CN111775450A - 3D printer that can clear up automatically - Google Patents

Abstract

The invention relates to the technical field of 3D printers, in particular to a 3D printer capable of automatically cleaning, which comprises a printer body, wherein the bottom end of one side of a fixing plate is connected with a first motor, the output end of the first motor is connected with a first rotary pump in a driving mode, one end of the first rotary pump is connected with a first reciprocating screw rod, one end of the first reciprocating screw rod is connected with the fixing plate in a rotating mode, the first reciprocating screw rod is connected with a moving frame, the output end of a second motor is connected with a second rotating shaft in a driving mode, a brush assembly is connected onto the second rotating shaft, one side of the brush assembly is connected with two parallel baffle plates, and the baffle plates are elastic plates. The brush assembly is fixed after the second motor is self-locked, the brush assembly cleans sundries on the upper surface of the carrying plate, the sundries generated during cleaning move forwards, the baffle plates and the brush assembly move simultaneously during the movement of the sundries, and the sundries cannot fall from two sides of the carrying plate because the two baffle plates are in contact with the side edge of the carrying plate.

Description

3D printer that can clear up automatically

Technical Field

The invention relates to the technical field of 3D printers, in particular to a 3D printer capable of being automatically cleaned.

Background

The 3D printer is also called a three-dimensional printer (3DP), is a machine of a rapid prototyping technology, is a digital model file as a basis, and utilizes adhesive materials such as special wax materials, powdered metal or plastics and the like to manufacture a three-dimensional object by printing the adhesive materials layer by layer, the three-dimensional printer is used for manufacturing products at the present stage, and the technology of the object is constructed by a layer-by-layer printing mode, the principle of the 3D printer is that data and raw materials are put into the 3D printer, and the machine can manufacture the products layer by layer according to a program.

The Ender series 3D printer comprises a case, supporting plates are connected with two sides inside the case, a sliding belt is arranged on the outer surface of one side of the supporting plates, an iron plate is mounted on the outer surface of one side of the sliding belt and movably connected with the sliding belt through a built-in roller, a carrying plate is arranged on the side surface of the iron plate, a 3D printer head is movably connected with an iron column through an external roller, the iron column is movably connected with the sliding belt through an external roller, the carrying plate moves under the driving of the built-in roller and the sliding belt under the control of an external control box to change the height of the carrying plate, when the existing Ender series 3D printer is used for cleaning garbage sundries on the carrying plate, a push plate is driven by a telescopic rod to clean the garbage sundries on the carrying plate, and in the cleaning process, the sundries on the carrying plate easily fall off from two sides along with the accumulation of the sundries on the, pick up through manual mode, be unfavorable for the 3D printer to carry out continuous printing.

Disclosure of Invention

The invention aims to solve the defect that sundries on a carrying plate are easy to fall off from two sides in the cleaning process in the prior art, and provides a 3D printer capable of automatically cleaning.

In order to achieve the purpose, the invention adopts the following technical scheme:

the 3D printer capable of automatically cleaning comprises a printer body, wherein the bottom end of the printer body is connected with a base, one side of the printer body is connected with a control box, a loading plate is connected in the printer body, one side of the printer body is communicated with a fixing plate, the bottom end of one side of the fixing plate is connected with a first motor, the output end of the first motor is in driving connection with a first rotary pump, one end of the first rotary pump extends into the fixing plate, one end of the first rotary pump is connected with a first reciprocating screw rod, the first reciprocating screw rod is parallel to the length direction of the loading plate, one end of the first reciprocating screw rod is rotatably connected with the fixing plate, a moving frame is connected onto the first reciprocating screw rod, the bottom end inside the fixing plate is connected with a guide mechanism, and the guide mechanism is connected with the moving frame, the printer comprises a printer body, and is characterized in that a second motor is connected to a moving frame, a power box is connected to the moving frame, a battery block is connected to the power box, the second motor is connected to the battery block through a wire, the output end of the second motor is connected with a second rotating shaft in a driving mode, a brush assembly is connected to the second rotating shaft, one side of the brush assembly is connected with two parallel baffles, the baffles are elastic plates and two, the distance between the baffles is matched with the width of a carrying plate, a collecting hole is formed in the bottom inside the printer body, a first collecting box is inserted into the base, and the first collecting box is located under the collecting hole.

