CN219859830U

CN219859830U - Orderly winding displacement device of 3D printing consumables

Info

Publication number: CN219859830U
Application number: CN202320473446.0U
Authority: CN
Inventors: 彭永明; 蒋伦
Original assignee: Anhui Sanlu Technology Co ltd
Current assignee: Anhui Sanlu Technology Co ltd
Priority date: 2022-12-05
Filing date: 2023-03-08
Publication date: 2023-10-20
Anticipated expiration: 2033-03-08

Abstract

The utility model discloses a tidy wire arrangement device for 3D printing consumables, which is simple in structure and can keep a winding process to be continuously and orderly carried out. The technical problems to be solved by the utility model are realized by the following technical means: the utility model provides a neat winding displacement device of 3D printing consumables, it includes the base, sets up send line subassembly and the setting of one side in the base are in the rolling dish subassembly of the opposite side in the base, the rolling dish subassembly include the rolling dish and with rolling dish matched with driver, the middle part of rolling dish is provided with the spool, the bottom of rolling dish subassembly is provided with sharp module, the rolling dish subassembly sets up on the sharp module, send line subassembly to include the mounting bracket, set up line on the mounting bracket draws out the piece, be provided with the inclined hole groove in the line draws out the piece, the inclined hole groove orientation the winding dish the spool. The utility model relates to the technical field of 3D printing consumable production.

Description

Orderly winding displacement device of 3D printing consumables

Technical Field

The utility model relates to the technical field of 3D printing consumable production, in particular to a tidy wire arrangement device for 3D printing consumables.

Background

3D printing FDM consumptive material is a finer wire rod, and output and demand are big, and production 3D printing consumptive material needs to relate to multiple equipment co-production. In the winding process of the 3D printing consumable, namely, the wire is wound on a coil winding disc for storage, a wire arranging device is needed; application number: CN201520750542.0, filing date: 2015-09-25 discloses an automatic winding mechanism for a tabletop consumable tester, which adopts a wire arranging device to carry out discharging and conveying, a winding disc is used for winding wires, the wire arranging device can reciprocate left and right, the winding disc only rotates and does not move left and right so as to realize winding and winding the wires layer by layer, but the wire arranging device is small, threading and wire outgoing are needed, a plurality of other components are integrated, and the wire arranging device is driven to move and is provided with various guiding, sensor and other components, so that the burden of the wire arranging device is high, and the wire arranging device can be damaged by frequently moving the wire arranging device, and then the production process of winding procedures is influenced when the wire arranging device is replaced.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model provides a tidy wire arrangement device for 3D printing consumables, which has a simple structure and can keep a winding process to be continuously and orderly carried out.

The technical problems to be solved by the utility model are realized by the following technical means: the utility model provides a neat winding displacement device of 3D printing consumables, it includes the base, sets up send line subassembly and the setting of one side in the base are in the rolling dish subassembly of the opposite side in the base, the rolling dish subassembly include the rolling dish and with rolling dish matched with driver, the middle part of rolling dish is provided with the spool, the bottom of rolling dish subassembly is provided with sharp module, the rolling dish subassembly sets up on the sharp module, send line subassembly to include the mounting bracket, set up line on the mounting bracket draws out the piece, be provided with the inclined hole groove in the line draws out the piece, the inclined hole groove orientation the winding dish the spool.

In the scheme, the winding disc is used for carrying out winding storage of 3D printing consumables, the wire feeding assembly is used for continuously providing wires for the winding disc, the wires are led out through the inclined hole grooves of the wire leading-out blocks, and the wires can be designed to be tangential to the winding shaft or parallel to the winding shaft in a tangential direction after being led out, so that the wires can be conveniently wound and stored layer by layer in the winding disc; in the utility model, the wire drawing block does not move back and forth, but moves back and forth by adopting the winding disc, and the winding disc moves by the linear module, namely the linear screw module, so that the wire drawing block can move accurately, and only moves back and forth by adopting the winding disc, but does not move back and forth by adopting the wire feeding assembly.

Further, the wire feeding assembly comprises a lifting unit arranged on the mounting frame and a lifting plate matched with the lifting unit, the lifting unit comprises a screw motor, a transmission screw and a screw nut, the lifting plate is arranged on the screw nut, and the wire leading-out block is arranged on the lifting plate.

In the scheme, the wire leading-out block can be lifted by the action of the lifting unit, the lifting operation of the wire leading-out block is carried out, the purpose is that the wire can be lifted from the position of the wire after coming out of the inclined hole groove, and when the winding of the next layer is needed after the winding of the upper layer in the winding disc is completed, the height difference is just connected by lifting, so that the winding of the 3D printing consumable is more accurate and tidier, and the situation of wire overlapping and winding disorder can not occur.

Further, the screw motor, the transmission screw and the screw nut are all located the back of mounting bracket, the front portion of lifter plate wears out to the front end of mounting bracket, the line draws forth the piece and is located the front portion of lifter plate just is close to one side of rolling disc.

Further, a winding displacement guide wheel is arranged at one side of the front part of the lifting plate, which is opposite to the wire leading-out block, the winding displacement guide wheel is arranged on a guide wheel installation block, the guide wheel installation block is rotatably arranged on the lifting plate, and a detachable locking screw is arranged on the guide wheel installation block.

