation through No. three hold-in ranges with No. nine rotation axis connections, and No. ten axes of rotation pass through bevel gear with No. eight axis of rotation hub connections, be equipped with the butt joint board in the cavity roof, be equipped with the heat pipe in the extrusion axle, the side is equipped with the button on the conference table, be equipped with the relief hole in No. three cavity diapalls, the conveyer belt can permeate water.

2. A method of using a braille converter according to claim 1:

firstly, when a meeting begins, a user places a hand in a first cavity through a first through groove, then when someone speaks, a voice receiving module can recognize voice and print data on regenerated paper through a Braille printer, at the moment, the user can receive information through touching the regenerated paper, a fourth motor, a first motor and a heat pipe are electrified when the Braille printer draws the regenerated paper, a ball valve is opened, water enters a second cavity through a flow channel when the ball valve is opened, a first motor drives a first rotating shaft to rotate a second blade and a push plate when the first motor is electrified, the touched regenerated paper in the first cavity can pass through a first through hole and enter the second cavity, the second blade breaks the regenerated paper when rotating, the broken regenerated paper forms paper pulp together with water due to the fact that an abutting plate can reduce the vibration transmitted when the regenerated paper is broken, and then the paper pulp can be squeezed into a second through hole by the rotating push plate, the paper pulp entering the second through hole can pass through the first guide plate and then be heated and extruded into recycled paper by the extrusion shafts, the extruded water can be discharged through the discharge hole, the recycled paper can move on the upper side of the second guide plate, and the recycled paper in the third cavity can move into the first cavity through the third through hole and enter the Braille printer, so that the circulation is completed;

the second step is that the fourth rotating shaft drives the second connecting rod to rotate, the second connecting rod drives the first connecting rod to periodically move through the sixth rotating shaft when rotating, the third sliding block periodically moves left and right at the moment, the third sliding block drives the third connecting rod to periodically move when moving left and right, the third sliding block slides in the second sliding groove and enables the third sliding block to swing, the third sliding block drives the third blade to swing when swinging, and the third blade cuts the recycled paper which exceeds the front side surface and the rear side surface of the second guide plate;

third, cut recycled paper falls on the conveying belt, the driving shaft is driven to rotate through a first synchronous belt when a third rotating shaft rotates, the driving shaft drives the conveying belt to move when the driving shaft rotates, the driven shaft is driven to move at the moment, the recycled paper on the conveying belt is driven to be close to a ninth rotating shaft at the moment, an eighth rotating shaft is driven to rotate through a second synchronous belt when the driven shaft moves, a tenth rotating shaft is driven to rotate through a bevel gear when the eighth rotating shaft rotates, a ninth rotating shaft is driven to rotate through the third synchronous belt, the recycled paper moves into a second cavity through a first conveying groove and a second conveying groove by driving a second threaded disc when the ninth rotating shaft rotates, and the recycling work is finished at the moment;

fourthly, when the user needs to record the speech, the user presses the button and keeps a pressed state, when the button is pressed, the second motor is electrified, the first electromagnet is electrified, the first blade is attracted when the first electromagnet is electrified, the recycled paper in the first cavity is cut off at the moment, the cut recycled paper on the left side can slide into the first through hole at an accelerated speed due to gravity, then the first electromagnet is electrified, at the moment, the first blade slides into the first spring groove and resets due to the elastic force of the first spring, the second electromagnet is powered off after a certain time delay, at the moment, the first sliding block slides upwards until the upper side surface of the concave part of the second sliding block is coplanar with the lower side surface of the first cavity, at the moment, the second sliding block slides into the placing groove due to the elastic force of the third spring, and then the recycled paper printed with braille by the braille printer can move to the upper side of the conference table through the fourth through hole, the regenerated paper is clamped by the right side faces of the friction wheel and the first sliding block, the second motor drives the friction wheel to rotate and enables the regenerated paper to move upwards when being electrified, when a user loosens the button after recording is completed, the first electromagnet is electrified once again until the regenerated paper is cut off again, the second motor increases power and enables the cut-off regenerated paper to quickly move to the upper side of the conference table through the fourth through hole, the second electromagnet is electrified and the second motor is powered off after a certain time, the second electromagnet attracts the first sliding block until the first sliding block abuts against the second electromagnet when being electrified, and due to the fact that the lower side face of the second sliding block is an inclined face, the second sliding block can slide into the third spring groove in the moving process of the first sliding block, and a section of conference recording is completed at this time;

and fifthly, when the sensor senses that the paper pulp in the second through hole is too little or uneven, the third motor is electrified, the second rotating shaft and the threaded disc are driven to move, and the primary paper pulp in the fourth cavity moves into the second through hole through the fifth through hole and is mixed with the regenerated paper pulp, so that the paper pulp is prevented from being broken when being made into paper through the extrusion shaft.

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