Preferably, guiding mechanism includes spacing, spacing is connected the fixed plate, the upper end slidable of spacing is connected with the connecting rod, the upper end of connecting rod is connected remove the frame.

Preferably, the other side of the brush assembly is connected with two fixing columns arranged in parallel, the fixing columns are connected with scrapers, the bottoms of the scrapers and the bottoms of the brush assembly are located on the same straight line, the scrapers are connected with two fixed pipes arranged in parallel, one end of each fixed pipe is slidably connected with a movable rod, each fixed pipe is internally connected with a spring, each spring is connected with one end of each movable rod, each movable rod is connected with a pressing plate, and one side of each pressing plate is in contact with the scrapers.

Preferably, the upper end of one side of the fixed plate is communicated with an air duct, one end of the air duct is connected with a fan, the upper end of the air duct is connected with a negative ion generator, the negative ion generator is connected with a spray head, the spray head extends into the air duct, a dust screen is connected in the air duct, the dust screen and the spray head are positioned on the same side, the bottom end inside the air duct is connected with a second fixed block, the second fixed block is positioned between the dust screen and the spray head, the second fixed block is rotatably connected with a second reciprocating screw rod, one end of the second reciprocating screw rod is connected with a fifth rotating shaft, one end of the fifth rotating shaft extends into the fixed plate, one end of the fifth rotating shaft is connected with a fourth bevel gear, hollow boxes are communicated with two sides of the bottom end of the air duct, and a second collecting box is inserted in each hollow box, the second reciprocating screw rod is connected with a push plate, the bottom end of the push plate is in contact with the bottom end of the inner portion of the air guide tube, a guide rod is inserted into the push plate and is parallel to the second reciprocating screw rod, one end of the guide rod is connected with the second fixing block, the other end of the guide rod is connected with the air guide tube, the fourth bevel gear is connected with a transmission mechanism, and the transmission mechanism is connected with the first rotary pump.

Preferably, the transmission mechanism comprises a first gear, the first gear is connected with the first rotary pump, a third rotating shaft is rotatably connected in the fixed plate and parallel to the first reciprocating screw, a second gear is connected to the third rotating shaft and meshed with the first gear, a first fixed block is connected to the bottom end of the inner portion of the fixed plate, the third rotating shaft penetrates through the first fixed block, a first bevel gear is connected to one end of the third rotating shaft, a fourth rotating shaft is rotatably connected to the bottom end of the inner portion of the fixed plate, a second bevel gear is connected to the fourth rotating shaft and meshed with the first bevel gear, a third bevel gear is connected to the upper end of the fourth rotating shaft, and the fourth rotating shaft is meshed with the fourth bevel gear.

Preferably, the first collection box is a plastic box.

The 3D printer capable of being automatically cleaned provided by the invention has the beneficial effects that:

after the printer finishes printing, printed matters are taken out, the control box controls the carrying plate to descend to the lowest position, the control box controls the second motor to start, the second motor is electrified to start and then rotates forwards, the brush assembly is driven to rotate through the second rotating shaft, the second motor is self-locked after the rotation degree of the brush assembly, the bottom end of a brush of the brush assembly is contacted with the upper surface of the carrying plate, one opposite sides of the two baffles are contacted with the side edge of the carrying plate, the control box controls the first motor to start again, the first motor is electrified to start and then drives the first reciprocating screw rod to rotate through the first rotating pump, the moving frame is driven by the first reciprocating screw rod to move in the horizontal direction, the moving frame does not turn over in the moving process under the guide of the guide mechanism, the moving frame drives the second motor to move, the brush assembly is fixed after the second motor is self-locked, and the brush assembly cleans sundries on the upper surface of the carrying plate under the drive, sundries generated during cleaning move forwards, the baffle plates and the brush assembly move simultaneously in the moving process of the sundries, and the sundries cannot fall off from two sides of the carrying plate due to the fact that the two baffle plates are in contact with the side edge of the carrying plate.