In the above scheme, send the line subassembly including pulling or pushing the wire rod and carry the conveying structure, the wire rod is pulled to the winding displacement guide pulley through conveying structure on, have the draw-in groove with wire rod looks adaptation on the winding displacement guide pulley, the winding displacement guide pulley is used for leading the wire rod for the wire rod can aim at the inclined hole groove and parallel penetrate in the inclined hole groove.

Further, the line is drawn out the piece slope and is set up, the length direction of transmission wire pole with the length direction that the piece was drawn out to the line is perpendicular, be provided with the threading pipe in the inclined hole groove, the threading pipe wear out in inclined hole groove be close to the one side of reel, the threading pipe orientation the spool.

In the scheme, the inclined hole grooves are arranged in parallel in the wire leading-out blocks in an inclined mode, so that the transmission screw rod is intersected with the inclined hole grooves by 90 degrees, the threading pipe extends out and faces the tangential direction of the winding shaft or the direction parallel to the tangential direction of the winding shaft, the transmission screw rod drives the wire leading-out blocks to move upwards, the wire leading-out blocks ascend in the direction perpendicular to the tangential direction of the winding shaft, winding is more reasonable, and winding accuracy and tidy arrangement are guaranteed. On the other hand, the threading pipe is harder in texture, so that the wire rod can be protected, and the wire rod is guided and conveyed.

Further, the winding disc assembly comprises a driver shell, guide rods are arranged on two sides of the bottom of the driver shell, and sliding grooves matched with the guide rods are arranged on the bottom of the driver shell.

Further, the base is provided with the control box in the rear portion of send the line subassembly and the top of control box is provided with operating panel.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

fig. 2 is a schematic view of another angle configuration of the present utility model.

Detailed Description

The utility model is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present utility model are shown in the drawings.

As shown in fig. 1 to 2, the technical scheme adopted by the utility model is that the utility model is a 3D printing consumable trimming and arranging device, which comprises a base 1, a wire feeding component 2 arranged on one side of the base 1 and a winding disc component 3 arranged on the other side of the base 1, wherein the winding disc component 3 comprises a winding disc 4 and a driver matched with the winding disc 4, the driver is a motor and is matched with a speed reducer, a winding shaft 5 is arranged in the middle of the winding disc 4, a linear module is arranged at the bottom of the winding disc component 3, the winding disc component 3 is arranged on the linear module, the wire feeding component 2 comprises a mounting frame 7 and a wire leading-out block 8 arranged on the mounting frame 7, an inclined hole groove 9 is arranged in the wire leading-out block 8, and the inclined hole groove 9 faces the winding shaft 5 of the winding disc 4. The winding disc 4 is used for carrying out winding storage of 3D printing consumables, the wire feeding assembly 2 is used for continuously providing wires for the winding disc 4, the wires are led out through the inclined hole grooves 9 of the wire leading-out blocks 8, and the wires which are led out face the winding shaft 5 can be designed to be tangential to the winding shaft 5 or parallel to the winding shaft 5 in a tangential direction, so that the wires can be conveniently wound in a layer-by-layer manner in the winding disc 4; in the utility model, the wire drawing block 8 does not move back and forth, but moves back and forth by adopting the winding disc 4, and the winding disc 4 moves through a linear module, namely a linear screw module, which can move accurately and is a mechanism part of conventional linear driving; only with the rolling dish 4 carry out back and forth movement and send line subassembly 2 not carry out back and forth movement, compare in prior art's technical scheme, simplify the structure, it is simpler to realize, also can avoid sending line subassembly 2's damage, keeps the rolling process to go on in order and neatly continually. In addition, the winding disc 4 is detachably mounted at the tail end of an output shaft of the driver, and the mounting mode can be in the form of snap fit or a threaded nut locking structure arranged at the front end of the winding disc 4.

In a specific embodiment, the wire feeding assembly 2 comprises a lifting unit arranged on the mounting frame 7 and a lifting plate 10 matched with the lifting unit, the lifting unit comprises a screw motor 11, a transmission screw 12 and a screw nut, the lifting plate 10 is arranged on the screw nut, and the wire leading-out block 8 is arranged on the lifting plate 10. The wire leading-out block 8 can be lifted by the action of the lifting unit, the lifting operation of the wire leading-out block 8 is carried out, the purpose is that the wire can be lifted from the position of the inclined hole slot 9, when the winding of the next layer is needed after the winding of the last layer in the winding disc 4 is completed, the height difference is just connected by lifting, and thus the winding of the 3D printing consumable is more accurate and tidy, and the situation of wire overlapping and winding disorder can not occur.

In a specific embodiment, the screw motor 11, the driving screw 12 and the screw nut are all located on the back surface of the mounting frame 7, the front portion of the lifting plate 10 is penetrated out to the front end of the mounting frame 7, and the wire leading-out block 8 is located on the front portion of the lifting plate 10 and near one side of the winding disc 4.

