CN108312542A - A kind of 3D printer with closed loop control function based on Internet of Things - Google Patents

Abstract

The invention discloses a kind of 3D printer with closed loop control function based on Internet of Things,Its structure includes the device of the 3D printer with closed loop control function,Dodge gate,Observe glass,Tripod,Handle,Air inlet,Electric cabinet,Power cord,Control button,Show screen,Alarm lamp,Storage vat,Storage vat is embedded in the left end of the device upper surface of the 3D printer with closed loop control function,Alarm lamp glue connection is in the right end of the device upper surface of the 3D printer with closed loop control function,Dodge gate is movably connected on the front of the device of the 3D printer with closed loop control function,Observe the front that glass is embedded in dodge gate,The present invention passes through the device equipped with the 3D printer with closed loop control function,After article has printed,Rotary drying can be carried out to it,Shorten the time of drying,The efficiency and the equipment for improving drying can be with auto-radiatings,It is easy to use.

Description

A kind of 3D printer with closed loop control function based on Internet of Things

Technical field

The present invention is a kind of 3D printer with closed loop control function based on Internet of Things, belongs to 3D printer field.

Background technology

3D printer " can not only print " building and completely build, it might even be possible to be printed to astronaut in spaceship The shape of any desired article, but 3D printing come out be object model, the function of object cannot be printed.

The equipment of the prior art after the completion of object prints, can not Self-dry, the process that finished product voluntarily air-dries is slower, will It takes some time, air-dried effect is poor, and the gouty inside equipment is poor, is unfavorable for radiating.

Invention content

Closed-loop control work(is had based on Internet of Things in view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of Can 3D printer, to solve the equipment of the prior art after the completion of object print, can not Self-dry, what finished product voluntarily air-dried Process is slower, will take some time, and air-dried effect is poor, and the gouty inside equipment is poor, is unfavorable for asking for heat dissipation Topic.

To achieve the goals above, the present invention is to realize by the following technical solutions：A kind of tool based on Internet of Things It includes the device, dodge gate, sight of the 3D printer with closed loop control function to have the 3D printer of closed loop control function, structure Survey glass, tripod, handle, air inlet, electric cabinet, power cord, control button, display screen, alarm lamp, storage vat, the storage Charging basket is embedded in the left end of the device upper surface of the 3D printer with closed loop control function, and the alarm lamp glue connection is in closing The right end of the device upper surface of the 3D printer of ring control function, the dodge gate are movably connected on closed loop control function The front of the device of 3D printer, the observation glass are embedded in the front of dodge gate, and the handle is welded in the right end of dodge gate, There are four the tripod is set altogether and shape size is identical, and the tripod is threadedly connected to the 3D printer with closed loop control function Device lower surface four angles, the air inlet be embedded in closed loop control function 3D printer the right surface of device before End, the electric cabinet is screwed in the lower end on the right surface of device of the 3D printer with closed loop control function, described Power cord glue connection is embedded in the upper end on the right surface of electric cabinet, the control button in the rear surface of electric cabinet, the display screen Altogether on the same line equipped with more than two and place, the control button clearance fit is described to have in the lower section of display screen The device of the 3D printer of closed loop control function is rotated by button startup structure, tooth plate drive mechanism, finished product drying structure, supporting plate Radiator structure, crust of the device, 3D printing structure composition, upper right side of the button startup structure inside crust of the device, institute The right end that tooth plate drive mechanism is welded in inside crust of the device is stated, the finished product drying structure is screwed in crust of the device Internal lower end, upper end of the 3D printing structure welding inside crust of the device.

Further, the button startup structure is by the first tooth plate fixed plate, the first tooth plate, start button, stop collar, limit Bit slice, head rod, the second connecting rod, the first spur gear, the second spur gear composition, the first tooth plate fixed plate is embedded in dress The upper end of enclosure is set, the first tooth plate clearance fit runs through in the right side of the first tooth plate fixed plate, the start button The upper surface of stop collar, the banking stop are nested in the outer ring of start button, the lower end of the start button and head rod Right end flexible connection, the left end of the head rod is mechanically connected to the upper end of the second connecting rod, second connecting rod Lower end be movably connected on the front of the first spur gear, first spur gear is engaged on the right side of the first tooth plate, described second Bottom righthand side of the spur gear clearance fit in the first tooth plate.

