CN116749372A - 3D printing material supply stirring equipment and application method thereof - Google Patents

Abstract

The application discloses a 3D printing material supply stirring device, which belongs to the technical field of 3D printing material treatment and particularly relates to a 3D printing material supply stirring device. This 3D prints material supply agitated vessel has solved and can only carry out the stirring of single dimension, and the puddler can only carry out the syntropy rotation along with the main shaft promptly to make the raw materials that is located upper portion and bottom be difficult to the quick mixing, thereby make the miscibility of raw materials not good enough, and when dispersing the raw materials, though disperse through upper and lower shake and dispersion impeller, but be difficult to carry out quick breakage to some great raw materials, thereby make the raw materials easily with the problem that the dispersion impeller was blockked up.

Description

3D printing material supply stirring equipment and application method thereof

Technical Field

The application relates to the technical field of 3D printing material treatment, in particular to 3D printing material supply stirring equipment and a using method thereof.

Background

In the manufacturing process of some parts, the use of a mold for manufacturing cannot meet the needs of people, so people manufacture the parts by 3D printing, and during 3D printing, the supply stirring of raw materials is particularly important, and the existing 3D printing material supply stirring equipment still has some defects in use, such as:

the conventional 3D printing material supply stirring equipment can only stir in a single dimension when stirring, namely, the stirring rod can only rotate along the same direction with the main shaft, so that raw materials at the upper part and the bottom are difficult to mix quickly, the mixing degree of the raw materials is poor, and when the raw materials are dispersed, although the raw materials are dispersed through up-and-down shaking and the dispersing disc, the raw materials are difficult to break quickly, so that the dispersing disc is easy to be blocked by the raw materials.

Disclosure of Invention

This section is intended to summarize some aspects of embodiments of the application and to briefly introduce some preferred embodiments, which may be simplified or omitted in this section, as well as the description abstract and the title of the application, to avoid obscuring the objects of this section, description abstract and the title of the application, which is not intended to limit the scope of this application.

The present application has been made in view of the problems existing in the existing 3D printing material supply stirring apparatus.

In order to solve the technical problems, according to one aspect of the present application, the following technical solutions are provided: the utility model provides a material supply agitated vessel is printed to D, includes the agitator tank, the inside of agitator tank is provided with the connecting rod, the inside of agitator tank is provided with the connection net frame, the surface of connecting rod is provided with the connecting block, the surface bolt fixedly connected with protection frame of connecting rod, the inside of protection frame is provided with the bracing piece.

As a preferable mode of the D-printed matter supply stirring apparatus according to the application, wherein: the stirring tank and the connecting rod form a rotating structure, the connecting rod and the connecting block form a clamping sliding structure, a discharging pipe is fixedly connected to the lower surface of the stirring tank through bolts, a feeding pipe is fixedly connected to the upper surface of the stirring tank through bolts, a supporting block is fixedly connected to the inner bolt of the stirring tank, and a rotating rod is rotatably connected to the inner portion of the stirring tank;

further, the connecting rod drives the rotation of connecting block, thereby the condition that the connecting block can reduce the raw materials whereabouts in-process and take place to block up appears, and then guaranteed that the raw materials can be quick by mixing, simultaneously through the blocking of supporting shoe, make whole device when promoting the raw materials, the condition that the raw materials entered into the supporting shoe lower surface can not appear appears, and then reduced the waste of raw materials, thereby guarantee that follow-up print operation can go on smoothly.

As a preferable mode of the D-printed matter supply stirring apparatus according to the application, wherein: the supporting block and the limiting rod form a sliding structure, the lower surface of the supporting block is attached to the upper surface of the pushing block, the pushing block and the stirring tank form a sliding structure, a first spring is fixedly connected to the outer surface of the pushing block through bolts, and the tail end of the first spring is fixedly connected with the stirring tank through bolts;

further, through the slip of gag lever post to make the impeller block can slide inside the agitator tank, and then make the impeller block can carry out the propelling movement to the raw materials, and then make whole device when ejection of compact and mixed raw materials, the ejection of compact and the mixing that the raw materials can be more quick, and then improved whole device's ejection of compact and mixing efficiency, and deformation through first spring can make the impeller block resume initial position, thereby make the impeller block can last the operation, and then guaranteed whole device's stirring efficiency.