In a specific embodiment, a winding displacement guide wheel 13 is arranged at one side of the front part of the lifting plate 10 opposite to the wire drawing block 8, the winding displacement guide wheel 13 is mounted on a guide wheel mounting block 14, the guide wheel mounting block 14 is rotatably arranged on the lifting plate 10, and a detachable locking screw 15 is arranged on the guide wheel mounting block 14. The wire feeding assembly 2 comprises a conveying structure for pulling or pushing wires to be conveyed, the wires are pulled onto the wire discharging guide wheels 13 through the conveying structure, clamping grooves matched with the wires are formed in the wire discharging guide wheels 13, and the wire discharging guide wheels 13 are used for guiding the wires, so that the wires can be aligned to the inclined hole grooves 9 and penetrate into the inclined hole grooves 9 in parallel.

In a specific embodiment, the wire drawing block 8 is obliquely arranged, the length direction of the transmission screw rod 12 is perpendicular to the length direction of the wire drawing block 8, a threading pipe 16 is arranged in the inclined hole groove 9, the threading pipe 16 penetrates through one side, close to the winding disc 4, of the inclined hole groove 9, and the threading pipe 16 faces the winding shaft 5. The line is drawn forth piece 8 slope and is set up and make the slope hole groove 9 parallel arrangement draw forth piece 8 in the line, in this way, transmission lead screw 12 is crossing with slope hole groove 990 degree, threading pipe 16 stretches out and towards the tangential direction of spool 5 or the direction parallel on the tangential direction of spool 5, transmission lead screw 12 drives line and draws forth piece 8 and move up, line draws forth piece 8 and rises for the direction of the tangential direction of perpendicular to spool 5, the wire winding is more reasonable, guarantee that the wire winding is accurate, the range is neat. On the other hand, the harder texture of the threading tube 16 protects the wire and guides the wire.

In a specific embodiment, the winding disc assembly 3 includes a driver housing 17, the base 1 is provided with guide rods 18 on two sides of the bottom of the driver housing 17, and a sliding groove matched with the guide rods 18 is provided on the bottom of the driver housing 17.

In a specific embodiment, the base 1 is provided with a control box 19 at the rear of the wire feeding assembly 2 and an operation panel 20 at the top of the control box 19.

Claims

1. Orderly winding displacement device of 3D printing consumables, its characterized in that: including base (1), setting are in send line subassembly (2) and setting of one side in base (1) are in rolling dish subassembly (3) of the opposite side in base (1), rolling dish subassembly (3) include rolling dish (4) and with rolling dish (4) matched with driver, the middle part of rolling dish (4) is provided with spool (5), the bottom of rolling dish subassembly (3) is provided with sharp module, rolling dish subassembly (3) set up on the sharp module, send line subassembly (2) to include mounting bracket (7), set up line on mounting bracket (7) draws out piece (8), be provided with inclined hole groove (9) in the line draws out piece (8), inclined hole groove (9) orientation coiling dish (4) spool (5).

2. The clean-up arrangement of 3D printing consumables according to claim 1, wherein: the wire feeding assembly (2) comprises a lifting unit arranged on the mounting frame (7) and a lifting plate (10) matched with the lifting unit, the lifting unit comprises a screw motor (11), a transmission screw (12) and a screw nut, the lifting plate (10) is arranged on the screw nut, and the wire leading-out block (8) is arranged on the lifting plate (10).

3. The clean-up arrangement of 3D printing consumables according to claim 2, wherein: the wire drawing device is characterized in that the screw rod motor (11), the transmission screw rod (12) and the screw rod nut are both positioned on the back of the mounting frame (7), the front part of the lifting plate (10) penetrates out to the front end of the mounting frame (7), and the wire drawing block (8) is positioned on the front part of the lifting plate (10) and is close to one side of the winding disc (4).

4. The clean-up arrangement of 3D printing consumables according to claim 2, wherein: a wire arranging guide wheel (13) is arranged at one side, opposite to the wire leading-out block (8), of the front portion of the lifting plate (10), the wire arranging guide wheel (13) is arranged on a guide wheel mounting block (14), the guide wheel mounting block (14) is rotatably arranged on the lifting plate (10), and a detachable locking screw (15) is arranged on the guide wheel mounting block (14).

5. The clean-up arrangement of 3D printing consumables according to claim 2, wherein: the wire leading-out block (8) is obliquely arranged, the length direction of the transmission screw rod (12) is perpendicular to the length direction of the wire leading-out block (8), a threading pipe (16) is arranged in the inclined hole groove (9), the threading pipe (16) penetrates out of one side, close to the winding disc (4), of the inclined hole groove (9), and the threading pipe (16) faces the winding shaft (5).

6. The clean-up arrangement of 3D printing consumables according to claim 1, wherein: the winding disc assembly (3) comprises a driver shell (17), guide rods (18) are arranged on two sides of the bottom of the driver shell (17) in the base (1), and sliding grooves matched with the guide rods (18) are formed in the bottom of the driver shell (17).

7. The clean-up arrangement of 3D printing consumables according to claim 1, wherein: the base (1) is provided with a control box (19) at the rear part of the wire feeding assembly (2) and an operation panel (20) at the top of the control box (19).