CN110696360B

CN110696360B - Mechanical product shaping 3D printer of drawing a design

Info

Publication number: CN110696360B
Application number: CN201910968154.2A
Authority: CN
Inventors: 裴未迟; 王璐; 张鑫韬; 刘乃江; 苏立业
Original assignee: North China University of Science and Technology
Current assignee: North China University of Science and Technology
Priority date: 2019-10-12
Filing date: 2019-10-12
Publication date: 2021-05-04
Anticipated expiration: 2039-10-12
Also published as: CN110696360A; ZA202103640B; WO2021068483A1

Abstract

The invention relates to a mechanical product forming and proofing 3D printer, wherein a shell frame is installed at the lower end of a printer body, a placing opening is formed in the upper side of the front end of the shell frame, a discharging opening is formed in the lower side of the front end of the shell frame, a rotating device is arranged between the inner walls of the shell frame, and a pushing device is arranged at the rear end of the shell frame. The invention can solve the following problems of a 3D printer used for forming and proofing the existing mechanical product, a printed 3D product needs to be stood for cooling so that the printed product can be removed after being reinforced, the 3D printer cannot perform continuous printing operation in operation, b the residue at the printing position needs to be manually cleared, the manual clearing is incomplete, and the printed product cannot meet the production requirement due to the residue accumulated at the printing position, thereby causing material waste.

Description

Mechanical product shaping 3D printer of drawing a design

Technical Field

The invention relates to the technical field of 3D printing equipment, in particular to a mechanical product molding and proofing 3D printer.

Background

3D prints one kind of rapid prototyping technique, it is one kind and uses digital model file as the basis, but the technique of adhesive material such as powdered metal or plastics, constructs the object through the mode of layer-by-layer printing, accomplishes mechanical product shaping operation of drawing a design through the 3D printer and can practice thrift manufacturing cost.

However, the 3D product that the present mechanical product shaping was used as a prototype has following difficult problems, a 3D product that the printing was accomplished need to stand to cool down and make the product of printing reinforce the back removable, and the 3D printer can't carry out the continuity print job in the operation, b needs the manual work to clear away the residue of printing position department, and the manual work clearance is incomplete, and the residue that the printing position was deposited leads to the product of printing to not reach the production requirement, causes the material waste.

For the technical problems existing in the use process of the 3D printer, persons in the related technical field make adaptive improvements after research and study, for example, the metal 3D printer of the chinese patent with patent number 2018108213752 enhances the effects of rapid heating and cooling of the printed metal material, and provides a guarantee for the printing operation, but does not mention the problems of the 3D printer used for forming and proofing the existing mechanical products mentioned above.

Disclosure of Invention

In order to solve the problems, the invention provides a mechanical product molding and proofing 3D printer which can solve the problems of the 3D printer used for mechanical product molding and proofing mentioned above.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a mechanical product forming and proofing 3D printer comprises a printer body, wherein a shell frame is mounted at the lower end of the printer body, a placing opening is formed in the upper side of the front end of the shell frame, a discharging opening is formed in the lower side of the front end of the shell frame, a rotating device is arranged between the inner walls of the shell frame, and a pushing device is arranged at the rear end of the shell frame;

the rotating device comprises an annular slide way arranged on the outer wall of the left end of the shell frame, a driving mechanism is arranged on the inner wall of the annular slide way, an annular rotating plate is connected onto the annular slide way in a sliding fit mode, supporting mechanisms are uniformly arranged on the annular rotating plate along the circumferential direction of the annular rotating plate, rotating columns are arranged at the right end of each supporting mechanism through bearings, a direction adjusting rod is arranged between every two rotating columns, the right ends of the rotating columns are arranged on the auxiliary slide way in a sliding mode, the auxiliary slide way is arranged on the outer wall of the shell frame, and a locking mechanism is arranged between the inner walls;

