CN110733936A

CN110733936A - 3D prints wire winding device

Info

Publication number: CN110733936A
Application number: CN201911238319.7A
Authority: CN
Inventors: 吴志华; 黄仲佳; 周晓宏; 罗贤国; 张勇; 孙文明; 赵薇; 郑兰斌; 王心生; 杨军; 李思文; 宗泽; 周翔; 吕晨; 艾晓蕾
Original assignee: Anhui Spring Valley 3d Printing Intelligent Equipment Industry Technology Research Institute Co Ltd
Current assignee: Anhui Spring Valley 3d Printing Intelligent Equipment Industry Technology Research Institute Co Ltd
Priority date: 2019-12-06
Filing date: 2019-12-06
Publication date: 2020-01-31

Abstract

The invention discloses an 3D printing wire winding device which comprises a 3D printer case, wherein a tensioning assembly is arranged on the 3D printer case side and is provided with a wire winding assembly, the tensioning assembly comprises a dragon support, 0 groups of screw rods penetrate through the dragon support and are in threaded connection, a tensioning wheel is arranged at the end of each screw rod 1, the tensioning wheel is slidably arranged in a dragon support, two groups of baffles are slidably arranged on the surface of the tensioning wheel, the screw rods extend to the top end of the dragon support and are provided with transmission assemblies, the wire winding assembly comprises a bottom plate, two groups of winding shafts are slidably arranged on the upper surface of the bottom plate, a motor is fixedly connected with the end of each winding shaft , electric sliding tables are fixedly arranged at the bottoms of the two groups of winding shafts, electric push rods are fixedly arranged on the sides of the two groups of winding shafts , and two groups of clamping plates are slidably arranged on the surfaces of the winding shafts.

Description

3D prints wire winding device

Technical Field

The invention belongs to the technical field of 3D printing wire winding, and particularly relates to an 3D printing wire winding device.

Background

The winding device is types of equipment frequently used in wire processing, while the existing winding device winds the wire, after wire reels are fully collected, generally needs to cut off the wire, then another wire reel is installed on the wire winding machine again, however, the wire is still continuously transmitted during the period of time of installing another wire reel again, so that the newly transmitted wire is disorderly and irregularly stacked.

Contain soft materials such as TPU, TPE in the 3D printing material, soft material extrusion moulding back, it carries out the rolling to need the motor to drive the drum, need keep definite tension during the rolling, but if tension is too big then make the wire rod receive tensile deformation easily, lead to the size of wire rod to diminish, especially after the wire rod on the wire storage frame increases gradually, diameter when rolling the wire rod increases, the distance between wire rod and the extruder of wire storage frame outer layer shortens, if keep fixed speed and tension to roll the wire rod, soft wire rod can receive the deformation in tensile process.

Therefore, 3D printing wire winding devices are provided to solve the problems in the prior art, groups of tensioning assemblies are arranged at the wire penetrating position of a 3D printer case, the tensioning assemblies are driven by a lead screw to move up and down, the positions of the tensioning assemblies are changed along with the diameter change of the winding assemblies when the wires are wound, the winding device is suitable for winding actions at different speeds and under different tensions, two groups of winding shafts controlled by electric push rods are arranged on the side of the winding assembly , and groups of winding assemblies are pushed or pulled by the electric push rods to wind alternately, so that the newly transmitted wires are wound in order.

Disclosure of Invention

The invention aims to provide 3D printing wire winding devices, and aims to solve the problems that in the prior art, 1, during the period of re-mounting another wire spool, wires are continuously transmitted, so that the newly transmitted wires are disorderly and irregularly stacked, 2, when winding, the wire needs to be kept at fixed tension, but if the tension is too high, the wires are easily stretched and deformed, so that the size of the wires is reduced, particularly, after the wires on a wire storage frame are gradually increased, the diameter of the wires when winding is increased, the distance between the wires on the outer layer of the wire storage frame and an extruder is shortened, and if the wires are wound at a fixed speed and tension, the soft wires are deformed in the stretching process.

In order to achieve the purpose, the invention adopts the following technical scheme that the 3D printing wire winding device comprises a 3D printer case, wherein a tensioning component is arranged on the 3D printer case side and is provided with a wire winding component;

the tensioning assembly comprises a dragon support, groups of lead screws penetrate through the dragon support and are in threaded connection with the dragon support, a tensioning wheel is arranged at the end of the lead screw , the tensioning wheel is installed in the dragon support in a sliding mode, two groups of baffles are installed on the surface of the tensioning wheel in a sliding mode, and a transmission assembly is arranged at the end, extending to the top of the dragon support, of the lead screw;

the wire winding assembly comprises a bottom plate, two groups of winding shafts are slidably mounted on the upper surface of the bottom plate, a motor is fixedly connected to the winding shaft end, electric sliding tables are fixedly mounted at the bottoms of the two groups of winding shafts, electric push rods are fixedly mounted on the sides of the two groups of winding shafts , and two groups of clamping plates are slidably mounted on the surface of the winding shaft;

a top rod is fixedly mounted between the tension wheel and the 3D printer case, a tug is rotatably mounted at the top of the top rod, a clamping groove is formed in the tug, and a spring is fixedly mounted at the bottom of the top rod.