As a preferable mode of the D-printed matter supply stirring apparatus according to the application, wherein: the outer surface of the limiting rod is rotationally connected with a supporting ball, the limiting rod and the connecting net frame form a sliding structure, a rotating rope is fixedly connected to the lower surface bolt of the limiting rod, and the tail end of the rotating rope is fixedly connected with the pushing block;

further, through the rotation of supporting ball on the gag lever post to make connect the net frame when rotating, reduced the frictional force with the gag lever post, thereby make connect the net frame and can be better rotate, simultaneously through the pulling of rotating the rope, make the impeller block can remove, thereby make the impeller block can not be under spring deformation and roll-off, and then reduced the interference that the raw materials moved to the impeller block, thereby guaranteed that whole device ejection of compact and stability when mixing the raw materials go on.

As a preferable mode of the D-printed matter supply stirring apparatus according to the application, wherein: the upper end bolt of the connecting rod is fixedly connected with the shaft end bolt of the servo motor, the servo motor is fixedly connected with the upper surface of the stirring tank in a bolt manner, the outer surface bolt of the connecting rod is fixedly connected with a first bevel gear, and the outer surface bolt of the connecting rod is fixedly connected with a connecting gear;

further, the servo motor drives the connecting rod to rotate, so that the first bevel gear and the connecting gear rotate, the whole device can turn the raw materials, the raw materials can be subjected to dispersion operation, the whole device can be used for mixing the raw materials uniformly more rapidly, and the stirring efficiency of the whole device is improved.

As a preferable mode of the D-printed matter supply stirring apparatus according to the application, wherein: the lower surface of the connecting net frame is provided with a limit groove, the inner bolt of the connecting net frame is fixedly connected with a fixed block, the fixed block is connected with the connecting gear in a meshed manner, the outer surface of the connecting net frame is fixedly connected with a connecting rod through a bolt, and the connecting rod and the fixed table form a sliding structure;

further, through the meshing of fixed block and connecting gear, thereby make the connection screen frame can carry out dispersion operation to the raw materials, and then make the raw materials can more dispersed by the stirring, make the raw materials by quick stirring, limit through the connecting rod simultaneously, when making the fixed block remove on the agitator tank, can guarantee to connect the screen frame and can continuously rotate, thereby can not influence the operation of breaking up of connection screen frame to the material.

As a preferable mode of the D-printed matter supply stirring apparatus according to the application, wherein: the fixed block and the stirring tank form a vertical sliding structure, the upper surface of the fixed block is fixedly connected with a fixed rope, the fixed rope is fixedly connected with the torsion spring fixed wheel in a winding way, the torsion spring fixed wheel and the stirring tank form a rotating structure, the torsion spring fixed wheel is symmetrically distributed in a central axis of the connecting net frame, and the inside of the connecting net frame is hollow;

further, through the automatic winding and unwinding of fixed rope by torsion spring tight pulley to make the fixed block can stabilize and carry out up-and-down motion, and then make the connection net frame shake from top to bottom to the raw materials, and then make the dropping that the raw materials can be more dispersed, thereby guarantee that the raw materials can be quick by the stirring.

As a preferable mode of the D-printed matter supply stirring apparatus according to the application, wherein: the outer surface of the connecting block is fixedly connected with a connecting rod through bolts, and the outer surface of the connecting rod is attached to the inner side surface of the connecting net frame;

further, the connecting net frame is internally provided with the clamping rods in a sliding manner, so that the raw materials clamped on the connecting net frame can be smashed by the clamping rods, the occurrence of the condition that the connecting net frame is blocked by meshes is reduced, the dispersing capacity of the connecting net frame on the raw materials is further ensured, and the whole device can better stir the raw materials.