Further, the tooth plate drive mechanism is by the second tooth plate fixed plate, third spur gear, the second tooth plate, the 4th straight Gear, connecting line, third tooth plate, third tooth plate fixed plate, fixed pulley, the first transfer wire, the first contact block composition, described the Two tooth plate clearance fits are engaged on the upper of the second tooth plate left surface in the left side of the second tooth plate fixed plate, the third spur gear End, the 4th spur gear are engaged on the lower left of the second tooth plate, the third spur gear and the 4th spur gear shape size phase Together, the 4th spur gear clearance fit is slidably connected to third tooth plate and fixes in the upper end of third tooth plate, the third tooth plate The top of plate, the fixed pulley are movably connected on the left end of third tooth plate fixed plate, and the right end glue connection of the connecting line is in The left end of three tooth plates, first contact block are fitted in the left end of the first transfer wire, the second tooth plate fixed plate and third Tooth plate fixed plate is orthogonal, and the third spur gear is engaged on the right side of the second spur gear.

Further, the finished product drying structure is by the second contact block, spring, the second transfer wire, driving motor, first Conical gear, the second conical gear, shaft fixed plate, first rotating shaft, the first synchronizing wheel, the first synchronous belt, the second synchronizing wheel, Two shafts, drying shaft, gear turntable composition.

Further, the spring is welded in the lower surface of the second contact block, and second contact block passes through the second transmission Conducting wire is electrically connected with driving motor, and first conical gear is interference fitted in the left end of driving motor, the second circular cone tooth Wheel is welded in the lower end of first rotating shaft, and the first rotating shaft is movably connected on the left end of shaft fixed plate, first synchronizing wheel It is welded in the upper end of first rotating shaft, first synchronizing wheel is sequentially connected by the first synchronous belt and the second synchronizing wheel, and described the Two synchronizing wheels are welded in the lower end of the second shaft, and the upper end of second shaft is engaged on the front of gear turntable, the drying Shaft is engaged on the positive lower left corner of gear turntable, and the first rotating shaft and the second shaft are parallel to each other, first synchronizing wheel It is sequentially connected by the second synchronous belt and third synchronizing wheel.

Further, the supporting plate rotation radiator structure is turned by rotation supporting plate, the second synchronous belt, third synchronizing wheel, third Axis, the 4th shaft, third conical gear, blade, heat dissipation shaft, the 4th synchronizing wheel, third synchronous belt composition, the rotation supporting plate It is interference fitted in the upper end of third shaft, the third synchronizing wheel is nested in the outer ring of third shaft, the second synchronous belt mistake Cooperation be full of in the outer ring of third synchronizing wheel, the third synchronizing wheel is sequentially connected by third synchronous belt and the 4th synchronizing wheel, institute The upper end that the 4th synchronizing wheel is welded in the 4th shaft is stated, the third conical gear is nested in the outer ring of the 4th shaft, described to dissipate Hot shaft is engaged on the left end of third conical gear, and the blade is welded in the left end of heat dissipation shaft.

Further, the 3D printing structure by print head, small machine, the first bevel gear, the second bevel gear, small turn Axis, small fixed block, the 5th spur gear, conveying hose, anchor frid, plastic shell, engagement sleeves, third transfer wire, processing Device, the 4th transfer wire, big fixed block, ultrasonic probe composition.

Further, the lower end glue connection of the conveying hose is fitted in plastics in the left end of print head, the print head The lower end of shell, the ultrasonic probe glue connection pass through the 4th transfer wire in the right end of print head, the ultrasonic probe It is electrically connected with processor, the small machine is fitted in the lower end inside plastic shell, and first bevel gear is welded in small electricity The left end of machine, second bevel gear are interference fitted in the lower end of small shaft, and the 5th spur gear is nested in small shaft Upper end, the plastic shell are coordinated by engagement sleeves and fixed groove sheet separation, and the left end of the anchor frid is embedded in small solid Determine the right surface of block, the right end of the anchor frid is embedded in the left surface of big fixed block, and the small machine is transmitted by third Conducting wire is electrically connected with processor.