Preferably, chutes are symmetrically formed in the dragon support, vertical plates are fixedly mounted on the tension wheels, the tension wheels are rotatably mounted in the vertical plates through bearings, connecting plates are fixedly mounted at the tops of the two groups of vertical plates, the connecting plates are slidably mounted in the chutes, and the ends of the lead screws are rotatably mounted in the connecting plates through bearings.

Preferably, the transmission assembly includes the second motor, the output shaft end fixed mounting of second motor has gear, the lead screw is located dragon support run-through position threaded connection has the axle sleeve, axle sleeve fixed surface installs the second gear, gear and second gear meshing, second motor fixed mounting is in dragon support bottom side.

Preferably, the guide way has been seted up to the symmetry in the bottom plate, and is two sets of equal fixed mounting in electronic slip table bottom has the layer board, the equal fixed mounting in layer board bottom four corners has the slip subassembly, slip subassembly slidable mounting is in the guide way.

Preferably, four groups the sliding assembly includes connecting rod and pulley, four groups connecting rod end fixed mounting respectively in layer board bottom four corners, connecting rod bottom fixed mounting has U type frame, the pulley rotates to be installed in U type frame, and pulley and guide way clearance fit.

Preferably, the electric sliding table is of a double-moving-block structure, supporting plates are fixedly mounted on the two groups of moving blocks of the electric sliding table, and an output shaft end of the electric push rod is fixedly connected with the supporting plates.

Preferably, the fixed plates are symmetrically arranged on the upper surface of the supporting plate, and two ends of the winding shaft are rotatably arranged between the two groups of fixed plates through bearing seats.

Preferably, a key groove is formed in the surface of the winding shaft, a guide bar is fixedly mounted in the key groove, a groove is formed in the inner ring of the clamping plate, and the guide bar and the groove are in clearance fit.

Preferably, a positioning plate is fixedly mounted on the 3D printer case side, the ejector rod is slidably mounted in the positioning plate, and the spring is fixedly mounted between the tug and the positioning plate.

Compared with the prior art, the 3D printing wire winding device provided by the invention has the following advantages:

1. groups of tensioning assemblies are arranged at the wire penetrating position of the 3D printer case, the tensioning assemblies are driven by the lead screws to move up and down, the positions of the tensioning assemblies are changed along with the diameter change of the winding assemblies when the wires are wound, and the wire winding machine is suitable for winding actions at different speeds and under different tensions;

2. set up the rolling axle of two sets of electric putter controls in rolling subassembly side, utilize electric putter to promote or pull wherein group rolling subassembly and roll in turn for the wire rod of new transmission coming is orderly carries out the rolling action.

Drawings

Fig. 1 is a schematic front view of an kinds of 3D printing wire winding device according to the present invention;

fig. 2 is a schematic side view of a tensioning assembly of an type 3D printing wire winding device according to the invention;

fig. 3 is a schematic side view of a winding assembly of the kinds of 3D printing wire winding devices according to the invention;

fig. 4 is a schematic top view of a winding assembly of the kinds of 3D printing wire winding devices according to the present invention;

fig. 5 is a schematic side view of a winding shaft of the kinds of 3D printing wire winding devices according to the invention;

fig. 6 is a schematic side view of the sliding assembly of the 3D printing wire winding device according to the invention.

In the figure, the printer comprises a 1 and 3D printer case, 101, a positioning plate, 2, a tensioning assembly, 201, a dragon support, 202, a screw rod, 203, a tensioning wheel, 204, a baffle plate, 205, a transmission assembly, 2051, a second motor, 2052, a gear, 2053, a shaft sleeve, 2054, a second gear, 206, a sliding groove, 207, a vertical plate, 208, a connecting plate, 3, a wire winding assembly, 301, a bottom plate, 302, a winding shaft, 303, a motor, 304, an electric sliding table, 305, an electric push rod, 306, a guide groove, 307, a supporting plate, 308, a sliding assembly, 3081, a connecting rod, 3082, a pulley, 3083, a U-shaped frame, 309, a supporting plate, 310, a fixing plate, 311, a clamping plate, 312, a key groove, 313, a guide strip, 314, a groove, 4, a push rod, 5, a dragging wheel, 501, a clamping groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is to be understood that the described embodiments are only partial embodiments , rather than complete embodiments.