Drawings

Fig. 1 is a schematic structural diagram of a 3D printer capable of automatic cleaning according to the present invention;

FIG. 2 is a schematic view of a connection structure of a fixing plate and an air duct in the 3D printer capable of automatically cleaning according to the present invention;

FIG. 3 is a schematic diagram of a rear view structure of the connection between a fixing plate and an air duct in the 3D printer capable of automatically cleaning according to the present invention;

FIG. 4 is a schematic view of a connection structure of a brush assembly and a scraper in an automatically cleanable 3D printer according to the present invention;

FIG. 5 is a schematic cross-sectional view of an air duct in a 3D printer capable of automatically cleaning according to the present invention;

fig. 6 is a system block diagram of a 3D printer capable of automatic cleaning according to the present invention.

In the figure: the device comprises a printer body 1, a base 2, a carrying plate 3, a control box 4, a fixing plate 5, a first motor 6, a first rotary drawer 7, a first gear 8, a first reciprocating screw 9, a moving frame 10, a second motor 11, a second rotating shaft 12, a brush assembly 13, a baffle plate 14, a fixing column 15, a scraper 16, a fixing pipe 17, a movable rod 18, a pressing plate 19, a collecting hole 20, a first collecting box 21, an air guide pipe 22, a fan 23, a negative ion generator 24, a spray head 25, a dust screen 26, a third rotating shaft 27, a second gear 28, a first fixing block 29, a first bevel gear 30, a fourth rotating shaft 31, a second bevel gear 32, a third bevel gear 33, a second fixing block 34, a second reciprocating screw 35, a fifth rotating shaft 36, a fourth bevel gear 37, a pushing plate 38, a guide rod 39, a hollow box 40, a second collecting box 41, a limiting frame 42 and a connecting rod 43.

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.

Example 1

Referring to fig. 1-6, a 3D printer capable of automatically cleaning, which comprises a printer body 1, a base 2 is connected to the bottom end of the printer body 1, the base 2 is used for supporting the printer body 1, a control box 4 is connected to one side of the printer body 1, a carrying plate 3 is connected to the printer body 1, the carrying plate 3 is used for placing printing materials, a fixing plate 5 is communicated with one side of the printer body 1, a first motor 6 is connected to the bottom end of one side of the fixing plate 5, a first rotary rod 7 is connected to the output end of the first motor 6 in a driving manner, the first rotary rod 7 is used for driving the first reciprocating screw rod 9 to rotate, one end of the first rotary rod 7 extends into the fixing plate 5, one end of the first rotary rod 7 is connected with a first reciprocating screw rod 9, the first reciprocating screw rod 9 is used for driving a moving frame 10 to move, the first reciprocating screw rod 9 is parallel to the, the rotatable connection fixed plate 5 of one end of first reciprocal screw rod 9 is connected with on the first reciprocal screw rod 9 and removes frame 10, and the inside bottom of fixed plate 5 is connected with guiding mechanism, and guiding mechanism's effect is so that remove frame 10 and do not take place the upset at the in-process that removes, and guiding mechanism connects and removes frame 10, removes the effect of frame 10 and supports second motor 11.

A second motor 11 is connected on the movable frame 10, the second motor 11 is used for driving a second rotating shaft 12 to rotate after being electrified, a power box is connected on the movable frame 10, a battery block is connected in the power box, the second motor 11 is connected with the battery block through a lead, the output end of the second motor 11 is connected with the second rotating shaft 12 in a driving way, the position of a brush component 13 is adjusted after the second rotating shaft 12 is rotated, a brush component 13 is connected on the second rotating shaft 12, the brush component 13 is used for cleaning sundries on the upper surface of the object carrying plate 3 in the moving process after being contacted with the upper surface of the object carrying plate 3, one side of the brush component 13 is connected with two baffle plates 14 which are arranged in parallel, the baffle plates 14 are used for preventing the sundries from falling from two sides of the object carrying plate 3 when the brush component 13 cleans the sundries on the upper surface of the object carrying plate 3, and the baffle plates 14 are elastic plates, the interval between two baffles 14 matches with the width of carrying thing board 3, and collecting hole 20 has been seted up to the inside bottom of printer body 1, and collecting hole 20's effect makes in the debris that brush subassembly 13 cleaned can drop to first collection box 21, inserts on the base 2 and is equipped with first collection box 21, and the effect of first collection box 21 is the debris of collecting from carrying thing board 3 and dropping, and first collection box 21 is the plastics box, and first collection box 21 is located collecting hole 20 under.