Further, in equipment damage, equipment can be tieed up the dodge gate by not needing provision for disengagement shell It repaiies and checks, it is easy to use.

Further, the observation glass is transparent toughened glass, and crashworthiness is good and the process of printing is observed convenient for people.

Advantageous effect

A kind of 3D printer with closed loop control function based on Internet of Things of the present invention, at work, operator is to electricity Source line powers on, and is controlled equipment by control button, and adjusting parameter, and processor is made small by third transfer wire Motor rotates, and then the first bevel gear rotates, and drives small shaft to rotate by the second bevel gear, and small shaft drive the 5th is straight The groove cooperation of gear, the 5th spur gear and anchor frid makes plastic shell move left and right, in this process, conveying hose Print head is fed, ultrasonic probe can detect the position of printed product, processing is transferred data to by the 4th transfer wire Device, components above constitute a closed-loop control system, avoid print head deviation position, printing precision are improved, when article has printed Afterwards, operator presses start button, and head rod right end declines, and left end rises, and the second connecting rod is made to increase, and pulling first is straight Gear, the first tooth plate is up mobile to make the second spur gear rotate, and the second spur gear drives third spur gear, then the second tooth plate band Dynamic 4th spur gear makes third tooth plate move to right, and connecting line pulls the second contact block, and the second contact block is made to be contacted with the first contact block, Driving motor starts, and the first conical gear drives the second conical gear, and first rotating shaft is made to rotate, and the first synchronizing wheel is same by first Step band makes the second synchronizing wheel rotate, and the second shaft makes drying shaft rotate by gear turntable, is dried to article, first While shaft rotates, the first synchronizing wheel makes the 4th synchronizing wheel rotate by third synchronous belt, and then third conical gear drives Radiate shaft, and blade is made to rotate, and heat extraction is carried out to equipment.

A kind of 3D printer with closed loop control function based on Internet of Things of the present invention, by being equipped with closed-loop control The device of the 3D printer of function can carry out rotary drying to it, shorten the time of drying after article has printed, and improve The efficiency of the drying and equipment can be easy to use with auto-radiating.

Description of the drawings

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon：

Fig. 1 is a kind of structural schematic diagram of the 3D printer with closed loop control function based on Internet of Things of the present invention.

Fig. 2 is the structural schematic diagram of the device for the 3D printer that the present invention has closed loop control function.

Fig. 3 is the structural schematic diagram after button startup structure of the present invention is pressed.

Fig. 4 is the structural schematic diagram after 3D printing structure of the present invention moves to right.

In figure：Device 1, dodge gate 2, observation glass 3, tripod 4, handle 5, air inlet 6, electric cabinet 7, the electricity of 3D printer Source line 8, control button 9, display screen 10, alarm lamp 11, storage vat 12, button startup structure 101, tooth plate drive mechanism 102, Finished product drying structure 103, supporting plate rotation radiator structure 104, crust of the device 105,3D printing structure 106, the first tooth plate fixed plate 10101, the first tooth plate 10102, start button 10103, stop collar 10104, banking stop 10105, head rod 10106, Two connecting rods 10107, the first spur gear 10108, the second spur gear 10109, the second tooth plate fixed plate 10201, third spur gear 10202, the second tooth plate 10203, the 4th spur gear 10204, connecting line 10205, third tooth plate 10206, third tooth plate fixed plate 10207, fixed pulley 10208, the first transfer wire 10209, the first contact block 10210, the second contact block 10301, spring 10302, the second transfer wire 10303, driving motor 10304, the first conical gear 10305, the second conical gear 10306, turn Axis fixing plate 10307, first rotating shaft 10308, the first synchronizing wheel 10309, the first synchronous belt 10310, the second synchronizing wheel 10311, Second shaft 10312, drying shaft 10313, gear turntable 10314, rotation supporting plate 10401, the second synchronous belt 10402, third Synchronizing wheel 10403, third shaft 10404, the 4th shaft 10405, third conical gear 10406, blade 10407, heat dissipation shaft 10408, the 4th synchronizing wheel 10409, third synchronous belt 10410, print head 10601, small machine 10602, the first bevel gear 10603, the second bevel gear 10604, small shaft 10605, small fixed block 10606, the 5th spur gear 10607, conveying hose 10608, anchor frid 10609, plastic shell 10610, engagement sleeves 10611, third transfer wire 10612, processor 10613, the 4th transfer wire 10614, big fixed block 10615, ultrasonic probe 10616.

