阅读说明：本技术 一种基于SLM技术的金属3d打印机 (Metal 3d printer based on SLM technology ) 是由 王海涛 马志强 于 2021-03-08 设计创作，主要内容包括：本发明公开了一种基于SLM技术的金属3d打印机,包括打印机体、控制柜、风机与过滤组成,打印机体包括舱室,舱室的顶端安装有激光组件,舱室的内部安装有刮刀驱动装置,舱室的底端安装有升降缸A和升降缸B；控制柜包括支架组成A,打印机体固定安装于支架组成A顶端,支架组成A内部安装有激光发生器、伺服电机控制器和电气控制柜；风机与过滤组成包括支架组成B,支架组成B内安装有气体过滤设备和风机；本发明打印机体独立为一体,风机与过滤组成作为独立的一步分,不与打印机直接固连,能够充分隔绝风机带来的振动,从而保证打印机的加工精度；打印机体与控制柜布局紧凑、科学,能够充分的节省空间,减少占地面积。(The invention discloses a metal 3d printer based on an SLM (selective laser melting) technology, which comprises a printer body, a control cabinet, a fan and a filter, wherein the printer body comprises a cabin, a laser component is installed at the top end of the cabin, a scraper driving device is installed inside the cabin, and a lifting cylinder A and a lifting cylinder B are installed at the bottom end of the cabin; the control cabinet comprises a support assembly A, the printer body is fixedly arranged at the top end of the support assembly A, and a laser generator, a servo motor controller and an electrical control cabinet are arranged in the support assembly A; the fan and filter assembly comprises a support assembly B, and gas filter equipment and a fan are arranged in the support assembly B; the printer body is independent and integrated, the fan and the filter form an independent step, the fan and the filter are not directly fixedly connected with the printer, and the vibration caused by the fan can be fully isolated, so that the processing precision of the printer is ensured; the printer body and the control cabinet are compact and scientific in layout, space can be fully saved, and occupied area is reduced.)

1. The utility model provides a metal 3d printer based on SLM technique, is constituteed (3) including printing organism (1), switch board (2), fan and filtration, its characterized in that, print organism (1) including cabin (11), laser subassembly (12) are installed on the top of cabin (11), the internally mounted of cabin (11) has scraper drive arrangement (13), lift cylinder A (14) and lift cylinder B (15) are installed to the bottom of cabin (11), and the jar mouth of lift cylinder A (14) and lift cylinder B (15) extends to the inside of cabin (11), the transmission is installed on scraper drive arrangement (13) and is located the scraper of lift cylinder A (14) and lift cylinder B (15) jar mouth top; the control cabinet (2) comprises a support assembly A (21), the printer body (1) is fixedly installed at the top end of the support assembly A (21), and a laser generator (22), a servo motor controller (23) and an electric control cabinet (24) are installed inside the support assembly A (21); the fan and filter assembly (3) comprises a support assembly B (31), gas filtering equipment (32) and a fan (33) are installed in the support assembly B (31), and the gas filtering equipment (32) and the fan (33) are communicated with the cabin (11).

2. The SLM technology-based metal 3d printer according to claim 1, wherein the chamber (11) comprises a top plate, a bottom plate, a back plate and side plates, and adjacent plates are clamped and fixed by grooves and are sealed by a sealant; a glass lens (111) positioned below the laser component (12) is installed on the top surface of the cabin (11), and an upper air supply outlet (112) and a lower air supply outlet (113) are respectively installed at the upper end and the lower end of the back surface of the cabin (11); an air return port seat (114) is installed on one side of the bottom surface of the cabin (11), and an air return port (115) is fixedly installed at the bottom end of the air return port seat (114); and a receiving hopper (116) is fixedly arranged on the bottom plate of the cabin (11).