The working process is as follows: after the printer finishes printing, the printed matter is taken out, the control box 4 lowers the carrying plate to the lowest position through the built-in rollers and the sliding belt, the control box 4 controls the second motor 11 to start, the second motor 11 is electrified to start and then rotates forwards, the second motor 11 drives the brush component 13 to rotate through the second rotating shaft 12, the brush component 13 rotates 90 degrees and then the second motor 11 self-locks, the bottom end of the brush component 13 is contacted with the upper surface of the carrying plate 3, the opposite sides of the two baffle plates 14 are both contacted with the side edge of the carrying plate 3, the control box 4 controls the first motor 6 to start again, the first motor 6 is electrified to start and then drives the first reciprocating screw 9 to rotate through the first rotary pump 7, the first reciprocating screw 9 rotates and then drives the moving frame 10 to move in the horizontal direction, the moving frame 10 does not turn over in the moving process under the guidance of the guide mechanism, the moving frame 10 moves and drives the second motor 11 to move, the brush component 13 is fixed after the second motor 11 is self-locked, the brush component 13 cleans sundries on the upper surface of the object carrying plate 3 under the driving of the moving frame 10, the sundries generated during cleaning move forward, the baffle plate 14 and the brush component 13 move simultaneously in the moving process of the sundries, as the two baffle plates 14 are contacted with the side edge of the object carrying plate 3, the storage space of the sundries on the upper end of the object carrying plate 3 is enlarged, the sundries can not fall from the two sides of the object carrying plate 3 in the forward moving process, the sundries on the object carrying plate 3 fall from the object carrying plate 3 when the brush component 13 moves to the forefront, the sundries fall into the first collecting box 21 through the collecting hole 20, the second motor 11 starts to rotate reversely when the brush component 13 moves to the forefront, the second motor 11 drives the brush component 13 to rotate through the second rotating shaft 12, the brush component 13 rotates 90 degrees and then the second motor 11 is self-locked, the brush component 13 moves reversely when the, under the drive of the first reciprocating screw 9, the brush assembly 13 returns to the initial position, the first motor 6 is self-locked, and the cleaning is finished.

Example 2

Referring to fig. 1 to 6, as another preferred embodiment of the present invention, the difference from embodiment 1 is that the guide mechanism includes a limiting frame 42, the limiting frame 42 is connected to the fixing plate 5, a connecting rod 43 is slidably connected to an upper end of the limiting frame 42, an upper end of the connecting rod 43 is connected to the moving frame 10, and during the moving of the moving frame 10, one end of the connecting rod 43 slides on the limiting frame 42, so that the moving frame 10 does not turn over during the moving.