Specific implementation mode

To make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, with reference to Specific implementation mode, the present invention is further explained.

- Fig. 4 is please referred to Fig.1, the present invention provides a kind of 3D printer with closed loop control function based on Internet of Things：Its Structure includes the device 1 of the 3D printer with closed loop control function, dodge gate 2, observes glass 3, tripod 4, handle 5, air inlet Mouth 6, electric cabinet 7, power cord 8, control button 9, display screen 10, alarm lamp 11, storage vat 12, the storage vat 12 is embedded in tool There is the left end of 1 upper surface of device of the 3D printer of closed loop control function, 11 glue connection of the alarm lamp is in closed-loop control The right end of 1 upper surface of device of the 3D printer of function, the dodge gate 2 are movably connected on the 3D with closed loop control function and beat The front of the device 1 of print machine, the observation glass 3 are embedded in the front of dodge gate 2, and the handle 5 is welded in the right side of dodge gate 2 End, the tripod 4 set altogether there are four and shape size it is identical, the tripod 4 is threadedly connected to the 3D with closed loop control function Four angles of 1 lower surface of device of printer, the air inlet 6 are embedded in the device 1 of the 3D printer with closed loop control function The front end on right surface, the electric cabinet 7 are screwed in the 1 right surface of device of the 3D printer with closed loop control function Lower end, 8 glue connection of the power cord is in the rear surface of electric cabinet 7, and the display screen 10 is embedded in the upper of 7 right surface of electric cabinet End, the control button 9 equipped with two or more and are located on the same line altogether, and 9 clearance fit of the control button is in display screen The lower section of curtain 10, the device 1 of the 3D printer with closed loop control function is by button startup structure 101, tooth plate transmission knot Structure 102, finished product drying structure 103, supporting plate rotation radiator structure 104, crust of the device 105,3D printing structure 106 form, described Upper right side of the button startup structure 101 inside crust of the device 105, the tooth plate drive mechanism 102 are welded in crust of the device Right end inside 105, the finished product drying structure 103 are screwed in the lower end inside crust of the device 105, and the 3D is beaten Print structure 106 is welded in the upper end inside crust of the device 105, and the button startup structure 101 is by the first tooth plate fixed plate 10101, the first tooth plate 10102, start button 10103, stop collar 10104, banking stop 10105, head rod 10106, Two connecting rods 10107, the first spur gear 10108, the second spur gear 10109 composition, the first tooth plate fixed plate 10101 are embedded in Upper end inside crust of the device 105,10102 clearance fit of the first tooth plate is in the right side of the first tooth plate fixed plate 10101, institute The upper surface that start button 10103 runs through stop collar 10104 is stated, the banking stop 10105 is nested in the outer of start button 10103 Circle, the lower end of the start button 10103 are flexibly connected with the right end of head rod 10106, the head rod 10106 Left end be mechanically connected to the upper end of the second connecting rod 10107, the lower end of second connecting rod 10107 is movably connected on first The front of spur gear 10108, first spur gear 10108 are engaged on the right side of the first tooth plate 10102, second spur gear 10109 clearance fits are in the bottom righthand side of the first tooth plate 10102, and the tooth plate drive mechanism 102 is by the second tooth plate fixed plate 10201, third spur gear 10202, the second tooth plate 10203, the 4th spur gear 10204, connecting line 10205, third tooth plate 10206, third tooth plate fixed plate 10207, fixed pulley 10208, the first transfer wire 10209, the first contact block 10210 composition, Second tooth plate, 10203 clearance fit is engaged in the left side of the second tooth plate fixed plate 10201, the third spur gear 10202 Upper end in 10203 left surface of the second tooth plate, the 4th spur gear 10204 are engaged on the lower left of the second tooth plate 10203, institute It is identical as 10204 shape size of the 4th spur gear to state third spur gear 10202,10204 clearance fit of the 4th spur gear exists The upper end of third tooth plate 10206, the third tooth plate 10206 is slidably connected to the top of third tooth plate fixed plate 10207, described Fixed pulley 10208 is movably connected on the left end of third tooth plate fixed plate 10207, the right end glue connection of the connecting line 10205 in