The invention provides an -type 3D printing wire winding device shown in fig. 1-6, which comprises a 3D printer case 1, wherein a tensioning assembly 2 is arranged on the 3D printer case 1 side, the tensioning assembly 2 is provided with a wire winding assembly 3, the tensioning assembly 2 comprises a dragon support 201, groups of lead screws 202 penetrate through the dragon support 201 and are in threaded connection with the dragon 3526 support, a tensioning wheel 203 is arranged at the end of each lead screw 202 , the tensioning wheel 203 is slidably mounted in the dragon support 201, sliding grooves 206 are symmetrically arranged in the dragon support 201, the sliding grooves 206 are arranged to effectively limit the tensioning wheel 203 in the dragon support 201 and ensure the stability of the vertical adjustment structure of the tensioning wheel 203, the tensioning wheels 203 are fixedly mounted with vertical plates 207, the tensioning wheel 203 is rotatably mounted in the vertical plates 207 through bearings, connecting plates 208 are fixedly mounted at the tops of the two groups of vertical plates 207, the connecting plates 208 are slidably mounted in the sliding grooves 206, the ends of the lead screws 202 are rotatably mounted in the sliding grooves 208 through bearings, two groups of baffles 204 are arranged.

The lead screw 202 extends to the top end of the dragon support 201 and is provided with a transmission assembly 205, the transmission assembly 205 comprises a second motor 2051, an output shaft end of the second motor 2051 is fixedly provided with a gear 2052, the lead screw 202 is positioned at the penetrating position of the dragon support 201 and is in threaded connection with a shaft sleeve 2053, a second gear 2054 is fixedly arranged on the surface of the shaft sleeve 2053, the gear 2052 is meshed with the second gear 2054, and the second motor 2051 is fixedly arranged at the bottom side of the dragon support 201.

The wire winding assembly 3 comprises a bottom plate 301, two groups of winding shafts 302 are slidably mounted on the upper surface of the bottom plate 301, a motor 303 of a is fixedly connected to a end of each winding shaft 302, two groups of electric sliding tables 304 are fixedly mounted at the bottoms of the winding shafts 302, each electric sliding table 304 is of a double-moving-block structure, support plates 309 are fixedly mounted on two groups of moving blocks of each electric sliding table 304, an output shaft end of an electric push rod 305 is fixedly connected with the support plates 309, fixing plates 310 are symmetrically mounted on the upper surfaces of the support plates 309, two ends of each winding shaft 302 are rotatably mounted between the two groups of fixing plates 310 through bearing seats, guide grooves 306 are symmetrically formed in the bottom plate 301, guide grooves 306 are used for effectively controlling the moving track of a pulley 3082, when the electric push rod 305 acts, it is ensured that the moving track of the winding shaft 302 is high in stability, support plates 307 are fixedly mounted at the bottoms of the two groups of electric sliding tables 304, sliding assemblies 308 are fixedly mounted at four corners of the bottoms of the support plates 307, the bottoms of the support plates 307 are slidably mounted in the guide grooves 306, the guide grooves 306 are used for preventing the winding shaft 302 from moving track from being matched with the winding shaft, the guide grooves 311, the guide plates 312 are mounted at the four groups of the winding shafts, the four groups of connecting rods 6381, the inner ring , the inner ring structures, the guide plates 314, the guide plates, the guide grooves.

Fixed mounting has ejector pin 4 between take-up pulley 203 and the 3D printer machine case 1, 4 tops of ejector pin rotate and install tow boat 5, draw-in groove 501 has been seted up in the tow boat 5, 4 bottom fixed mounting of ejector pin have spring 6, 3D printer machine case 1 side fixed mounting has locating

plate

101, 4 slidable mounting of ejector pin in locating plate 101, spring 6 fixed mounting utilizes spring 6 to connect tow boat 5 between tow boat 5 and locating plate 101, not only plays the effect of the entering take-up pulley 203 of guide wire rod, and provides antifriction for the wire rod simultaneously.

The structure principle is that groups of tensioning assemblies 2 are arranged at the wire penetrating position of a 3D printer case 1, a tension wheel 203 is driven to move up and down by a lead screw 202, when a wire is wound, a second motor 2051 is started to drive a shaft sleeve 2053 to rotate, and the shaft sleeve 2053 is fixedly arranged in a bracket 201 of a dragon , so that the lead screw 202 can move up and down by the rotation of the shaft sleeve 2053, the position of the tension wheel 203 can be changed along with the diameter change of the wire winding assembly 3, and the wire winding machine is suitable for winding actions at different speeds and tensions;

the winding device is characterized in that two groups of winding shafts 302 are arranged, an electric sliding table 304 is fixedly mounted at the bottom of each winding shaft 302, when winding is carried out, the electric sliding table 304 is used for driving the winding shafts 302 to move, wires are uniformly wound on the surfaces of the winding shafts 302, electric push rods 305 are arranged on the two groups of winding shafts 302 , and the electric push rods 305 are used for pushing or pulling groups of winding shafts 302 to be wound alternately, so that the wires which are newly transmitted are wound orderly.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