Example 3

In the process that the brush assembly 13 cleans the sundries on the upper surface of the object carrying plate 3, a part of the sundries are adhered on the upper surface of the object carrying plate 3, because the part of the brush assembly 13 contacted with the upper surface of the object carrying plate 3 is relatively soft, the sundries adhered on the upper surface of the object carrying plate 3 cannot be effectively cleaned in the cleaning process, referring to fig. 1-6, as another preferred embodiment of the invention, on the basis of embodiment 1, the other side of the brush assembly 13 is connected with two fixing columns 15 which are arranged in parallel, the fixing columns 15 are used for fixing a scraper 16, the fixing columns 15 are connected with the scraper 16, the scraper 16 is used for scraping the sundries adhered on the upper surface of the object carrying plate 3, the bottom end of the scraper 16 and the bottom end of the brush assembly 13 are in the same straight line, the scraper 16 is connected with two fixing pipes 17 which are arranged in parallel, the fixing pipes 17 are used for connecting with a movable, the equal slidable of one end of every fixed pipe 17 is connected with movable rod 18, movable rod 18's effect is stationary pressing plate 19, all be connected with the spring in every fixed pipe 17, movable rod 18 is all connected to the one end of every spring, the one end of every movable rod 18 all is connected with clamp plate 19, clamp plate 19's effect is when carrying the debris extrusion clamp plate 19 of thing board 3's upper surface, clamp plate 19 rebound passes through movable rod 18 extrusion spring, spring pressurized back produces elasticity and promotes clamp plate 19 downstream, make the unable bonding of debris of scraping on scraper 16, one side and the scraper 16 of clamp plate 19 contact.

The working process is as follows: when the bottom of brush subassembly 13 and the upper surface contact who carries thing board 3, the bottom of scraper 16 simultaneously with carry the upper surface contact of thing board 3, brush subassembly 13 removes in-process and drives scraper 16 and removes simultaneously, scraper 16 strikes off the debris that bond at the upper surface that carries thing board 3 at the in-process that removes, debris extrusion clamp plate 19 of scraping down, clamp plate 19 upwards removes when clamp plate 19 is compressed and extrudees the spring through movable rod 18, produce elasticity behind the spring compression and promote clamp plate 19 and remove downwards, 19 bulldoze the in-process downwards at clamp plate 19 and make the debris of scraping off can't bond on scraper 16.

Example 4

Referring to fig. 1-6, as another preferred embodiment of the present invention, an upper end of one side of a fixing plate 5 is communicated with an air duct 22 on the basis of embodiment 3, one end of the air duct 22 is connected with a fan 23, the fan 23 is used for pumping out dust in the printer body 1 after being electrified, an upper end of the air duct 22 is connected with an anion generator 24, the anion generator 24 is used for generating anions after being electrified, the generated anions and dust particles are contacted, the particles are settled at the bottom end of the air duct 22, the anion generator 24 is connected with a spray head 25, the spray head 25 is used for spraying the anions into the air duct 22, the spray head 25 extends into the air duct 22, the dust screen 26 is connected in the air duct 22, the dust screen 26 is used for filtering dust in air and preventing the dust from entering air, and the dust screen 26 and the spray head 25 are located on the same side.

The bottom end of the interior of the air duct 22 is connected with a second fixed block 34, the second fixed block 34 is located between the dust screen 26 and the spray nozzle 25, a second reciprocating screw 35 is rotatably connected to the second fixed block 34, the second reciprocating screw 35 is used for driving a push plate 38 to move after rotating, one end of the second reciprocating screw 35 is connected with a fifth rotating shaft 36, one end of the fifth rotating shaft 36 extends into the fixed plate 5, one end of the fifth rotating shaft 36 is connected with a fourth bevel gear 37, the fourth bevel gear 37 is used for meshing and connecting with a transmission mechanism, two sides of the bottom end of the air duct 22 are both communicated with hollow boxes 40, each hollow box 40 is inserted with a second collecting box 41, the second collecting boxes 41 are used for collecting dust settled in the interior of the air duct 22, a handle is connected to the second collecting boxes 41, a push plate 38 is connected to the second reciprocating screw 35, the push plate 38 is used for reciprocating along the length direction of the air duct 22 under the driving of the second reciprocating screw 35, during the movement, the dust at the bottom of the air duct 22 is pushed into the second collecting box 41, the bottom end of the push plate 38 is in contact with the bottom end of the interior of the air duct 22, a guide rod 39 is inserted on the push plate 38, the guide rod 39 is used for preventing the push plate 38 from turning over during the movement, the guide rod 39 is parallel to the second reciprocating screw 35, one end of the guide rod 39 is connected with the second fixing block 34, the other end of the guide rod 39 is connected with the air duct 22, the fourth bevel gear 37 is connected with a transmission mechanism, the transmission mechanism is used for driving the fourth bevel gear 37 to rotate so as to drive the second reciprocating screw 35 to rotate, the transmission mechanism is connected with the first rotary pump 7, the transmission mechanism comprises a first gear 8, the first gear 8 is used for driving the second gear 28 to rotate, the first gear 8 is connected with the first rotary pump 7, a third rotating shaft 27 is rotatably connected in the fixing plate 5, the third rotating shaft 27 is used for driving the, the third rotating shaft 27 is parallel to the first reciprocating screw 9, the third rotating shaft 27 is connected with a second gear 28, the second gear 28 is connected with the first gear 8 in a meshed mode, the bottom end inside the fixing plate 5 is connected with a first fixing block 29, the first fixing block 29 is used for fixing the third rotating shaft 27, the third rotating shaft 27 penetrates through the first fixing block 29, one end of the third rotating shaft 27 is connected with a first bevel gear 30, the first bevel gear 30 is used for driving a second bevel gear 32 to rotate, the bottom end inside the fixing plate 5 is rotatably connected with a fourth rotating shaft 31, the fourth rotating shaft 31 is used for driving the third bevel gear 33 to rotate, the fourth rotating shaft 31 is connected with a second bevel gear 32, the second bevel gear 32 is connected with the first bevel gear 30 in a meshed mode, the upper end of the fourth rotating shaft 31 is connected with a third bevel gear 33, and the fourth rotating shaft 31.