The left end of third tooth plate 10206, first contact block 10210 are fitted in the left end of the first transfer wire 10209, and described second Tooth plate fixed plate 10201 and third tooth plate fixed plate 10207 are orthogonal, and it is straight that the third spur gear 10202 is engaged on second The right side of gear 10109, the finished product drying structure 103 is by the second contact block 10301, spring 10302, the second transfer wire 10303, driving motor 10304, the first conical gear 10305, the second conical gear 10306, shaft fixed plate 10307, first Shaft 10308, the first synchronizing wheel 10309, the first synchronous belt 10310, the second synchronizing wheel 10311, the second shaft 10312, drying Shaft 10313, gear turntable 10314 form, and the spring 10302 is welded in the lower surface of the second contact block 10301, and described the Two contact blocks 10301 are electrically connected by the second transfer wire 10303 with driving motor 10304, first conical gear 10305 It is interference fitted in the left end of driving motor 10304, second conical gear 10306 is welded in the lower end of first rotating shaft 10308, The first rotating shaft 10308 is movably connected on the left end of shaft fixed plate 10307, and first synchronizing wheel 10309 is welded in The upper end of one shaft 10308, first synchronizing wheel 10309 are driven by the first synchronous belt 10310 and the second synchronizing wheel 10311 Connection, second synchronizing wheel 10311 are welded in the lower end of the second shaft 10312, the upper end engagement of second shaft 10312 In the front of gear turntable 10314, the drying shaft 10313 is engaged on the 10314 positive lower left corner of gear turntable, and described One shaft 10308 and the second shaft 10312 are parallel to each other, and first synchronizing wheel 10309 passes through the second synchronous belt 10402 and Three synchronizing wheels 10403 are sequentially connected, supporting plate rotation radiator structure 104 by rotation supporting plate 10401, the second synchronous belt 10402, Third synchronizing wheel 10403, third shaft 10404, the 4th shaft 10405, third conical gear 10406, blade 10407, heat dissipation Shaft 10408, the 4th synchronizing wheel 10409, third synchronous belt 10410 form, and the rotation supporting plate 10401 is interference fitted in third The upper end of shaft 10404, the third synchronizing wheel 10403 are nested in the outer ring of third shaft 10404, second synchronous belt 10402 are interference fitted in the outer ring of third synchronizing wheel 10403, the third synchronizing wheel 10403 by third synchronous belt 10410 with 4th synchronizing wheel 10409 is sequentially connected, and the 4th synchronizing wheel 10409 is welded in the upper end of the 4th shaft 10405, the third Conical gear 10406 is nested in the outer ring of the 4th shaft 10405, and the heat dissipation shaft 10408 is engaged on third conical gear 10406 left end, the blade 10407 are welded in the left end of heat dissipation shaft 10408, and the 3D printing structure 106 is by print head 10601, small machine 10602, the first bevel gear 10603, the second bevel gear 10604, small shaft 10605, small fixed block 10606, the 5th spur gear 10607, conveying hose 10608, anchor frid 10609, plastic shell 10610, engagement sleeves 10611, third transfer wire 10612, processor 10613, the 4th transfer wire 10614, big fixed block 10615, ultrasonic wave are visited First 10616 composition, the lower end glue connection of the conveying hose 10608 is in the left end of print head 10601, the print head 10601 It is fitted in the lower end of plastic shell 10610,10616 glue connection of the ultrasonic probe is described super in the right end of print head 10601 Sonic probe 10616 is electrically connected by the 4th transfer wire 10614 with processor 10613, and the small machine 10602 is fitted in modeling Expect that the lower end inside shell 10610, first bevel gear 10603 are welded in the left end of small machine 10602, second umbrella Shape gear 10604 is interference fitted in the lower end of small shaft 10605, and the 5th spur gear 10607 is nested in small shaft 10605 Upper end, the plastic shell 10610 pass through engagement sleeves 10611 and 10609 clearance fit of anchor frid, the anchor frid 10609 left end is embedded in the right surface of small fixed block 10606, and the right end of the anchor frid 10609 is embedded in big fixed block 10615 left surface, the small machine 10602 are electrically connected by third transfer wire 10612 with processor 10613, the work In equipment damage, not needing provision for disengagement shell 105 can repair and check to equipment dynamic door 2, easy to use, institute It is transparent toughened glass to state observation glass 3, and crashworthiness is good and the process of printing is observed convenient for people.