3. The SLM technology-based metal 3d printer according to claim 1, wherein the scraper driving device (13) comprises a slide rail seat (131), a linear guide rail (130) is installed in a sliding groove of the slide rail seat (131), a driven shaft is installed at one end of the slide rail seat (131), a driving shaft and a servo motor (135) in transmission connection with the driving shaft are installed at the other end of the slide rail seat, driven pulleys (132) are installed on the driven shafts, driving pulleys (133) are installed on the driving shafts, and a high-torque synchronous toothed belt (134) is installed between the driven pulleys (132) and the driving pulleys (133); sliding mounting has slider (136) on linear guide (130), one side fixed mounting of slider (136) has slide connecting plate (137), fixed mounting has synchronous cog belt metalwork and scrapes the knife body (138) on slide connecting plate (137), synchronous cog belt metalwork is connected with the synchronous cog belt (134) meshing transmission of high moment of torsion, the downside fixed mounting who scrapes the knife body (138) has scrapes tooth (139).

4. The SLM-based metal 3d printer according to claim 1, wherein the laser assembly (12) comprises a mounting tube (121), a connecting base (125) and a laser lens (124), one end of the mounting tube (121) is fixedly provided with a connecting base (122), an inner hexagon screw is arranged on the connecting base (122), and the laser lens (124) is fixedly arranged on the outer side surface of the connecting base (122) through the inner hexagon screw; the bottom end of the mounting pipe (121) is fixedly connected with a stud (126), a rotary nut (128) and a small round nut (129) located above the rotary nut (128) are mounted on the stud (126) in a threaded mode, a split sleeve (127) is fixedly mounted at the top end of the connecting base (125), the rotary nut (128) is movably inserted into the split sleeve (127), and a limit screw (123) in sliding connection with the stud (126) is mounted on the side wall of the connecting base (125).

5. The SLM technology-based metal 3d printer as claimed in claim 1, wherein the servo motor controller (23) and the laser generator (22) are horizontally installed at the lower end of the bracket assembly A (21), the electrical control cabinet (24) is fixedly installed at the rear side of the upper end of the bracket assembly A (21), and the cabinet door of the electrical control cabinet (24) faces backwards.

6. A SLM technology based metal 3d printer according to claim 1 characterized in that the holder component a (21) and the holder component B (31) are of split design.

7. The SLM-based metal 3d printer according to claim 2, wherein a smoke filter screen is installed in the gas filtering device (32), argon gas is filled in the gas filtering device (32), the gas outlet end of the gas filtering device (32) is communicated with the gas inlet end of a fan (33), the gas outlet end of the fan (33) is communicated with the upper air supply outlet (112) and the lower air supply outlet (113) of the chamber (11), and the gas inlet end of the gas filtering device (32) is communicated with the air return inlet (115) of the chamber (11).

Technical Field

The invention relates to a 3d printer, in particular to a metal 3d printer based on an SLM (selective laser melting) technology.

Background

The 3D printer is a machine of a rapid prototyping technology, which is a technology for constructing an object by using a layer-by-layer printing mode by using an adhesive material such as powdered metal or plastic on the basis of a digital model file, the metal 3D printing can directly manufacture a metal part with metallurgical bonding, compactness close to 100%, higher dimensional precision and better surface roughness by using single metal or mixed metal powder, and the metal 3D printing has unique advantages in the aspects of design, individuation and customized manufacture of complex geometric shapes, such as aviation components, cutter grinding tools, jewelry and personalized medical biological implants, mechanical assembly-free parts and the like.

And (3) SLM full name: selective laser melting (Selective laser melting) is a rapid metal powder forming technology, and a metal 3d printer adopting an SLM (Selective laser melting) technology can directly form metal parts close to complete density. However, the existing SLM metal 3d printer is complex in structure, large in occupied space, low in printing precision, capable of generating polluting smoke when metal powder is sintered and printed, and not energy-saving and environment-friendly.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the metal 3D printer based on the SLM technology, which is simple, reliable and stable in structure, space-saving and environment-friendly, can treat and recycle smoke generated inside, improves the printing precision and realizes the 3D printing function of metal products.