As a preferable mode of the D-printed matter supply stirring apparatus according to the application, wherein: the inner part of the protection frame is provided with a containing groove, the protection frame and the support rod form a rotating structure, one end bolt of the support rod is fixedly connected with a second bevel gear, the second bevel gear is connected with the first bevel gear in a meshed manner, the other end bolt of the support rod is fixedly connected with a stirring rod, the outer surface of the support rod is provided with a containing groove, the inner bolt of the containing groove is fixedly connected with a second spring, the second spring is fixedly connected with a sliding block in a bolt manner, the sliding block and the containing groove form a sliding structure, and the sliding block and the clamping ball form a rotating structure;

further, through the rotation of bracing piece on the protection frame, simultaneously under the blocking of protection frame, make the block ball rotate to make the sliding block slide and extrude the second spring in the standing groove inside, and then make the block ball can be intermittent type and holding tank block, the striking that thereby produces can make debris on the puddler drop, and through the meshing of first bevel gear and second bevel gear, make the puddler can automatic rotation, thereby make the puddler turn the raw materials, and then the quilt that the raw materials can be quick is mixed about making, improved the stirring efficiency of whole device.

The using method of the 3D printing material supply stirring equipment comprises the following steps:

s1: putting raw materials into a feeding pipe, then opening a servo motor, driving a connecting gear and a first bevel gear to rotate by the servo motor, driving a connecting screen frame to rotate by the connecting gear through meshing with a fixed block, enabling the connecting screen frame to scatter the raw materials, and simultaneously driving a connecting block to rotate by a connecting rod, so that the raw materials on the connecting screen frame are scattered by a connecting rod;

s2: the materials falling from the connecting net frame enter the lower side of the connecting net frame, the first bevel gear drives the second bevel gear to rotate, so that the supporting rod rotates on the protective frame, and meanwhile, the supporting rod drives the stirring rod to rotate, and the stirring rod mixes and stirs the materials;

s3: when the connecting net frame rotates, the limiting rod moves downwards under the dead weight, the pushing block pushes the raw materials under the deformation of the second spring, and the mixed raw materials are discharged through the discharging pipe by the rotation of the connecting rod.

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

1. this 3D prints material and supplies with agitated vessel through connecting block and the connection screen frame that sets up, drive the connecting rod through servo motor and rotate, thereby make the connecting gear can make connection screen frame and connecting rod counter-rotating under the meshing of fixed block, simultaneously the connecting rod drives connecting block and adapter rod syntropy rotation, thereby make connecting rod and connection screen frame counter-rotating, and then make the adapter rod can smash the operation to the raw materials of card on the connection screen frame, and then make the connection screen frame can be quick smash the material dispersion, and then guaranteed the stirring efficiency of whole device, simultaneously through the dead weight of connection screen frame, under the torsion of torsion spring fixed wheel, make the fixed rope can make the connection screen frame carry out up-and-down motion, and then guaranteed that the circumstances that the connection screen frame takes place the mesh jam appears, simultaneously when the up-and-down motion of connection screen frame, can drive the gag lever post, thereby make the rotation rope can carry out spacing to the impeller block, and then under the deformation of first spring, make the impeller block can promote the raw materials, thereby the whereabouts of raw materials is more smooth, and the raw materials of whole device has reduced the waste of raw materials inside the whole device simultaneously;

2. this 3D prints material supply agitated vessel passes through the guard frame and the bracing piece that set up, drive the rotation of second bevel gear through first bevel gear, thereby make the bracing piece can drive stirring and walk vertical rotation, simultaneously under the horizontal rotation of guard frame, make the puddler can overturn from top to bottom to the inside raw materials of agitator tank, and then make the raw materials that are located upper portion and the raw materials of lower part can be quick mix, thereby the mixing efficiency of whole device has been improved, and when mixing, automatic rotation simultaneously, can promote the raw materials, thereby need not use extra driving force and air current to make the raw materials drop, and then the working cost of whole device has been reduced, and simultaneously also reduced the cost of manufacture cost of whole device, the product competitiveness of whole device has been improved relatively.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the following detailed description will be given with reference to the accompanying drawings and detailed embodiments, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained from these drawings without inventive faculty for a person skilled in the art. Wherein:

FIG. 1 is a schematic perspective view of a 3D printing material supply stirring device according to the present application;

FIG. 2 is a schematic diagram of a schematic cross-sectional elevation view of a 3D printing material supply stirring apparatus according to the present application;

FIG. 3 is a schematic view of the structure of the 3D printing material supply stirring device shown in the part A of FIG. 2;

FIG. 4 is a schematic view of the 3D printing material supply stirring apparatus of the present application at B in FIG. 2;

FIG. 5 is a schematic view of the 3D printing material supply stirring apparatus of the present application at C in FIG. 2;

FIG. 6 is a schematic diagram of a side cross-sectional structure of a support bar of a 3D printing material supply stirring device according to the present application;

FIG. 7 is a schematic view showing the bottom view of a connecting screen frame of a 3D printing material supply stirring device according to the application;

fig. 8 is a schematic diagram of a structure of a connecting block of a 3D printing material supply stirring device according to the present application in a cross-sectional view.