Ultrasonic probe 10616 of the present invention is changed using what piezoelectric effect realization electric energy, the acoustic energy of material were converted Can device, the critical component in probe is chip, and chip is a monocrystalline or polycrystal thin slice with piezoelectric effect, its work With being to convert electric energy and acoustic energy mutually.

At work, operator powers on power cord 8, is controlled equipment by control button 9, and adjusts ginseng Number, processor 10613 make small machine 10602 rotate by third transfer wire 10612, then 10603 turns of the first bevel gear It is dynamic, drive small shaft 10605 to rotate by the second bevel gear 10604, small shaft 10605 drives the 5th spur gear 10607, the The groove cooperation of five spur gears 10607 and anchor frid 10609 makes plastic shell 10610 move left and right, in this process, Conveying hose 10608 is fed print head 10601, and ultrasonic probe 10616 can detect the position of printed product, is passed by the 4th Transporting line 10614 transfers data to processor 10613, and components above constitutes a closed-loop control system, avoids print head 10601 deviation positions improve printing precision, and after article has printed, operator presses start button 10103, head rod 10106 right ends decline, and left end rises, and the second connecting rod 10107 is made to increase, and pull the first spur gear 10108, the first tooth plate 10102 it is up mobile so that the second spur gear 10109 is rotated, the second spur gear 10109 drives third spur gear 10202, then the Two tooth plates 10203 drive the 4th spur gear 10204 that third tooth plate 10206 is made to move to right, and connecting line 10205 pulls the second contact block 10301, so that the second contact block 10301 is contacted with the first contact block 10210, driving motor 10304 starts, the first conical gear 10305 drive the second conical gear 10306, and first rotating shaft 10308 is made to rotate, and the first synchronizing wheel 10309 passes through the first synchronous belt 10310 make the second synchronizing wheel 10311 rotate, and the second shaft 10312 makes drying shaft 10313 rotate by gear turntable 10314, Article is dried, while first rotating shaft 10308 rotates, the first synchronizing wheel 10309 is made by third synchronous belt 10410 4th synchronizing wheel 10409 rotates, and then third conical gear 10406 drives heat dissipation shaft 10408, and blade 10407 is made to rotate, right Equipment carries out heat extraction.

The present invention solve the prior art equipment after the completion of object print, can not Self-dry, finished product voluntarily air-dry Process is slower, will take some time, and air-dried effect is poor, and the gouty inside equipment is poor, is unfavorable for radiating, this hair Bright being combined with each other by above-mentioned component can carry out rotary drying to it, shorten the time of drying after article has printed, The efficiency and the equipment for improving drying can be easy to use with auto-radiating.

The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention, for this field skill For art personnel, it is clear that invention is not limited to the details of the above exemplary embodiments, and without departing substantially from the present invention spirit or In the case of essential characteristic, the present invention can be realized in other specific forms.Therefore, in all respects, should all incite somebody to action Embodiment regards exemplary as, and is non-limiting, the scope of the present invention by appended claims rather than on state Bright restriction, it is intended that including all changes that come within the meaning and range of equivalency of the claims in the present invention It is interior.Any reference signs in the claims should not be construed as limiting the involved claims.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiment being appreciated that.