In order to solve the technical problems, the invention provides the following technical scheme:

a metal 3d printer based on an SLM technology comprises a printer body, a control cabinet, a fan and a filter, wherein the printer body comprises a cabin, a laser assembly is installed at the top end of the cabin, a scraper driving device is installed inside the cabin, a lifting cylinder A and a lifting cylinder B are installed at the bottom end of the cabin, cylinder openings of the lifting cylinder A and the lifting cylinder B extend into the cabin, and scrapers located above the cylinder openings of the lifting cylinder A and the lifting cylinder B are installed on the scraper driving device in a conveying mode; the control cabinet comprises a support assembly A, the printer body is fixedly mounted at the top end of the support assembly A, and a laser generator, a servo motor controller and an electrical control cabinet are mounted in the support assembly A; the fan and the filter component comprise a support component B, gas filtering equipment and a fan are installed in the support component B, and the gas filtering equipment and the fan are communicated with the cabin.

As a preferred technical scheme of the invention, the cabin comprises a top plate, a bottom plate, a back plate and side plates, and adjacent plates are clamped and fixed through grooves and are bonded and sealed through sealing glue; the top surface of the cabin is provided with a glass lens positioned below the laser component, and the upper end and the lower end of the back surface of the cabin are respectively provided with an upper air supply outlet and a lower air supply outlet; an air return port seat is installed on one side of the bottom surface of the cabin, and an air return port is fixedly installed at the bottom end of the air return port seat; and a receiving hopper is fixedly arranged on the bottom plate of the cabin.

As a preferred technical scheme of the invention, the scraper driving device comprises a slide rail seat, a linear guide rail is installed in a chute of the slide rail seat, a driven shaft is installed at one end of the slide rail seat, a driving shaft and a servo motor in transmission connection with the driving shaft are installed at the other end of the slide rail seat, driven pulleys are installed on the driven shafts, driving pulleys are installed on the driving shafts, and a high-torque synchronous toothed belt is installed between the driven pulleys and the driving pulleys in a transmission manner; sliding mounting has the slider on the linear guide, one side fixed mounting of slider has the slide connecting plate, fixed mounting has synchronous cog belt metalwork and scrapes the knife body on the slide connecting plate, synchronous cog belt metalwork is connected with the synchronous cog belt meshing transmission of high moment of torsion, the downside fixed mounting who scrapes the knife body scrapes the tooth.

As a preferred technical scheme of the invention, the laser assembly comprises an installation tube, a connection base and a laser lens, wherein one end of the installation tube is fixedly provided with a connection base, the connection base is provided with an inner hexagon screw, and the laser lens is fixedly arranged on the outer side surface of the connection base through the inner hexagon screw; the bottom fixedly connected with double-screw bolt of installation pipe, the screw thread is installed with swivel nut and the little round nut that is located swivel nut top on the double-screw bolt, the top fixed mounting of connection base has to the cover of opening, swivel nut activity cartridge is in opening the cover to, install the stop screw with double-screw bolt sliding connection on the lateral wall of connection base.

As a preferred technical scheme of the present invention, the servo motor controller and the laser generator are both horizontally mounted at the lower end of the bracket assembly a, the electrical control cabinet is fixedly mounted at the rear side surface of the upper end of the bracket assembly a, and the cabinet door of the electrical control cabinet faces backwards.

As a preferred technical scheme of the invention, the bracket component A and the bracket component B adopt a split type design.

As a preferred technical scheme of the invention, a smoke dust filter screen is installed in the gas filtering equipment, argon is filled in the gas filtering equipment, the gas outlet end of the gas filtering equipment is communicated with the gas inlet end of a fan, the gas outlet end of the fan is communicated with an upper air supply outlet and a lower air supply outlet of a cabin, and the gas inlet end of the gas filtering equipment is communicated with an air return inlet of the cabin.

Compared with the prior art, the invention can achieve the following beneficial effects:

the printer body is independent and integrated, the fan and the filter form an independent step, the fan and the filter are not directly fixedly connected with the printer, and the vibration caused by the fan can be fully isolated, so that the processing precision of the printer is ensured; the printer body and the control cabinet are compact and scientific in layout, so that the space can be fully saved, and the occupied area is reduced; the printer body adopts the leakproofness cabin, and the cabin is connected with gas filtration equipment simultaneously, can handle the circulation with the inside smoke and dust that produces because of metal sintering prints of cabin and use, and is energy-concerving and environment-protective more.