The working process is as follows: the control box 4 controls the fan 23 and the anion generator 24 to start, the fan 23 is powered on and starts to suck dust particles in the printer body 1 into the air duct 22, the anion generator 24 starts to spray anions into the air duct 22 through the spray nozzle 25, the generated anions are contacted with the dust particles in the air duct 22 and then settled at the bottom end of the air duct 22, the first rotary pump 7 rotates to drive the first gear 8 to rotate, the first gear 8 drives the third rotary shaft 27 to rotate, the third rotary shaft 27 drives the first bevel gear 30 to rotate, the first bevel gear 30 drives the second bevel gear 32 to rotate, the second bevel gear 32 drives the fourth rotary shaft 31 to rotate, the fourth rotary shaft 31 drives the third bevel gear 33 to rotate, the third bevel gear 33 drives the fourth bevel gear 37 to rotate, the fourth bevel gear 37 drives the fifth rotary shaft 36 to rotate, the fifth rotary shaft 36 drives the second reciprocating screw 35 to rotate, under the guidance of the guide rod 39 and the driving of the second reciprocating screw 35, the push plate 38 reciprocates along the length direction of the air duct 22, and pushes the dust at the bottom of the air duct 22 into the second collection box 41 in the process of movement.

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.

Claims (6)

1. The utility model provides a 3D printer that can clear up automatically, includes printer body (1), the bottom of printer body (1) is connected with base (2), printer body (1) one side is connected with control box (4), it carries thing board (3) to connect in printer body (1), its characterized in that, one side intercommunication of printer body (1) has fixed plate (5), one side bottom of fixed plate (5) is connected with first motor (6), the output drive of first motor (6) is connected with first commentaries on classics and takes out (7), the one end of first commentaries on classics takes out (7) extends to in the fixed plate (5), the one end of first commentaries on classics takes out (7) is connected with first reciprocating screw rod (9), first reciprocating screw rod (9) with carry the length direction of thing board (3) and parallel, the rotatable connection of one end of first reciprocating screw rod (9) fixed plate (5), the printer is characterized in that a moving frame (10) is connected onto the first reciprocating screw (9), a guide mechanism is connected to the bottom end inside the fixed plate (5), the guide mechanism is connected with the moving frame (10), a second motor (11) is connected onto the moving frame (10), a power box is connected onto the moving frame (10), a battery block is connected into the power box, the second motor (11) is connected with the battery block through a wire, a second rotating shaft (12) is connected onto the output end of the second motor (11) in a driving manner, a hairbrush component (13) is connected onto the second rotating shaft (12), two parallel baffles (14) are connected onto one side of the hairbrush component (13), the baffles (14) are elastic plates, the distance between the two baffles (14) is matched with the width of the carrying plate (3), and a collecting hole (20) is formed in the bottom end inside the printer body (1), a first collecting box (21) is inserted into the base (2), and the first collecting box (21) is located right below the collecting hole (20).

