CN212239703U - Vertical and horizontal dual-purpose 3D printing equipment - Google Patents

Abstract

The utility model provides a vertical and horizontal dual-purpose 3D printing device, which comprises a motion mechanism, a surfacing mechanism and a vertical and horizontal conversion mechanism; the surfacing mechanism is arranged on the motion mechanism, and the vertical-horizontal conversion mechanism is arranged below the motion mechanism and the surfacing mechanism; the movement mechanism comprises an x movement mechanism, a y movement mechanism and a z movement mechanism, and the x movement mechanism and the z movement mechanism are respectively and vertically connected with the y movement mechanism; the surfacing mechanism comprises a welding gun, and the welding gun is connected to the y moving mechanism; the vertical-horizontal conversion mechanism comprises a first rotating device, a second rotating device and a working table; the head end of the first rotating device is a power output end, the head end of the first rotating device is fixedly connected with the tail end of the second rotating device, and the working table is fixed at the head end of the second rotating device.

Description

Vertical and horizontal dual-purpose 3D printing equipment

Technical Field

The utility model relates to a 3D printer field, concretely relates to dual-purpose 3D printing apparatus crouches immediately.

Background

3D printing is a manufacturing technology which integrates computer aided design, material processing and forming technology, and takes a digital model file as a base, and stacks special metal materials, non-metal materials and medical biological materials layer by layer through software and a numerical control system according to modes of extrusion, sintering, melting, photocuring, spraying and the like to manufacture solid objects. Compared with the traditional processing mode of removing, cutting and assembling raw materials, the method is a manufacturing method through material accumulation from bottom to top, and the manufacture of the complex structural part which is restricted by the traditional manufacturing mode and cannot be realized is possible from the beginning to the end.

The conventional 3D printer working table is generally in a vertical or horizontal single working mode, so that the vertical working mode is often adopted, and the vertical working table cannot process the side edges of some devices due to the difficulty in converting the working table;

the vertical type working mode is adopted, a supporting mechanism for supporting a product to be processed is not arranged, the product is horizontally fixed on a working table, when long-shaft parts are printed, an overlong cantilever can generate larger moment to a rotating shaft of the vertical and horizontal conversion device, the abrasion is accelerated, even the damage is caused, the temperature is higher in the process of processing the workpiece, and the workpiece can deform due to dead weight;

in the prior art, no 3D printer capable of being used in a vertical and horizontal mode in a mutual conversion mode exists, when different processing steps are required to be carried out in a vertical and horizontal mode, due to the fact that different devices are used, reference change can occur, a large amount of time is needed for manual reference correction, and work of adjusting the clamp is needed.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a dual-purpose 3D printing apparatus crouches immediately has solved and has not had the 3D printer that can vertical and horizontal interconversion use among the prior art.

The technical scheme of the utility model is realized like this: a vertical and horizontal dual-purpose 3D printing device comprises a motion mechanism, a surfacing mechanism and a vertical and horizontal conversion mechanism;

the surfacing mechanism is arranged on the motion mechanism, and the vertical-horizontal conversion mechanism is arranged below the motion mechanism and the surfacing mechanism;

the movement mechanism comprises an x movement mechanism, a y movement mechanism and a z movement mechanism, and the x movement mechanism and the z movement mechanism are respectively and vertically connected with the y movement mechanism;

the surfacing mechanism comprises a welding gun, and the welding gun is connected to the y moving mechanism;

the vertical-horizontal conversion mechanism comprises a first rotating device, a second rotating device and a working table;

the head end of the first rotating device is a power output end, the head end of the first rotating device is fixedly connected with the tail end of the second rotating device, and the working table is fixed at the head end of the second rotating device.

Preferably, the device also comprises a supporting mechanism, wherein the supporting mechanism comprises a supporting component and a three-dimensional moving device, and the supporting component is connected above the three-dimensional moving device.