Reference numerals in the drawings: 1. a stirring tank; 101. a discharge pipe; 102. a feed pipe; 103. a support block; 104. a pushing block; 105. a support ball; 106. a first spring; 107. a rotating lever; 108. a rotating rope; 109. a limit rod; 2. a connecting rod; 201. a servo motor; 202. a first bevel gear; 203. a connecting gear; 3. connecting a net frame; 301. a limit groove; 302. a fixed block; 303. a connecting rod; 304. a fixed table; 305. a fixing rope; 306. torsion spring fixed wheels; 4. a connecting block; 401. a clamping rod; 5. a protective frame; 501. a receiving groove; 6. a support rod; 601. a second bevel gear; 602. a stirring rod; 603. a sliding block; 604. a second spring; 605. a snap ball; 606. and (5) placing a groove.

Detailed Description

In order that the above objects, features and advantages of the application will be readily understood, a more particular description of the application will be rendered by reference to the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present application is not limited to the specific embodiments disclosed below.

Examples

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

As shown in fig. 1-8, a 3D prints material supply agitated vessel, including agitator tank 1, agitator tank 1's inside is provided with connecting rod 2, agitator tank 1's inside is provided with connection net frame 3, connecting rod 2's surface is provided with connecting block 4, connecting rod 2's surface bolt fixedly connected with guard frame 5, guard frame 5's inside is provided with bracing piece 6, rotation through connecting rod 2, thereby make connecting net frame 3 can rotate, thereby make connecting net frame 3 can break up the operation to the raw materials that falls, thereby make the raw materials can more quick even by the mixed, simultaneously under connecting net frame 3's dead weight, can carry out the up-and-down motion, and then make the raw materials can be by the shake from top to bottom, the circumstances that the net hole appears blocking on connecting net frame 3 has been reduced, and then make the raw materials can be better carry out the whereabouts, and simultaneously connecting rod 2's rotation, make connecting block 4 and connecting net frame 3 reverse rotation, thereby make the raw materials can be broken by connecting block 4, and then make 4 can guarantee the raw materials and break up the operation to the raw materials, and make the connecting rod 2 rotate down, and make the whole rotation device can take place under the connecting rod 2, and make the whole rotation device 2, and the whole rotation device can be rotated down through the connecting rod 2, and the rotation 1, and the whole rotation device can be rotated down under the connecting rod 2.

In this embodiment, the rotation structure is constituteed to agitator tank 1 and connecting rod 2, the connecting rod 2 constitutes block sliding structure with connecting block 4, the lower surface bolt fixedly connected with discharging pipe 101 of agitator tank 1, the upper surface bolt fixedly connected with inlet pipe 102 of agitator tank 1, the inside bolt fixedly connected with supporting shoe 103 of agitator tank 1, the inside rotation of agitator tank 1 is connected with dwang 107, drive the rotation of connecting block 4 through connecting rod 2, thereby make connecting block 4 can reduce the condition that the raw materials whereabouts in-process takes place to block up and appear, and then guaranteed that the raw materials can be quick mixed, simultaneously through the blocking of supporting shoe 103, make whole device when promoting the raw materials, the condition that the raw materials enter into supporting shoe 103 lower surface appears can not appear, and then reduced the waste of raw materials, thereby guarantee that follow-up printing operation can go on smoothly.

In this embodiment, the sliding structure is formed by the supporting block 103 and the limiting rod 109, the lower surface of the supporting block 3 is attached to the upper surface of the pushing block 104, the sliding structure is formed by the pushing block 104 and the stirring tank 1, the outer surface of the pushing block 104 is fixedly connected with the first spring 106 through bolts, the tail end of the first spring 106 is fixedly connected with the stirring tank 1 through the sliding of the limiting rod 109, so that the pushing block 104 can slide in the stirring tank 1, the pushing block 104 can push raw materials, the raw materials can be discharged and mixed more rapidly when the whole device discharges and mixes the raw materials, the discharging and mixing efficiency of the whole device are improved, and the pushing block 104 can be restored to the initial position through the deformation of the first spring 106, so that the pushing block 104 can continuously operate, and the stirring efficiency of the whole device is ensured.