the pushing device comprises a pushing hole formed in the rear side of the shell frame, a pushing frame is arranged in the pushing hole in a sliding fit mode, a rubber block is arranged at the front end of the pushing frame, the rear end of the pushing frame is connected with one end of a linkage rod through a pin shaft, the other end of the linkage rod is installed on the pushing rod through a pin shaft, the pushing rod is installed on a pushing cylinder, the pushing cylinder is fixed on the outer wall of the shell frame, and a blocking mechanism is arranged at the front end of the shell frame;

the supporting mechanism comprises supporting columns arranged on the annular rotating plate through bearings, supporting frames are arranged on the supporting columns, abutting spring rods are symmetrically arranged on the inner walls of the left end and the right end of each supporting frame, locking guide frames are arranged on the abutting spring rods, and the front end and the rear end of each locking guide frame are of arc structures;

the locking mechanism comprises a locking support installed between the inner walls of the shell frame, a lifting cylinder is installed at the upper end of the locking support, a locking frame is installed on the lifting cylinder, a groove matched with the supporting frame for use is formed in the upper end of the locking frame, adjusting grooves are symmetrically formed in the upper sides of the left end and the right end of the locking frame, a bidirectional cylinder is installed on the inner wall of the locking frame, adjusting branched chains are symmetrically arranged on the front side and the rear side of the bidirectional cylinder, and the adjusting branched chains are located in the adjusting grooves.

The driving mechanism comprises fixed gears which are uniformly arranged on the inner wall of the annular slide way, rotating gears are meshed on the fixed gears, the rotating gears are arranged on output shafts of driving motors, and the driving motors are arranged on the annular rotating plate through motor bases.

The locking hole has been seted up to braced frame's lower extreme, and braced frame's upper end middle part is provided with the guide slide, and the last slip of braced frame is provided with prints the backup pad, prints the backup pad and is I shape structure, and the lower extreme of printing the backup pad is provided with the guide slider that the cooperation guide slide moved.

The adjusting branch chain comprises an adjusting extrusion frame installed on a bidirectional cylinder, the adjusting extrusion frame is arranged in an adjusting groove in a sliding mode, a push plate is installed at the upper end of the adjusting extrusion frame through a spring rod, a fixing hole is formed in the upper end of the locking frame, a locking rod used for being inserted into the locking hole is arranged in the fixing hole through a spring, an extrusion rod with a step-shaped structure is arranged on the side wall of the adjusting extrusion frame, and the extrusion rod is abutted to the locking rod.

The check block mechanism comprises a material conveying frame arranged on the inner wall of the shell frame, check block holes are formed in the upper side of the rear end of the material conveying frame, check block blocks are arranged in the check block holes through springs, the lower ends of the check block blocks are abutted against a drive plate, the drive plate is arranged on the inner wall of the shell frame in a sliding mode, and the drive plate is connected to the pushing frame.

The material conveying frame is located at the discharge port, and the material conveying frame is of a downward inclined structure from back to front.

1. The invention can solve the following problems of a 3D printer used for forming and proofing the existing mechanical product, a printed 3D product needs to be stood for cooling so that the printed product can be removed after being reinforced, the 3D printer cannot perform continuous printing operation in operation, b the residue at the printing position needs to be manually cleared, the manual clearing is incomplete, and the printed product cannot meet the production requirement due to the residue accumulated at the printing position, thereby causing material waste.

2. The rotary device designed by the invention can continuously and uninterruptedly mold and sample a mechanical product by controlling the plurality of printing support plates to perform position conversion in operation, can provide sufficient cooling time for the printed product in a rotary operation mode, and ensures the stability of the whole printed product.