Preferably, the supporting component comprises a supporting wheel and a supporting plate, the supporting wheel is arranged on the supporting plate, and the supporting plate is connected with the three-dimensional movable device.

Preferably, the three-dimensional moving device comprises a transverse device, a vertical device and a longitudinal device;

the transverse device comprises a transverse guide rail and a fourth sliding block sliding along the transverse guide rail;

the vertical device comprises a cylinder and a sliding device; the sliding device comprises a vertical guide rail and a fifth sliding block sliding along the vertical guide rail; the cylinder is fixedly connected with the sliding device through a shell and is used for driving the sliding device, and the shell is used for supporting the sliding device and is fixed on the fourth sliding block;

the longitudinal device comprises a longitudinal guide rail, a sixth sliding block and a supporting assembly, the longitudinal guide rail is fixedly connected with the shell, and the supporting plate moves on the longitudinal guide rail through the sixth sliding block.

Preferably, the first rotating device comprises a first driving device and a rotating shaft, the head end of the rotating shaft is connected with the first driving device, and the tail end of the rotating shaft is connected with the second rotating device.

Preferably, the rotating shaft comprises a rotor, a first bearing and a second bearing, the first bearing and the second bearing are respectively arranged at two ends of the rotor, the head end of the rotor is connected with the first driving device, and the tail end of the rotor is connected with the second rotating device.

Preferably, the second rotating means comprises a second driving means and a rotating member comprising a first coupling face and a second coupling face at an angle, the first coupling face being coupled to the second driving means and the second coupling face being coupled to the first rotating means.

Preferably, the second rotating device further comprises a fixing plate, one side of the fixing plate is connected with the second driving device, and the other side of the fixing plate is connected with the working table.

Preferably, the x moving mechanism is provided with a first sliding block which moves along the x moving mechanism, and the first sliding block is connected with one end of the y moving mechanism; the y moving mechanism is provided with a second sliding block which moves along the y moving mechanism, and the second sliding block is connected with one end of the z moving mechanism; the z-moving mechanism is provided with a third sliding block which moves along the z-moving mechanism, and the third sliding block is connected with the welding gun.

Preferably, the x-moving mechanism, the y-moving mechanism and the z-moving mechanism are respectively provided with a first guide rail, a second guide rail and a third guide rail, the y-moving mechanism is provided with a connecting piece used for being connected with the first sliding block, and the z-moving mechanism is provided with a connecting piece used for being connected with the second sliding block.

Compared with the prior art, the utility model has the advantages of it is following: the moving mechanism and the surfacing mechanism combination arranged in the utility model can make the welding gun move on the moving mechanism in multiple directions, thereby realizing various surfacing requirements;

the arrangement of the vertical-horizontal conversion mechanism can realize that the working table top can rotate on a plurality of axial surfaces to work and does not work on one plane singly; the problem that the working table top of the 3D printer is difficult to convert in the prior art is solved;

supporting mechanism's setting makes the utility model discloses when the great product of the less axial dimension of horizontal welding radial dimension, can play the effect that supports the product, avoid the cantilever of overlength can counter the pivot of crouching the shifter and produce great moment, wearing and tearing damage with higher speed even, perhaps because dead weight produces the deformation scheduling problem.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural view of a vertical and horizontal dual-purpose 3D printing apparatus of the present invention;

fig. 2 is a schematic structural diagram of a vertical-horizontal switching mechanism of the vertical-horizontal dual-purpose 3D printing apparatus of the present invention;

fig. 3 is an exploded view of a vertical-horizontal switching mechanism of the vertical-horizontal dual-purpose 3D printing apparatus of the present invention;

fig. 4 is a schematic structural diagram of a movement mechanism of the vertical and horizontal dual-purpose 3D printing apparatus of the present invention;

fig. 5 is a schematic structural view of the back of the movement mechanism of the vertical and horizontal dual-purpose 3D printing apparatus of the present invention;

fig. 6 is the utility model discloses a vertical and horizontal dual-purpose 3D printing apparatus's supporting mechanism's schematic structure view.

