Digital creative industry audio-visual equipment shell manufacturing device
Technical Field
The invention relates to the technical field of digital creatives, in particular to a device for manufacturing a shell of audio-visual equipment in a digital creatives industry.
Background
The digital creative industry is a new economic form generated by gradual fusion of modern information technology and cultural creative industry, is different from the traditional cultural creative industry which carries out artistic creation by taking an entity as a carrier, the digital creative takes the modern digital technology such as CG (CG) and the like as a main technical tool, and emphasizes digital content development, visual design, planning, creative service and the like by depending on a team or an individual through technical, creative and industrialized modes.
In the existing manufacturing device for the casing of the audio-visual equipment on the market, molten polycarbonate is easy to adhere to a stirring device of the device in the working process, is difficult to clean, and affects the reuse of the device.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides a device for manufacturing the shell of the audio-visual equipment in the digital creative industry, which uniformly stirs the raw materials inside the device by matching a movable mechanism with a discharging mechanism, so that the polycarbonate is more completely melted and the raw materials are prevented from being solidified at the discharging position.
In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a digital intention industry audio-visual equipment shell manufacturing installation, includes the base, the upper end fixed mounting of base has the heating furnace, the top fixed mounting of heating furnace has the roof, the top right-hand member movable mounting of roof has the rolling disc, the inboard of heating furnace is provided with movable mechanism, the bottom of heating furnace is provided with discharge mechanism.
Preferably, the movable mechanism comprises a motor, a rotating column, a telescopic piece and two magnetic blocks, the motor is fixedly installed at the top of the top plate, the rotating column is movably installed on the inner side of the heating furnace, the top of the rotating column is fixedly connected with an output shaft of the motor, the telescopic piece is arranged at the upper end of the rotating column, and the two magnetic blocks are fixedly installed on the inner sides of the left end and the right end of the heating furnace respectively.
Preferably, discharge mechanism includes discharge gate, closing plate, play feed cylinder, tensile face and activity magnetic ball, the bottom at the heating furnace is seted up to the discharge gate, closing plate slidable mounting is in the bottom of heating furnace, go out the bottom center of feed cylinder fixed mounting at the heating furnace, tensile face fixed mounting is in the inboard of feed cylinder, activity magnetic ball passes through spring movable mounting at feed cylinder outside inner wall, activity magnetic ball is close to feed cylinder center one side and contacts with tensile face.
Preferably, the extensible member includes two activity strips, counter weight ball, two elastic component, movable block and stopper, two the activity strip is kept away from the one end fixed connection who rotates the post center and is rotated the lower extreme of post, two the activity strip is close to the one end movable mounting who rotates the post center and is rotated the inboard of post, two the outside lower extreme of activity strip meets rather than inboard lower extreme through the wire respectively, two counter weight ball fixed mounting is in the upper end of two activity strips, and two counter weight balls are located the outside of rotating the post, two the elastic component sets up the upper end of rotating the post, movable block fixed mounting is at the inboard lower extreme of rotating the post, the top of movable block meets with the lower extreme of two activity strips, stopper fixed mounting is inboard at the middle part of rotating the post.
Preferably, two the elastic component includes two flexure strips and two fixed blocks, two flexure strip movable mounting is in the opening is opened to both sides about the upper end of rotation post, two fixed block fixed mounting is in the middle part of two flexure strips, two the center and the contact of two activity strips of fixed block.
Preferably, the movable block includes a fixed cylinder, a magnetic column and a return spring, a fixed cylinder fixed mounting is in the bottom of movable block, the magnetic column passes through elastic strip movable mounting in the bottom of movable block, the magnetic column is located the inboard of a fixed cylinder, return spring fixed mounting is inboard at the lower extreme that rotates the post, the top of return spring meets with the bottom of movable block.
The invention provides a device for manufacturing a shell of audio-visual equipment in a digital creative industry. The method has the following beneficial effects:
(1) this digital creative industry audio-visual equipment shell manufacturing installation sets up moving mechanism and discharge mechanism, at the heating furnace during operation, drives moving mechanism through the motor to with the raw materials stirring of device inboard, make polycarbonate's hot melt more complete, and prevented that the raw materials from solidifying in the ejection of compact department.
(2) This digital creative industry audio-visual equipment shell manufacturing installation, when the rotation post rotated, the activity strip was buckled to heating furnace oven department under the effect of counter weight ball centrifugal force, and the inboard raw materials of heating furnace was stirred to the activity strip of buckling, made the inboard raw materials of heating furnace be heated evenly, had avoided the raw materials to be heated uneven and has influenced the hot melt efficiency of device.
(3) This digital creative industry audio-visual equipment shell manufacturing installation, the activity strip of buckling is at the inboard magnetic induction line of cutting between the magnetic path of heating furnace, and activity strip lower extreme passes through the wire and connects, and the electric current that activity strip cutting magnetic induction line formed flows in the activity strip, and the activity strip makes the circuit short circuit to make the activity strip generate heat, the activity strip that generates heat has prevented the solidification of fused raw materials in the activity strip outside.