In this embodiment, the outer surface of the limiting rod 109 is rotationally connected with the supporting ball 105, the limiting rod 109 and the connecting net frame 3 form a sliding structure, the lower surface bolt of the limiting rod 109 is fixedly connected with the rotating rope 108, the tail end of the rotating rope 108 is fixedly connected with the pushing block 104, and the friction force between the connecting net frame 3 and the limiting rod 109 is reduced when the connecting net frame 3 rotates through the rotation of the limiting rod 109, so that the connecting net frame 3 can rotate better, and meanwhile, the pushing block 104 can move through the pulling of the rotating rope 108, so that the pushing block 104 cannot slide out under the deformation of a spring, the interference of raw materials on the movement of the pushing block 104 is reduced, and the stable discharging of the whole device and the stable mixing of raw materials are ensured.

In this embodiment, the upper end bolt of connecting rod 2 and the axle head bolt fixed connection of servo motor 201, the connected mode between servo motor 201 and the upper surface of agitator tank 1 is bolt fixed connection, the first bevel gear 202 of surface bolt fixedly connected with of connecting rod 2, the surface bolt fixedly connected with connecting gear 203 of connecting rod 2 drives the rotation of connecting rod 2 through servo motor 201, thereby make first bevel gear 202 and connecting gear 203 rotate, and then make whole device can overturn the raw materials in the time of, can carry out dispersion operation to the raw materials, and then make whole device can be more quick raw materials misce bene, and then improved whole device's stirring efficiency.

In this embodiment, the lower surface of the connection net frame 3 is provided with the limit groove 301, the internal bolt of the connection net frame 2 is fixedly connected with the fixed block 302, the connection mode between the fixed block 302 and the connection gear 203 is engaged connection, the bolt fixedly connected with the connection rod 303 on the outer surface of the connection net frame 3, the connection rod 303 and the fixed table 304 form a sliding structure, the connection net frame 3 can carry out dispersion operation on raw materials through the engagement of the fixed block 302 and the connection gear 203, the raw materials can be stirred more dispersedly, the raw materials are stirred uniformly rapidly, and meanwhile, the connection net frame 3 can be guaranteed to rotate continuously when the fixed block 304 moves on the stirring tank 1 through the limit of the connection rod 303, so that the scattering operation of the connection net frame 3 on the materials can not be influenced.

In this embodiment, the fixed block 304 and the stirring tank 1 form a vertical sliding structure, the upper surface of the fixed block 304 is fixedly connected with a fixed rope 305, the connection mode between the fixed rope 305 and the torsion spring fixed wheel 306 is winding fixed connection, the torsion spring fixed wheel 306 and the stirring tank 1 form a rotating structure, the torsion spring fixed wheel 306 is distributed in a central symmetry manner about the central axis of the connecting net frame 3, the inside of the connecting net frame 3 is hollow, and the fixed rope 305 is automatically retracted by the torsion spring fixed wheel 306, so that the fixed block 304 can stably move up and down, the connecting net frame 3 can shake the raw materials up and down, and the raw materials can fall more dispersedly, so that the raw materials can be stirred uniformly rapidly.

In this embodiment, the surface bolt fixedly connected with block rod 401 of connecting block 4, the surface of block rod 401 laminates with the inboard surface of connecting screen frame 3 mutually, slides inside connecting screen frame 3 through block rod 401 to make the raw materials that blocks on the connecting screen frame 3 can be smashed by block rod 401, thereby reduced the condition that connecting screen frame 3 appears the mesh and stop up and appear, and then guaranteed the dispersibility of connecting screen frame 3 to the raw materials, and then make the whole device can be better stir the operation to the raw materials.