The attached drawings are as follows: 1, a vertical-horizontal switching mechanism; 11 a first rotating means; 111 a first drive means; 112 a rotating shaft; 1121 rotor; 1122 a first bearing; 1123 a second bearing; 12 a second rotating device; 121 a second drive means; 122 a dough piece; 123 fixing the plate; 13 a work table; 2, a motion mechanism; a 21x moving mechanism; 211 a first guide rail; 212 a first slider; 22y moving mechanism; 221 a second guide rail; 222 a second slider; 223 a first connecting member; 23z moving mechanism; 231 a third guide rail; 232 a third slide block; 233 a second connecting member; 235 a third connecting piece; 3, a surfacing mechanism; 31 a welding gun; a 32 discharge device; 4, a supporting mechanism; 41 supporting the assembly; 411 support wheels; 412 a support plate; 42 a three-dimensional movable device; 421 longitudinal means; 4211 longitudinal rail; 4212 a fourth slider; 422 vertical device; 4221 vertical guide rails; 4222 a fifth slider; 4223 a cylinder; 423 transverse means; 4231 transverse guide rails; 4232 sixth slider; 424 a housing; 4241 an inner shell; 4242 outer shell.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Reference is made to fig. 1-6; a vertical and horizontal dual-purpose 3D printing device comprises a motion mechanism 2, a surfacing mechanism 3 and a vertical and horizontal conversion mechanism 1;

the surfacing mechanism 3 is arranged on the motion mechanism 2, and the vertical-horizontal conversion mechanism 1 is arranged below the motion mechanism 2 and the surfacing mechanism 3; the product is assembled on the vertical-horizontal switching mechanism 1, so that the surfacing mechanism 3 is arranged above the vertical-horizontal switching mechanism 1 to facilitate welding;

the movement mechanism 2 comprises an x movement mechanism 21, a y movement mechanism 22 and a z movement mechanism 23, and the x movement mechanism 21 and the z movement mechanism 23 are respectively and vertically connected with the y movement mechanism 22;

the overlaying mechanism 3 comprises a welding gun 31, and the welding gun 31 is connected to the y moving mechanism 22; the weld overlay further includes a discharger 32, and the discharger 32 mainly supplies the welding material to the welding gun 31 in preparation for welding.

The vertical-horizontal conversion mechanism 1 comprises a first rotating device 11, a second rotating device 12 and a working table top 13;

the head end of the first rotating device 11 is a power output end, the head end of the first rotating device 11 is fixedly connected with the tail end of the second rotating device 12, and the working table surface 13 is fixed at the head end of the second rotating device 12; the second rotating device 12 drives the working table 13 to rotate around the central axis of the working table 13; the first rotating device 11 drives the second rotating device 12 to rotate around the central axis of the first rotating device 11; the self-rotation and the vertical-horizontal conversion rotation of the working table surface 13 are realized.

Further, the device also comprises a supporting mechanism 4, wherein the supporting mechanism 4 comprises a supporting component 41 and a three-dimensional moving device 42, and the supporting component 41 is connected above the three-dimensional moving device 42.

Further, the supporting component 41 includes a supporting wheel 411 and a supporting plate 412, the supporting wheel 411 is installed on the supporting plate 412, and the supporting plate 412 is connected with the three-dimensional moving device 42; the number of the supporting wheels 411 is not less than 2, preferably 2, the supporting wheels 411 are of cylindrical structures, and the 2 supporting wheels 411 are combined side by side to play an effective supporting effect on a product to be processed;

the supporting plate 412 is preferably of a U-shaped structure, the supporting wheel 411 can be more conveniently detached from the supporting plate 412 of the U-shaped structure, and the U-shaped structure can effectively fix the supporting wheel 411.