2. The 3D printer capable of being automatically cleaned according to claim 1, wherein the guide mechanism comprises a limiting frame (42), the limiting frame (42) is connected with the fixing plate (5), a connecting rod (43) is slidably connected to the upper end of the limiting frame (42), and the upper end of the connecting rod (43) is connected with the moving frame (10).

3. The 3D printer capable of automatically cleaning is characterized in that two fixing columns (15) which are arranged in parallel are connected to the other side of the brush assembly (13), a scraper (16) is connected to each fixing column (15), the bottom end of each scraper (16) and the bottom end of the brush assembly (13) are in the same straight line, two fixing tubes (17) which are arranged in parallel are connected to each scraper (16), a movable rod (18) is slidably connected to one end of each fixing tube (17), a spring is connected to each fixing tube (17), one end of each spring is connected to each movable rod (18), one end of each movable rod (18) is connected to a pressing plate (19), and one side of each pressing plate (19) is in contact with each scraper (16).

4. The 3D printer capable of automatically cleaning according to claim 1, wherein an air duct (22) is communicated with the upper end of one side of the fixing plate (5), one end of the air duct (22) is connected with a fan (23), the upper end of the air duct (22) is connected with a negative ion generator (24), the negative ion generator (24) is connected with a spray head (25), the spray head (25) extends into the air duct (22), a dust screen (26) is connected in the air duct (22), the dust screen (26) and the spray head (25) are positioned on the same side, the bottom end of the interior of the air duct (22) is connected with a second fixing block (34), the second fixing block (34) is positioned between the dust screen (26) and the spray head (25), and a second reciprocating screw (35) is rotatably connected to the second fixing block (34), one end of the second reciprocating screw rod (35) is connected with a fifth rotating shaft (36), one end of the fifth rotating shaft (36) extends into the fixing plate (5), one end of the fifth rotating shaft (36) is connected with a fourth bevel gear (37), two sides of the bottom end of the air guide tube (22) are communicated with hollow boxes (40), each hollow box (40) is inserted with a second collecting box (41), the second reciprocating screw rod (35) is connected with a push plate (38), the bottom end of the push plate (38) is contacted with the bottom end of the inner part of the air guide tube (22), a guide rod (39) is inserted on the push plate (38), the guide rod (39) is parallel to the second reciprocating screw rod (35), one end of the guide rod (39) is connected with the second fixing block (34), the other end of the guide rod (39) is connected with the air guide tube (22), the fourth bevel gear (37) is connected with a transmission mechanism, and the transmission mechanism is connected with the first rotary pump (7).

5. The 3D printer capable of automatically cleaning according to claim 1, wherein the transmission mechanism comprises a first gear (8), the first gear (8) is connected with the first rotary drawer (7), a third rotating shaft (27) is rotatably connected in the fixing plate (5), the third rotating shaft (27) is parallel to the first reciprocating screw (9), a second gear (28) is connected on the third rotating shaft (27), the second gear (28) is engaged with the first gear (8), a first fixing block (29) is connected at the inner bottom end of the fixing plate (5), the third rotating shaft (27) penetrates through the first fixing block (29), a first bevel gear (30) is connected at one end of the third rotating shaft (27), a fourth rotating shaft (31) is rotatably connected at the inner bottom end of the fixing plate (5), the fourth rotating shaft (31) is connected with a second bevel gear (32), the second bevel gear (32) is in meshed connection with the first bevel gear (30), the upper end of the fourth rotating shaft (31) is connected with a third bevel gear (33), and the fourth rotating shaft (31) is in meshed connection with the fourth bevel gear (37).

6. 3D printer according to claim 1, characterized in that said first collecting box (21) is a plastic box.

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