In this embodiment, the holding tank 501 has been seted up to the inside of guard frame 5, guard frame 5 and bracing piece 6 constitute rotating structure, the one end bolt fixedly connected with second bevel gear 601 of bracing piece 6, connected mode between second bevel gear 601 and the first bevel gear 201 is the meshing connection, the puddler 602 has been seted up to the other end bolt fixedly connected with bracing piece 6, standing groove 606 has been seted up to the surface of bracing piece 6, the inside bolt fixedly connected with second spring 604 of standing groove 606, the connected mode between second spring 604 and the sliding block 603 is bolt fixedly connected, sliding block 603 and standing groove 606 constitute sliding structure, sliding block 603 and block ball 605 constitute rotating structure, through the rotation of bracing piece 6 on guard frame 5, make block ball 605 rotate under the blocking of guard frame 5 simultaneously, thereby make sliding block 603 slide and extrude the second spring in the standing groove 606 inside, and then make block ball 605 intermittent type and holding tank 501 block, the striking that thereby produces can make debris on puddler 602 drop, and through the automatic meshing of first bevel gear 201 and second bevel gear 603, thereby make the whole stirring device can be rotated down, and the raw materials can be mixed, and the stirring device is rotated down, and raw materials can be mixed fast and stirred.

It should be noted that, when the 3D printed material is required to be stirred, the raw material is put into through the feeding pipe 102, then the servo motor 201 is started, the servo motor 201 drives the connecting rod 2 to rotate, so that the connecting gear 203 drives the connecting net frame 3 to rotate through the fixing block 302, the raw material is dispersed, under the centrifugal force and the gravity effect, the connecting net frame 3 moves downwards, so that the fixing block 302 slides on the outer surface of the connecting gear 203, meanwhile, the connecting block 4 slides on the connecting rod 2, at this time, the fixing rope 305 is pulled, the torsion spring fixing wheel 306 rotates, the fixing table 304 slides, the connecting net frame 3 can stably rotate on the fixing table 304 under the limit of the connecting rod 303, meanwhile, the first bevel gear 202 drives the second bevel gear 601 to rotate, so that the supporting rod 6 drives the stirring rod 602 to automatically rotate, and the supporting rod 6 rotates on the protecting frame 5, and under the blocking of the protecting frame 5, the clamping ball 605 rotates, so that the sliding block 603 slides inside the placing groove 606 and extrudes the second spring, so that the clamping ball 605 can be clamped with the intermittent clamping ball 501, and can drop down on the stirring rod 602;

when the connecting net frame 3 moves downwards, the limiting rod 109 moves downwards, and meanwhile, the supporting ball 105 reduces the friction force between the limiting rod 109 and the connecting net frame 3, so that the rotating rope 108 is loosened by the downwards movement of the limiting rod 109, the pushing block 104 slides at the bottom of the stirring tank 1 under the deformation action of the first spring 106, the pushing block 104 can push materials, the materials can be smoothly stirred and discharged from the discharging pipe 101, and the pushing block 104 can not enter the lower surface of the supporting block 103 when moving horizontally under the limit of the supporting block 103, so that the interference of the materials on the movement of the pushing block 104 is reduced.

Although the application has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the application. In particular, the features of the disclosed embodiments may be combined with each other in any manner as long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of omitting the descriptions and saving resources. Therefore, it is intended that the application not be limited to the particular embodiment disclosed, but that the application will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. 3D prints material supply agitated vessel, including agitator tank (1), its characterized in that: the inside of agitator tank (1) is provided with connecting rod (2), the inside of agitator tank (1) is provided with connection net frame (3), the surface of connecting rod (2) is provided with connecting block (4), the surface bolt fixedly connected with protection frame (5) of connecting rod (2), the inside of protection frame (5) is provided with bracing piece (6).

2. A 3D printed matter feed stirring device as claimed in claim 1, wherein: the stirring tank is characterized in that the stirring tank (1) and the connecting rod (2) form a rotating structure, the connecting rod (2) and the connecting block (4) form a clamping sliding structure, a discharging pipe (101) is fixedly connected to the lower surface of the stirring tank (1) through bolts, a feeding pipe (102) is fixedly connected to the upper surface of the stirring tank (1) through bolts, a supporting block (103) is fixedly connected to the inner bolt of the stirring tank (1), and a rotating rod (107) is connected to the inner rotation of the stirring tank (1).

3. A 3D printed matter feed stirring device as claimed in claim 2, wherein: the supporting block (103) and the limiting rod (109) form a sliding structure, the lower surface of the supporting block (3) is attached to the upper surface of the pushing block (104), the pushing block (104) and the stirring tank (1) form a sliding structure, a first spring (106) is fixedly connected to the outer surface of the pushing block (104) through bolts, and the tail end of the first spring (106) is fixedly connected with the stirring tank (1) through bolts.