Further, the stereoscopic moving device 42 comprises a transverse device 423, a vertical device 422 and a longitudinal device 421;

the transverse device 423 comprises a transverse rail 4231 and a fourth slider 4212 sliding along the transverse rail 4231;

the vertical device 422 comprises a cylinder 4223 and a sliding device; the sliding device comprises a vertical guide rail 4221 and a fifth sliding block 4222 sliding along the vertical guide rail 4221; the air cylinder 4223 is fixedly connected with the sliding device through a shell 424 and used for driving the sliding device, and the shell 424 is used for supporting the sliding device and is fixed on the fourth sliding block 4212; the shell 424 comprises an inner shell 4241 and an outer shell 4242, the outer shell is used for fixing the vertical device 422 on the fourth sliding block 4212, the inner shell 4241, the air cylinder 4223 and the sliding device are all arranged inside the outer shell 4242, the vertical guide rail 4221 is vertically fixed on the outer shell 4242, the fifth sliding block 4222 can be arranged on the vertical guide rail 4221 in a sliding mode, the inner shell 4241 is fixedly connected with the fifth sliding block 4222, and the air cylinder 4223 is arranged inside the inner shell 4241; the movement of the cylinder 4223 can drive the inner shell 4241 to move up and down inside the outer shell 4242.

The longitudinal device is arranged above the inner shell 4241 and can move along with the movement of the inner shell 4241; meanwhile, the longitudinal device comprises a longitudinal guide rail 4211, a sixth sliding block 4232 and a support assembly 41, the longitudinal guide rail 4211 is fixedly connected with the shell 424, and the support plate 412 moves on the longitudinal guide rail 4211 through the sixth sliding block 4232.

In summary, the supporting component 41 can move longitudinally on the longitudinal rail 4211, meanwhile, the longitudinal device can move vertically on the vertical rail 4221 along with the inner shell 4241 above the inner shell 4241, then the vertical device 422 is arranged above the transverse rail 4231, the vertical device 422 can move transversely, the supporting component 41 can be driven to move in a plurality of directions by the cooperation of the transverse device 423, the vertical device 422 and the longitudinal device 421, and different supporting requirements for processing and welding different components can be met; the cylinder 4223 can adjust the supporting force by adjusting the pressure of the air source, and can provide different supporting forces for components with different weights.

Further, the first rotating device 11 includes a first driving device 111 and a rotating shaft 112, a head end of the rotating shaft 112 is connected to the first driving device 111, and a tail end of the rotating shaft 112 is connected to the second rotating device 12.

Further, the rotating shaft 112 includes a rotor 1121, a first bearing 1122 and a second bearing 1123, the first bearing 1122 and the second bearing 1123 are respectively disposed at two ends of the rotor 1121, a head end of the rotor 1121 is connected to the first driving device 111, and a tail end of the rotor 1121 is connected to the second rotating device 12; the rotation shaft 112 preferably transmits the rotation force of the first driving device 111 to the second rotating device 12 through the rotor 1121, the first bearing 1122, and the second bearing 1123.

Further, the second rotating device 12 includes a second driving device 121 and a rotating surface member 122, and the rotating surface member 122 includes a first connecting surface and a second connecting surface which are at an angle, the first connecting surface is connected with the second driving device 121, and the second connecting surface is connected with the first rotating device 11.

Further, the first driving device 111 and the second driving device 121 are preferably worm and gear mechanisms, and are matched with a control motor to drive, so that the output torque is large, and the mechanisms can be self-locked.

Further, the second rotating device 12 further comprises a fixing plate 123, one side of the fixing plate 123 is connected with the second driving device 121, and the other side of the fixing plate 123 is connected with the working table 13; the surface rotating piece 122 is arranged to enable the rotation of the first rotating device 11 to drive the second rotating device 12 to rotate on the axial surface of the first rotating device 11, so as to achieve the effect of converting the working table surface 13; wherein first connection face and the certain angle of second connection face, preferred institute's angle is 90, when first connection face becomes 90 with the second connection face, the axial of first rotating device 11 and the axial of second rotating device 12 also become 90 simultaneously, so first rotating device 11 can drive the conversion of second rotating device 12 state of crouching immediately, second rotating device 12 can carry out autonomic rotation through second drive arrangement 121 simultaneously, satisfy demands such as processing, welding, fine solution among the prior art table surface 13 can't be changed and can't process the side of some devices, use inflexible scheduling problem.