The 3D printing wire winding device comprises a 3D printer case (1) and is characterized in that a tensioning assembly (2) is arranged on the side of the 3D printer case (1), and the tensioning assembly (2) is provided with a wire winding assembly (3);

the tensioning assembly (2) comprises a dragon support (201), a group of lead screws (202) penetrate through the dragon support (201) and are in threaded connection with the dragon 3526 support, a tensioning wheel (203) is arranged at the end of the lead screws (202), the tensioning wheel (203) is installed in the dragon support (201) in a sliding mode, two groups of baffles (204) are installed on the surface of the tensioning wheel (203) in a sliding mode, and a transmission assembly (205) is arranged at the end , extending to the top of the dragon support (201), of the lead screws (202);

the wire winding assembly (3) comprises a bottom plate (301), two groups of winding shafts (302) are slidably mounted on the upper surface of the bottom plate (301), a motor (303) is fixedly connected to the ends of the winding shafts (302) , electric sliding tables (304) are fixedly mounted at the bottoms of the two groups of winding shafts (302), electric push rods (305) are fixedly mounted on the sides of the two groups of winding shafts (302), and two groups of clamping plates (311) are slidably mounted on the surface of the winding shaft (302);

fixed mounting has ejector pin (4) between take-up pulley (203) and 3D printer machine case (1), ejector pin (4) top is rotated and is installed tow boat (5), draw-in groove (501) have been seted up in tow boat (5), ejector pin (4) bottom fixed mounting has spring (6).
2. The kinds of 3D printing wire winding devices according to claim 1, wherein the dragon bracket (201) is symmetrically provided with sliding grooves (206), the tensioning wheels (203) are both fixedly provided with vertical plates (207), the tensioning wheels (203) are rotatably arranged in the vertical plates (207) through bearings, the tops of the two sets of vertical plates (207) are fixedly provided with connecting plates (208), the connecting plates (208) are slidably arranged in the sliding grooves (206), and the ends of the lead screws (202) are rotatably arranged in the connecting plates (208) through bearings.
3. The kind of 3D printing wire winding device according to claim 1, wherein the transmission assembly (205) includes a second motor (2051), an output shaft of the second motor (2051) is fixedly installed with a gear (2052), the screw (202) is in threaded connection with a bushing (2053) at a penetrating position of the dragon support (201), a second gear (2054) is fixedly installed on the surface of the bushing (2053), the gear (2052) is engaged with the second gear (2054), and the second motor (2051) is fixedly installed at the bottom side of the dragon support (201).
4. The kinds of 3D printing wire winding devices according to claim 1, wherein guide grooves (306) are symmetrically formed in the bottom plate (301), the bottom of each of the two sets of electric sliding tables (304) is fixedly provided with a supporting plate (307), four corners of the bottom of each supporting plate (307) are fixedly provided with sliding assemblies (308), and each sliding assembly (308) is slidably mounted in each guide groove (306).
5. The kinds of 3D printing wire take-up device of claim 4, wherein the four sets of sliding assemblies (308) comprise connecting rods (3081) and pulleys (3082), the ends of the four sets of connecting rods (3081) are respectively and fixedly arranged at four corners of the bottom of the supporting plate (307), the bottom of the connecting rod (3081) is fixedly provided with a U-shaped frame (3083), the pulleys (3082) are rotatably arranged in the U-shaped frame (3083), and the pulleys (3082) are in clearance fit with the guide grooves (306).
6. The kinds of 3D printing wire winding device according to claim 1, wherein the electric sliding table (304) is a double-moving-block structure, two sets of moving blocks of the electric sliding table (304) are fixedly provided with supporting plates (309), and an output shaft end of the electric push rod (305) is fixedly connected with the supporting plates (309).
7. The kinds of 3D printing wire winding devices of claim 1, wherein the supporting plate (309) has fixing plates (310) symmetrically mounted on its upper surface, and the winding shaft (302) has both ends rotatably mounted between two sets of fixing plates (310) through bearing seats.
8. The kinds of 3D printing wire winding devices according to claim 1, wherein a key groove (312) is formed in the surface of the winding shaft (302), a guide bar (313) is fixedly installed in the key groove (312), a groove (314) is formed in the inner ring of the clamping plate (311), and the guide bar (313) and the groove (314) are in clearance fit.
9. The kinds of 3D printing wire winding device of claim 1, wherein a positioning plate (101) is fixedly installed on the side of the 3D printer case (1), the top bar (4) is slidably installed in the positioning plate (101), and the spring (6) is fixedly installed between the tug (5) and the positioning plate (101).