(4) This digital creative industry audio-visual equipment shell manufacturing installation, when rotating post slew velocity reduces, the centrifugal force that the counter weight ball received reduces, it replies through the activity piece pulling activity strip to reply the spring, produce the slip frictional force when the activity strip of activity contacts the fixed block, frictional force makes the fixed block swing back and forth under the effect of flexure strip, the frictional force between fixed block and the activity strip changes during the swing, produce when the activity strip replies and pause to frustrate and feel to shake off the fused raw materials in the activity strip outside.
(5) This digital creative industry audio-visual equipment shell manufacturing installation, when the answer spring replied, the magnetic column of movable block bottom moved about under the effect of elastic strip, made the inboard magnetic field of play feed cylinder change when the magnetic column moved about to make activity magnetic ball move about in the inboard of play feed cylinder, and continuous collision tensile face makes tensile face constantly fluctuate, attached to in a feed cylinder inboard when having prevented that the raw materials from flowing out.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view of the internal structure of the present invention;
FIG. 3 is a top view of the furnace of the present invention;
FIG. 4 is a lower view of the heating furnace of the present invention;
FIG. 5 is a cross-sectional view of the discharge cylinder of the present invention;
FIG. 6 is a schematic view of a portion of the rotary column of the present invention;
FIG. 7 is a cross-sectional view of the present invention at the rotating post;
FIG. 8 is an enlarged view of the structure of FIG. 7 at A in accordance with the present invention;
FIG. 9 is an enlarged view of the structure of FIG. 7 at B according to the present invention.
In the figure: 1. a base; 2. heating furnace; 3. a top plate; 4. rotating the disc; 5. a movable mechanism; 51. a motor; 52. rotating the column; 53. a telescoping member; 531. a movable bar; 532. a counterweight ball; 533. an elastic member; 5331. an elastic sheet; 5332. a fixed block; 534. a movable block; 5341. a fixed cylinder; 5342. a magnetic column; 5343. a return spring; 535. a limiting block; 54. a magnetic block; 6. a discharging mechanism; 61. a discharge port; 62. a closing plate; 63. a discharging barrel; 64. stretching the noodles; 65. a movable magnetic ball.
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.
Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.
Referring to fig. 1-9, the present invention provides a technical solution: the utility model provides a digital intention industry audio-visual equipment shell manufacturing installation, includes base 1, and the upper end fixed mounting of base 1 has heating furnace 2, and the top fixed mounting of heating furnace 2 has roof 3, and the top right-hand member movable mounting of roof 3 has rolling disc 4, and the inboard of heating furnace 2 is provided with moving mechanism 5, and the bottom of heating furnace 2 is provided with discharge mechanism 6.
The movable mechanism 5 comprises a motor 51, a rotating column 52, a telescopic part 53 and two magnetic blocks 54, the motor 51 is fixedly arranged at the top of the top plate 3, the rotating column 52 is movably arranged at the inner side of the heating furnace 2, the top of the rotating column 52 is fixedly connected with an output shaft of the motor 51, the telescopic part 53 is arranged at the upper end of the rotating column 52, the telescopic part 53 comprises two movable strips 531, counterweight balls 532, two elastic parts 533, a movable block 534 and a limit block 535, one ends of the two movable strips 531 far away from the center of the rotating column 52 are fixedly connected at the lower end of the rotating column 52, one ends of the two movable strips 531 close to the center of the rotating column 52 are movably arranged at the inner side of the rotating column 52, the lower ends of the outer sides of the two movable strips 531 are respectively connected with the lower ends of the inner sides thereof through conducting wires, the two counterweight balls 532 are fixedly arranged at the upper ends of the two movable strips 531, the two counterweight balls 532 are positioned at the outer side of the rotating column 52, the counterweight balls 532 drive the movable strips 531 to bend towards the furnace wall of the heating furnace 2 under the action of centrifugal force, two elastic members 533 are disposed at the upper end of the rotating column 52, the movable block 534 is fixedly mounted at the lower end of the inner side of the rotating column 52, the top of the movable block 534 is connected with the lower ends of two movable strips 531, the movable block 534 comprises a fixed cylinder 5341, a magnetic column 5342 and a return spring 5343, the fixed cylinder 5341 is fixedly mounted at the bottom of the movable block 534, the magnetic column 5342 is movably mounted at the bottom of the movable block 534 through the elastic strips, the magnetic column 5342 is located at the inner side of the fixed cylinder 5341, the return spring 5343 is fixedly mounted at the inner side of the lower end of the rotating column 52, the top of the return spring 5343 is connected with the bottom of the movable block 534, the stopper 535 is fixedly mounted at the inner side of the middle of the rotating column 52, the two elastic members 533 comprise two elastic sheets 5331 and two fixed blocks 5332, the two elastic sheets 5331 are movably mounted in the left and right openings at the upper end of the rotating column 52, the two fixed blocks 5332 are fixedly mounted at the middle of the two elastic sheets 5331, the centers of the two fixed blocks 5332 are in contact with the two movable strips 531, sliding friction force is generated when the movable strips 531 are in contact with the fixed blocks 5332, the fixed blocks 5332 are made to swing back and forth under the action of the elastic sheets 5331 by the friction force, the friction force between the fixed blocks 5332 and the movable strips 531 is changed when the movable strips 531 swing, and pause feeling is generated when the movable strips 531 return, so that molten raw materials outside the movable strips 531 are shaken off, the two magnetic blocks 54 are fixedly arranged on the inner sides of the left end and the right end of the heating furnace 2 respectively, the bent movable strips 531 cut magnetic induction lines between the magnetic blocks 54 on the inner side of the heating furnace 2, the lower ends of the movable strips 531 are connected through conducting wires, current formed by the movable strips 531 cutting the magnetic induction lines flows in the movable strips 531, the movable strips 531 short-circuit, so that the movable strips 531 generate heat, and the heated movable strips 531 prevent the molten raw materials from being solidified outside the movable strips 531.