Further, the x-moving mechanism 21 is provided with a first slider 212 moving along the x-moving mechanism 21, and the first slider 212 is connected with one end of the y-moving mechanism 22; the y moving mechanism 22 is provided with a second slide block 222 moving along the y moving mechanism 22, and the second slide block 222 is connected with one end of the z moving mechanism 23; the z-moving mechanism 23 is provided with a third slider 232 that moves along the z-moving mechanism 23, and the third slider 232 is connected to the welding torch 31.

Further, the x-moving mechanism 21, the y-moving mechanism 22, and the z-moving mechanism 23 are respectively provided with a first guide rail 211, a second guide rail 221, and a third guide rail 231, the y-moving mechanism 22 is provided with a first link 223 for connecting with the first slider 212, and the z-moving mechanism 23 is provided with a second link 233 for connecting with the second slider 222.

The movement mechanism 2 is a three-axis translation mechanism, the x movement mechanism 21 is a main movement range, a first guide rail 211 and a first sliding block 212 arranged on the first guide rail 211 are arranged on the side edge of the x movement mechanism 21, the first connecting piece 223 is a vertical component, one side of the first connecting piece is connected to the first guide rail 211 on the side edge of the x movement mechanism 21 through the first sliding block 212, and the other side of the first connecting piece is fixedly connected to the y movement mechanism 22, so that the y movement mechanism 22 is kept above the x movement mechanism 21;

a second guide rail 221 and a second slider 222 arranged on the second guide rail 221 are arranged above the y moving mechanism 22, the second connecting piece 233 is a vertical component, and is fixedly connected to the z moving mechanism 23 while being connected to the second guide rail 221 above the y moving mechanism 22 through the second slider 222, so that the z moving mechanism 23 is vertically kept at the side edge of the y moving mechanism 22;

the z-moving mechanism 23 is provided with a third guide rail 231 and a third slide block 232 arranged on the third guide rail 231, and the gun head is connected to the third slide block 232 through a third connecting piece 235;

in summary, the gun head can move along the z-axis direction on the third guide rail 231 along with the third slider 232, the z-moving mechanism 23 can move along the y-axis direction on the second guide rail 221 along with the second slider 222, and the y-moving mechanism 22 can move along the x-axis direction on the first guide rail 211 along with the first slider 212, so that the gun head can move along the x, y and z directions, and various welding requirements can be met.

Compared with the prior art, the utility model has the advantages of it is following: the combination of the movement mechanism 2 and the surfacing mechanism 3 provided by the utility model can make the welding gun 31 move on the movement mechanism 2 in multiple directions, thereby realizing various surfacing requirements;

the arrangement of the vertical-horizontal conversion mechanism 1 can realize that the working table surface 13 can rotate on a plurality of axial surfaces and does not work on one plane singly; the problem that the working table top 13 of the 3D printer is difficult to convert in the prior art is solved;

supporting mechanism 4 sets up and makes the utility model discloses when the great product of the less axial dimension of horizontal welding radial dimension, can play the effect that supports the product, avoid the cantilever of overlength can counter pivot 112 of crouching shifter 1 to produce great moment, wearing and tearing damage even with higher speed, perhaps because dead weight produces the deformation scheduling problem.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a dual-purpose 3D printing apparatus crouches immediately which characterized in that: comprises a motion mechanism, a surfacing mechanism and a vertical-horizontal conversion mechanism;

the surfacing mechanism is fixed on the movement mechanism;

the vertical-horizontal conversion mechanism is positioned below the movement mechanism and the surfacing mechanism;

the motion mechanism comprises an x-moving mechanism, a y-moving mechanism and a z-moving mechanism, and the x-moving mechanism and the z-moving mechanism are respectively and vertically connected with the y-moving mechanism;

the surfacing mechanism comprises a welding gun, and the welding gun is connected to the y-moving mechanism;

the vertical-horizontal conversion mechanism comprises a first rotating device, a second rotating device and a working table;

the head end of the first rotating device is a power output end, the head end of the first rotating device is fixedly connected with the tail end of the second rotating device, and the working table is fixed at the head end of the second rotating device.