Claims (8)

1. a kind of 3D printer with closed loop control function based on Internet of Things, structure includes having closed loop control function The device (1) of 3D printer, dodge gate (2), observation glass (3), tripod (4), handle (5), air inlet (6), electric cabinet (7), Power cord (8), control button (9), display screen (10), alarm lamp (11), storage vat (12), it is characterised in that：

The storage vat (12) is embedded in the left end of device (1) upper surface of the 3D printer with closed loop control function, the report Warning lamp (11) glue connection is in the right end of device (1) upper surface of the 3D printer with closed loop control function, the dodge gate (2) It is movably connected on the front of the device (1) of the 3D printer with closed loop control function, the observation glass (3) is embedded in dodge gate (2) front, the handle (5) are welded in the right end of dodge gate (2), the tripod (4) set altogether there are four and shape size phase Together, the tripod (4) is threadedly connected to four angles of device (1) lower surface of the 3D printer with closed loop control function, institute State the front end that air inlet (6) is embedded in device (1) right surface of the 3D printer with closed loop control function, the electric cabinet (7) It is screwed in the lower end on device (1) right surface of the 3D printer with closed loop control function, power cord (8) glue It is connected to the rear surface of electric cabinet (7), the display screen (10) is embedded in the upper end on electric cabinet (7) right surface, and the control is pressed Button (9) equipped with two or more and is located on the same line altogether, and control button (9) clearance fit is under display screen (10) Side；

The device (1) of the 3D printer with closed loop control function is by button startup structure (101), tooth plate drive mechanism (102), finished product drying structure (103), supporting plate rotation radiator structure (104), crust of the device (105), 3D printing structure (106) group At；

The button startup structure (101) is embedded in the internal upper right side of crust of the device (105), the tooth plate drive mechanism (102) It is welded in the internal right end of crust of the device (105), the finished product drying structure (103) is screwed in crust of the device (105) internal lower end, the 3D printing structure (106) are welded in the internal upper end of crust of the device (105).

2. a kind of 3D printer with closed loop control function based on Internet of Things according to claim 1, feature exist In：The button startup structure (101) is by the first tooth plate fixed plate (10101), the first tooth plate (10102), start button (10103), stop collar (10104), banking stop (10105), head rod (10106), the second connecting rod (10107), first Spur gear (10108), the second spur gear (10109) composition, the first tooth plate fixed plate (10101) are embedded in crust of the device (105) internal upper end, the first tooth plate (10102) clearance fit are described on the right side of the first tooth plate fixed plate (10101) Start button (10103) runs through the upper surface of stop collar (10104), and the banking stop (10105) is nested in start button (10103) lower end of outer ring, the start button (10103) is flexibly connected with the right end of head rod (10106), described The left end of head rod (10106) is mechanically connected to the upper end of the second connecting rod (10107), second connecting rod (10107) lower end is movably connected on the front of the first spur gear (10108), and first spur gear (10108) is engaged on The right side of one tooth plate (10102), bottom righthand side of the second spur gear (10109) clearance fit in the first tooth plate (10102).

3. a kind of 3D printer with closed loop control function based on Internet of Things according to claim 1, feature exist In：The tooth plate drive mechanism (102) is by the second tooth plate fixed plate (10201), third spur gear (10202), the second tooth plate (10203), the 4th spur gear (10204), connecting line (10205), third tooth plate (10206), third tooth plate fixed plate (10207), fixed pulley (10208), the first transfer wire (10209), the first contact block (10210) composition, second tooth plate (10203) clearance fit is engaged on second in the left side of the second tooth plate fixed plate (10201), the third spur gear (10202) The upper end of tooth plate (10203) left surface, the 4th spur gear (10204) are engaged on the lower left of the second tooth plate (10203), institute It is identical as the 4th spur gear (10204) shape size to state third spur gear (10202), the 4th spur gear (10204) gap In the upper end of third tooth plate (10206), the third tooth plate (10206) is slidably connected to third tooth plate fixed plate for cooperation (10207) top, the fixed pulley (10208) are movably connected on the left end of third tooth plate fixed plate (10207), the connection The right end glue connection of line (10205) is fitted in first in the left end of third tooth plate (10206), first contact block (10210) The left end of transfer wire (10209), the second tooth plate fixed plate (10201) are hung down mutually with third tooth plate fixed plate (10207) Directly.