3. The replaceable printing support plate is used for printing products in operation, the position accuracy of the printing support plate in the printing operation and the operation stability can be guaranteed by adopting a mode that the locking mechanism is matched with the support frame in the operation, and the printed products are pushed out from the interior of the shell frame by the pushing device.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic view of the structure between the housing frame and the rotating device of the present invention;

FIG. 5 is an enlarged view of the invention taken from the direction I of FIG. 1.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 5, a mechanical product molding and proofing 3D printer includes a printer body 1, a housing frame 2 is mounted at the lower end of the printer body 1, a placing opening is opened at the upper side of the front end of the housing frame 2, a discharging opening is provided at the lower side of the front end of the housing frame 2, a rotating device 3 is provided between the inner walls of the housing frame 2, and a pushing device 4 is provided at the rear end of the housing frame 2;

the rotating device 3 comprises an annular slide way 31 arranged on the outer wall of the left end of the shell frame 2, a driving mechanism 32 is arranged on the inner wall of the annular slide way 31, an annular rotating plate 33 is connected to the annular slide way 31 in a sliding fit mode, supporting mechanisms 34 are uniformly arranged on the annular rotating plate 33 along the circumferential direction of the annular rotating plate, rotating columns 35 are arranged at the right ends of the supporting mechanisms 34 through bearings, a direction adjusting rod 36 is arranged between the two rotating columns 35, the right ends of the rotating columns 35 are arranged on an auxiliary slide way 37 in a sliding mode, the auxiliary slide way 37 is arranged on the outer wall of the shell frame 2, and a locking mechanism 38 is arranged between the inner walls of;

the driving mechanism 32 comprises fixed gears 321 uniformly arranged on the inner wall of the annular slide way 31, rotating gears 322 are meshed on the fixed gears 321, the rotating gears 322 are installed on output shafts of driving motors 323, and the driving motors 323 are installed on the annular rotating plates 33 through motor bases to rotate the annular rotating plates 33.

The driving motor 323 controls the rotation of the annular rotating plate 33 through a gear transmission manner, the annular rotating plate 33 drives the supporting frame 342 to rotate synchronously in rotation, and the direction adjusting rod 36 can ensure that the orientation of the supporting frame 342 is consistent all the time in the rotation operation in operation, so that the printed products on the printing supporting plate 345 can not be damaged.

The supporting mechanism 34 includes a supporting column 341 disposed on the annular rotating plate 33 through a bearing, a supporting frame 342 is mounted on the supporting column 341, abutting spring rods 343 are symmetrically mounted on inner walls of left and right ends of the supporting frame 342, a locking guide frame 344 is mounted on the abutting spring rods 343, front and rear ends of the locking guide frame 344 are both arc structures, and the locking guide frame 344 plays a role in guiding the printing supporting plate 345.

The lower end of the supporting frame 342 is provided with a locking hole, the middle part of the upper end of the supporting frame 342 is provided with a guide slide way, the supporting frame 342 is provided with a printing support plate 345 in a sliding manner, the printing support plate 345 is in an I-shaped structure, and the lower end of the printing support plate 345 is provided with a guide slide block which is matched with the guide slide way to move.

In the operation, the printing support plate 345 is inserted into the support frame 342 through the placing opening, so that the guide slide block is inserted into the guide slideway, and the printing support plate 345 abuts against the spring rod 343 in the plugging operation to control the locking guide frame 344 to abut and lock two sides of the printing support plate 345.

The locking mechanism 38 comprises a locking support 381 installed between the inner walls of the shell frame 2, a lifting cylinder 382 is installed at the upper end of the locking support 381, a locking frame 383 is installed on the lifting cylinder 382, a groove matched with the supporting frame 342 for use is formed in the upper end of the locking frame 383, adjusting grooves are symmetrically formed in the upper sides of the left end and the right end of the locking frame 383, a bidirectional cylinder 384 is installed on the inner wall of the locking frame 383, adjusting branched chains are symmetrically arranged on the front side and the rear side of the bidirectional cylinder 384, and the adjusting branched chains are located in the adjusting grooves.

The adjusting branch chain comprises an adjusting extrusion frame 385 arranged on a bidirectional air cylinder 384, the adjusting extrusion frame 385 is arranged in an adjusting groove in a sliding mode, a pushing plate 386 is arranged at the upper end of the adjusting extrusion frame 385 through a spring rod, a fixing hole is formed in the upper end of a locking frame 383, a locking rod 387 inserted into the locking hole is arranged in the fixing hole through a spring, an extrusion rod 388 of a stepped structure is arranged on the side wall of the adjusting extrusion frame 385, and the extrusion rod 388 abuts against the locking rod 387.