4. A 3D printing material supply stirring apparatus as defined in claim 3 wherein: the outer surface of gag lever post (109) rotates and is connected with supporting ball (105), sliding structure is constituteed with connecting net frame (3) to gag lever post (109), the lower surface bolt fixedly connected with of gag lever post (109) rotates rope (108), the terminal of rotating rope (108) is fixed connection with the connected mode between impeller block (104).

5. A 3D printed matter feed stirring device as claimed in claim 1, wherein: the upper end bolt of connecting rod (2) is fixed with the axle head bolt fixed connection of servo motor (201), the connected mode between upper surface of servo motor (201) and agitator tank (1) is bolt fixed connection, the surface bolt fixed connection of connecting rod (2) has first bevel gear (202), the surface bolt fixed connection of connecting rod (2) has connecting gear (203).

6. The 3D printing material supply stirring apparatus of claim 5, wherein: limiting grooves (301) are formed in the lower surface of the connecting net frame (3), fixing blocks (302) are fixedly connected to the inner bolts of the connecting net frame (2), the connecting mode between the fixing blocks (302) and the connecting gears (203) is meshed connection, connecting rods (303) are fixedly connected to the outer surface of the connecting net frame (3) through bolts, and the connecting rods (303) and the fixing tables (304) form a sliding structure.

7. The 3D printing material supply stirring apparatus as defined in claim 6 wherein: the utility model discloses a vertical sliding structure is constituteed with agitator tank (1) to fixed block (304), the upper surface fixedly connected with fixed rope (305) of fixed block (304), the connected mode between fixed rope (305) and torsion spring tight pulley (306) is winding fixed connection, torsion spring tight pulley (306) and agitator tank (1) constitute rotating-structure, torsion spring tight pulley (306) are central symmetry about the axis of connecting net frame (3) and distribute, the inside of connecting net frame (3) is the cavity form.

8. A 3D printing material supply stirring apparatus as defined in claim 1 wherein: the outer surface bolt fixedly connected with block pole (401) of connecting block (4), the surface of block pole (401) is laminated with the inboard surface of connection screen frame (3).

9. A 3D printing material supply stirring apparatus as defined in claim 5 wherein: the inside of guard frame (5) has been seted up holding tank (501), guard frame (5) and bracing piece (6) constitute revolution mechanic, the one end bolt fixedly connected with second bevel gear (601) of bracing piece (6), the connected mode between second bevel gear (601) and first bevel gear (201) is the meshing and is connected, the other end bolt fixedly connected with puddler (602) of bracing piece (6), standing groove (606) have been seted up to the surface of bracing piece (6), the inside bolt fixedly connected with second spring (604) of standing groove (606), the connected mode between second spring (604) and slider (603) is bolt fixed connection, slider (603) and standing groove (606) constitute sliding structure, sliding block (603) and block ball (605) constitute revolution mechanic.

10. A method of using the 3D printed matter supply stirring device of any one of claims 1 to 9, characterized in that the method comprises the steps of:

s1: raw materials are put into the feeding pipe (102), then a servo motor (201) is opened, the servo motor (201) drives a connecting gear (203) and a first bevel gear (202) to rotate, the connecting gear (203) drives a connecting net frame (3) to rotate through meshing with a fixed block (302), the connecting net frame (3) is enabled to scatter the raw materials, meanwhile, a connecting rod (2) drives a connecting block (4) to rotate, and a clamping rod (401) is enabled to scatter the raw materials on the connecting net frame (3);

s2: the materials falling from the connecting net frame (3) enter the lower side of the connecting net frame (3), the first bevel gear (202) drives the second bevel gear (601) to rotate, the supporting rod (6) rotates on the protective frame (5), meanwhile, the supporting rod (6) drives the stirring rod (602) to rotate, and the stirring rod (602) mixes and stirs the raw materials;

s3: when the connecting net frame (3) rotates, the limiting rod (109) moves downwards under the dead weight, the pushing block (104) pushes the raw materials under the deformation of the second spring (604), and the mixed raw materials are discharged through the discharging pipe (101) by the rotation of the connecting rod (2).