2. The vertical-horizontal dual-purpose 3D printing apparatus according to claim 1, wherein: the support mechanism comprises a support component and a three-dimensional moving device, and the support component is connected above the three-dimensional moving device.

3. The vertical-horizontal dual-purpose 3D printing apparatus according to claim 2, wherein: the supporting component comprises a supporting wheel and a supporting plate, the supporting wheel is arranged on the supporting plate, and the supporting plate is connected with the three-dimensional movable device.

4. The vertical-horizontal dual-purpose 3D printing apparatus according to claim 3, wherein: the three-dimensional moving device comprises a transverse device, a vertical device and a longitudinal device;

the transverse device comprises a transverse guide rail and a fourth sliding block sliding along the transverse guide rail;

the vertical device comprises a cylinder and a sliding device; the sliding device comprises a vertical guide rail and a fifth sliding block sliding along the vertical guide rail; the cylinder is fixedly connected with the sliding device through a shell and is used for driving the sliding device, and the shell is used for supporting the sliding device and is fixed on the fourth sliding block;

the longitudinal device comprises a longitudinal guide rail, a sixth sliding block and a supporting assembly, the longitudinal guide rail is fixedly connected with the shell, and the supporting plate moves on the longitudinal guide rail through the sixth sliding block.

5. The vertical-horizontal dual-purpose 3D printing apparatus according to claim 1, wherein: the first rotating device comprises a first driving device and a rotating shaft, the head end of the rotating shaft is connected with the first driving device, and the tail end of the rotating shaft is connected with the second rotating device.

6. The vertical-horizontal dual-purpose 3D printing apparatus according to claim 5, wherein: the rotating shaft comprises a rotor, a first bearing and a second bearing, the first bearing and the second bearing are respectively arranged at two ends of the rotor, the head end of the rotor is connected with the first driving device, and the tail end of the rotor is connected with the second rotating device.

7. The vertical-horizontal dual-purpose 3D printing apparatus according to claim 1, wherein: the second rotating device comprises a second driving device and a rotating surface piece, the rotating surface piece comprises a first connecting surface and a second connecting surface which form a certain angle, the first connecting surface is connected with the second driving device, and the second connecting surface is connected with the first rotating device.

8. The vertical-horizontal dual-purpose 3D printing apparatus according to claim 7, wherein: the second rotating device further comprises a fixing plate, one side of the fixing plate is connected with the second driving device, and the other side of the fixing plate is connected with the working table.

9. The vertical-horizontal dual-purpose 3D printing apparatus according to claim 1, wherein: the x moving mechanism is provided with a first sliding block which moves along the x moving mechanism, and the first sliding block is connected with one end of the y moving mechanism; the y moving mechanism is provided with a second sliding block which moves along the y moving mechanism, and the second sliding block is connected with one end of the z moving mechanism; the z-moving mechanism is provided with a third sliding block which moves along the z-moving mechanism, and the third sliding block is connected with the welding gun.

10. The vertical-horizontal dual-purpose 3D printing apparatus according to claim 1, wherein: the x moving mechanism, the y moving mechanism and the z moving mechanism are respectively provided with a first guide rail, a second guide rail and a third guide rail, the y moving mechanism is provided with a connecting piece used for being connected with the first sliding block, and the z moving mechanism is provided with a connecting piece used for being connected with the second sliding block.

Images