The annular rotating plate 33 controls the printing support plate 345 to rotate to a designated working position, the lifting cylinder 382 controls the locking frame 383 to move upwards to a proper working position, so that the support frame 342 is adjusted and moved into a groove of the locking frame 383, the bidirectional cylinder 384 drives the adjusting extrusion frame 385 to extrude the guide slider, the printing support plate 345 is adjusted to the working position in the adjusting operation, the accuracy of the placement position of the printing support plate 345 is ensured, the locking rod 387 is synchronously inserted into the locking hole by the extrusion rod 388 when the printing support plate 345 is adjusted to the working position, and the stability of the printing support plate 345 in the printing operation is ensured.

The pushing device 4 comprises a pushing hole formed in the rear side of the shell frame 2, a pushing frame 41 is arranged in the pushing hole in a sliding fit mode, a rubber block 42 is arranged at the front end of the pushing frame 41, the rear end of the pushing frame 41 is connected with one end of a linkage rod 43 through a pin shaft, the other end of the linkage rod 43 is installed on the pushing rod 44 through a pin shaft, the pushing rod 44 is installed on a pushing cylinder 45, the pushing cylinder 45 is fixed on the outer wall of the shell frame 2, and a blocking mechanism 46 is arranged at the front end of the shell frame 2;

the blocking mechanism 46 comprises a material conveying frame 461 arranged on the inner wall of the shell frame 2, a blocking hole is formed in the upper side of the rear end of the material conveying frame 461, a blocking piece 462 is arranged in the blocking hole through a spring, the lower end of the blocking piece 462 abuts against a drive plate 463, the drive plate 463 is arranged on the inner wall of the shell frame 2 in a sliding mode, and the drive plate 463 is connected to the pushing frame 41.

The material conveying frame 461 is located at the material outlet, and the material conveying frame 461 is of a downward inclined structure from back to front.

The annular rotating plate 33 controls the printing support plate 345 to move downwards at a proper position, the pushing cylinder 45 starts to work and drives the pushing frame 41 to perform front and back telescopic operation through the mutual matching between the pushing rod 44 and the linkage rod 43, the pushing frame 41 firstly controls the drive plate 463 to extrude the lattice stopper 462 in the movement, the lattice stopper 462 is upwards ejected and abutted against the outer wall of the support frame 342 after being extruded, the pushing frame 41 continuously moves to push the printing support plate 345 out through the rubber block 42, and the pushed printing support plate 345 is discharged to the outside of the housing frame 2 through the material conveying frame 461.

When in work;

the first-step driving mechanism 32 controls the supporting frame 342 to rotate;

a second step of inserting the print supporting plate 345 into the inside of the supporting frame 342 through the placing port;

third, the printing support plate 345 is fixed at the printing position by the locking mechanism 38, and the 3D printer starts to work;

and fourthly, pushing out the printed product by the pushing device 4.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a mechanical product shaping 3D printer of drawing a design, is including printing organism (1), its characterized in that: a shell frame (2) is installed at the lower end of the printer body (1), a placing opening is formed in the upper side of the front end of the shell frame (2), a discharging opening is formed in the lower side of the front end of the shell frame (2), a rotating device (3) is arranged between the inner walls of the shell frame (2), and a pushing device (4) is arranged at the rear end of the shell frame (2);

the rotating device (3) comprises an annular slide way (31) arranged on the outer wall of the left end of the shell frame (2), a driving mechanism (32) is arranged on the inner wall of the annular slide way (31), the annular slide way (31) is connected with an annular rotating plate (33) in a sliding fit mode, supporting mechanisms (34) are uniformly arranged on the annular rotating plate (33) along the circumferential direction of the annular rotating plate, rotating columns (35) are arranged at the right ends of the supporting mechanisms (34) through bearings, a direction adjusting rod (36) is arranged between the two rotating columns (35), the right ends of the rotating columns (35) are arranged on an auxiliary slide way (37) in a sliding mode, the auxiliary slide way (37) is arranged on the outer wall of the shell frame (2), and a locking mechanism (38) is arranged between the inner walls;