The discharging mechanism 6 comprises a discharging port 61, a closing plate 62, a discharging barrel 63, a stretching surface 64 and a movable magnetic ball 65, the discharging port 61 is arranged at the bottom of the heating furnace 2, the closing plate 62 is slidably mounted at the bottom of the heating furnace 2, the discharging barrel 63 is fixedly mounted at the center of the bottom of the heating furnace 2, the stretching surface 64 is fixedly mounted at the inner side of the discharging barrel 63, the movable magnetic ball 65 is movably mounted at the inner wall of the outer side of the discharging barrel 63 through a spring, one side of the movable magnetic ball 65, which is close to the center of the discharging barrel 63, is in contact with the stretching surface 64, the magnetic field at the inner side of the discharging barrel 63 is changed when the magnetic column 5342 moves up and down, so that the movable magnetic ball 65 moves at the inner side of the discharging barrel 63 and continuously collides with the stretching surface 64, the stretching surface 64 is continuously fluctuated, and is prevented from being attached to the inner side of the discharging barrel 63 when raw materials flow out.
When the heating furnace is used, the rotating disc 4 is adjusted to separate the rotating disc 4 from the top plate 3, the raw materials are poured into the heating furnace 2, the position of the rotating disc 4 on the top plate 3 is recovered, the device switch is turned on, the bottom of the heating furnace 2 starts to heat the raw materials, the motor 51 works, the output shaft of the motor 51 drives the rotating column 52 to rotate, when the rotating column 52 rotates, the counterweight ball 532 fixed on the movable strip 531 is subjected to centrifugal force, the movable strip 531 inside the rotating column 52 moves upwards, the movable strip 531 moving upwards inside the rotating column 52 drives the movable block 534 to move upwards, the return spring 5343 at the bottom of the movable block 534 is stretched, when the top of the movable block 534 is contacted with the bottom of the limiting block 535, the movable block 534 stops moving, at the moment, the movable strip bends towards the furnace wall of the heating furnace 2 under the action of the centrifugal force of the counterweight ball 532, the bent movable strip 531 stirs the raw materials inside the heating furnace 2, so that the raw materials inside the heating furnace 2 are heated evenly, the influence on the hot melting efficiency of the device caused by uneven heating of raw materials is avoided, the bent movable strip 531 cuts magnetic induction lines between the magnetic blocks 54 at the inner side of the heating furnace 2, the lower end of the movable strip 531 is connected through a lead, current formed by the movable strip 531 cutting the magnetic induction lines flows in the movable strip 531, the movable strip 531 causes a short circuit, so that the movable strip 531 generates heat, the heated movable strip 531 prevents the molten raw materials from solidifying at the outer side of the movable strip 531, when the heating furnace 2 stops hot melting, the closing plate 62 at the bottom of the heating furnace 2 is opened, so that the raw materials flow out from the heating furnace 2, at the moment, the rotating speed of the rotating column 52 is gradually reduced, the centrifugal force borne by the counterweight ball 532 is reduced, the return spring 5343 pulls the movable strip to return through the movable block 534, sliding friction force is generated when the movable strip 531 contacts the fixed block 5332, the fixed block 5332 swings back and forth under the action of the elastic sheet 5331, and the friction force between the fixed block 5332 and the movable strip 531 is changed when swinging, the movable strip 531 is restored to generate pause feeling, so that the molten raw materials outside the movable strip 531 are shaken off, when the restoring spring 5343 is restored, the magnetic column 5342 at the bottom of the movable block 534 moves up and down under the action of the elastic strip, and when the magnetic column 5342 moves up and down, the magnetic field inside the discharge cylinder 63 is changed, so that the movable magnetic ball 65 moves inside the discharge cylinder 63 and continuously collides with the stretching surface 64, the stretching surface 64 continuously fluctuates, and the raw materials are prevented from being attached to the inner side of the discharge cylinder 63 when flowing out.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.