4. a kind of 3D printer with closed loop control function based on Internet of Things according to claim 1, feature exist In：The finished product drying structure (103) by the second contact block (10301), spring (10302), the second transfer wire (10303), Driving motor (10304), the first conical gear (10305), the second conical gear (10306), shaft fixed plate (10307), One shaft (10308), the first synchronizing wheel (10309), the first synchronous belt (10310), the second synchronizing wheel (10311), the second shaft (10312), drying shaft (10313), gear turntable (10314) composition.

5. a kind of 3D printer with closed loop control function based on Internet of Things according to claim 4, feature exist In：The spring (10302) is welded in the lower surface of the second contact block (10301), and second contact block (10301) passes through Two transfer wires (10303) are electrically connected with driving motor (10304), and first conical gear (10305) is interference fitted in drive The left end of dynamic motor (10304), second conical gear (10306) are welded in the lower end of first rotating shaft (10308), and described the One shaft (10308) is movably connected on the left end of shaft fixed plate (10307), and first synchronizing wheel (10309) is welded in The upper end of one shaft (10308), first synchronizing wheel (10309) pass through the first synchronous belt (10310) and the second synchronizing wheel (10311) it is sequentially connected, second synchronizing wheel (10311) is welded in the lower end of the second shaft (10312), second shaft (10312) upper end is engaged on the front of gear turntable (10314), and the drying shaft (10313) is engaged on gear turntable (10314) the positive lower left corner, the first rotating shaft (10308) and the second shaft (10312) are parallel to each other.

6. a kind of 3D printer with closed loop control function based on Internet of Things according to claim 1, feature exist In：The supporting plate rotation radiator structure (104) is by rotation supporting plate (10401), the second synchronous belt (10402), third synchronizing wheel (10403), third shaft (10404), the 4th shaft (10405), third conical gear (10406), blade (10407), heat dissipation Shaft (10408), the 4th synchronizing wheel (10409), third synchronous belt (10410) composition, rotation supporting plate (10401) interference are matched It closes in the upper end of third shaft (10404), the third synchronizing wheel (10403) is nested in the outer ring of third shaft (10404), institute The outer ring that the second synchronous belt (10402) is interference fitted in third synchronizing wheel (10403) is stated, the third synchronizing wheel (10403) is logical It crosses third synchronous belt (10410) and the 4th synchronizing wheel (10409) to be sequentially connected, the 4th synchronizing wheel (10409) is welded in the The upper end of four shafts (10405), the third conical gear (10406) is nested in the outer ring of the 4th shaft (10405), described to dissipate Hot shaft (10408) is engaged on the left end of third conical gear (10406), and the blade (10407) is welded in heat dissipation shaft (10408) left end.

7. a kind of 3D printer with closed loop control function based on Internet of Things according to claim 1, feature exist In：The 3D printing structure (106) is by print head (10601), small machine (10602), the first bevel gear (10603), second Bevel gear (10604), small shaft (10605), small fixed block (10606), the 5th spur gear (10607), conveying hose (10608), anchor frid (10609), plastic shell (10610), engagement sleeves (10611), third transfer wire (10612), Processor (10613), the 4th transfer wire (10614), big fixed block (10615), ultrasonic probe (10616) composition.

8. a kind of 3D printer with closed loop control function based on Internet of Things according to claim 7, feature exist In：The lower end glue connection of the conveying hose (10608) is in the left end of print head (10601), print head (10601) fitting Lower end in plastic shell (10610), ultrasonic probe (10616) glue connection are described in the right end of print head (10601) Ultrasonic probe (10616) is electrically connected by the 4th transfer wire (10614) with processor (10613), the small machine (10602) it is fitted in the internal lower end of plastic shell (10610), first bevel gear (10603) is welded in small machine (10602) left end, second bevel gear (10604) are interference fitted in the lower end of small shaft (10605), and the described 5th is straight Gear (10607) is nested in the upper end of small shaft (10605), and the plastic shell (10610) is by engagement sleeves (10611) and admittedly Determine concave-board (10609) clearance fit, the left end of the anchor frid (10609) is embedded in the right table of small fixed block (10606) Face, the right end of the anchor frid (10609) are embedded in the left surface of big fixed block (10615), and the small machine (10602) is logical Third transfer wire (10612) is crossed to be electrically connected with processor (10613).