the pushing device (4) comprises a pushing hole formed in the rear side of the shell frame (2), a pushing frame (41) is arranged in the pushing hole in a sliding fit mode, a rubber block (42) is arranged at the front end of the pushing frame (41), the rear end of the pushing frame (41) is connected with one end of a linkage rod (43) through a pin shaft, the other end of the linkage rod (43) is installed on the pushing rod (44) through the pin shaft, the pushing rod (44) is installed on a pushing cylinder (45), the pushing cylinder (45) is fixed on the outer wall of the shell frame (2), and a blocking mechanism (46) is arranged at the front end of the shell frame (2);

the lattice blocking mechanism (46) comprises a material conveying frame (461) arranged on the inner wall of the shell frame (2), the material conveying frame (461) is positioned at a material outlet, the material conveying frame (461) is of a downward inclined structure from back to front, a lattice blocking hole is formed in the upper side of the rear end of the material conveying frame (461), a lattice blocking piece (462) is arranged in the lattice blocking hole through a spring, the lower end of the lattice blocking piece (462) abuts against a driving plate (463), the driving plate (463) is arranged on the inner wall of the shell frame (2) in a sliding mode, and the driving plate (463) is connected to the pushing frame (41);

the supporting mechanism (34) comprises a supporting column (341) arranged on the annular rotating plate (33) through a bearing, a supporting frame (342) is installed on the supporting column (341), abutting spring rods (343) are symmetrically installed on the inner walls of the left end and the right end of the supporting frame (342), a locking guide frame (344) is installed on the abutting spring rods (343), and the front end and the rear end of the locking guide frame (344) are both arc structures;

locking mechanical system (38) are including installing locking support (381) between shell frame (2) inner wall, lift cylinder (382) are installed to the upper end of locking support (381), install locking frame (383) on lift cylinder (382), the recess that cooperation braced frame (342) used is seted up to the upper end of locking frame (383), both ends upside symmetry is provided with the adjustment tank about locking frame (383), install two-way cylinder (384) on the inner wall of locking frame (383), the front and back bilateral symmetry of two-way cylinder (384) is provided with the regulation branch chain, it is located the adjustment tank to adjust the branch chain.

2. The mechanical product molding proofing 3D printer of claim 1, wherein: the driving mechanism (32) comprises fixed gears (321) uniformly arranged on the inner wall of the annular slide way (31), rotating gears (322) are meshed on the fixed gears (321), the rotating gears (322) are installed on an output shaft of a driving motor (323), and the driving motor (323) is installed on the annular rotating plate (33) through a motor base.

3. The mechanical product molding proofing 3D printer of claim 1, wherein: the locking hole has been seted up to the lower extreme of braced frame (342), and the upper end middle part of braced frame (342) is provided with the guide slide, and support frame (342) goes up to slide and is provided with and prints backup pad (345), and print backup pad (345) are the I shape structure, and the lower extreme of printing backup pad (345) is provided with the guide slider of cooperation guide slide motion.

4. The mechanical product molding proofing 3D printer of claim 1, wherein: the adjusting branch chain comprises an adjusting extrusion frame (385) arranged on a bidirectional cylinder (384), the adjusting extrusion frame (385) is arranged in an adjusting groove in a sliding mode, a push plate (386) is arranged at the upper end of the adjusting extrusion frame (385) through a spring rod, a fixing hole is formed in the upper end of a locking frame (383), a locking rod (387) used for being inserted into the locking hole is arranged in the fixing hole through a spring, an extrusion rod (388) with a step-shaped structure is arranged on the side wall of the adjusting extrusion frame (385), and the extrusion rod (388) abuts against the locking rod (387).