Drawings

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

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic view of the structure of the cabin of the present invention;

FIG. 4 is a schematic view of the construction of the doctor blade drive of the present invention;

FIG. 5 is a schematic structural view of a laser assembly of the present invention;

wherein: 1. a printer body; 11. a cabin; 111. a glass lens; 112. an upper air supply outlet; 113. a lower air supply outlet; 114. an air return port seat; 115. an air return opening; 116. a receiving hopper; 12. a laser assembly; 121. installing a pipe; 122. a connecting seat; 123. a limit screw; 124. a laser lens; 125. connecting a base; 126. a stud; 127. splitting the sleeve; 128. rotating the nut; 129. a small round nut; 13. a scraper drive device; 130. a linear guide rail; 131. a slide rail seat; 132. a driven pulley; 133. a driving pulley; 134. a high torque synchronous toothed belt; 135. a servo motor; 136. a slider; 137. a slide seat connecting plate; 138. a scraper body; 139. scraping teeth; 14. a lifting cylinder A; 15. a lifting cylinder B; 2. a control cabinet; 21. a bracket composition A; 22. a laser generator; 23. a servo motor controller; 24. an electrical control cabinet; 3. a fan and a filter; 31. a bracket component B; 32. a gas filtration device; 33. a fan.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Referring to fig. 1-5, a metal 3d printer based on SLM technology includes a printer body 1, a control cabinet 2, a fan and a filter assembly 3, where the printer body 1 includes a cabin 11, a laser assembly 12 is installed at a top end of the cabin 11, a scraper driving device 13 is installed inside the cabin 11, a lift cylinder a14 and a lift cylinder B15 are installed at a bottom end of the cabin 11, cylinder ports of the lift cylinder a14 and the lift cylinder B15 extend into the cabin 11, and scrapers located above cylinder ports of the lift cylinder a14 and the lift cylinder B15 are installed on the scraper driving device 13 in a conveying manner; the control cabinet 2 comprises a support assembly A21, the printer body 1 is fixedly mounted at the top end of the support assembly A21, and a laser generator 22, a servo motor controller 23 and an electric control cabinet 24 are mounted inside the support assembly A21; the fan and filter assembly 3 comprises a support assembly B31, a gas filter device 32 and a fan 33 are installed in the support assembly B31, and the gas filter device 32 and the fan 33 are both communicated with the cabin 11.

The cabin 11 comprises a top plate, a bottom plate, a back plate and side plates, and adjacent plates are clamped and fixed through grooves and are bonded and sealed through sealing glue; a glass lens 111 positioned below the laser component 12 is installed on the top surface of the cabin 11, and an upper air supply outlet 112 and a lower air supply outlet 113 are respectively installed at the upper end and the lower end of the back surface of the cabin 11; an air return port seat 114 is installed on one side of the bottom surface of the cabin 11, and an air return port 115 is fixedly installed at the bottom end of the air return port seat 114; fixed mounting has on the bottom plate of cabin 11 to connect hopper 116, and overall structure is firm reliable, and stability is good, and the sealed glue of draw-in groove structural cooperation, the leakproofness is good, and metal powder or flue gas leak when can effectually preventing to print the sintering, and is more energy-concerving and environment-protective, connects hopper 116 to conveniently retrieve the interior unnecessary metal of cabin and prints the powder.

The scraper driving device 13 comprises a slide rail seat 131, a linear guide rail 130 is installed in a sliding groove of the slide rail seat 131, a driven shaft is installed at one end of the slide rail seat 131, a driving shaft and a servo motor 135 in transmission connection with the driving shaft are installed at the other end of the slide rail seat 131, driven pulleys 132 are installed on the driven shaft, driving pulleys 133 are installed on the driving shaft, and a high-torque synchronous toothed belt 134 is installed between the driven pulleys 132 and the driving pulleys 133 in a transmission manner; the automatic printing device is characterized in that a sliding block 136 is slidably mounted on the linear guide rail 130, a sliding seat connecting plate 137 is fixedly mounted on one side of the sliding block 136, a synchronous toothed belt metal piece and a scraper body 138 are fixedly mounted on the sliding seat connecting plate 137, the synchronous toothed belt metal piece is in meshing transmission connection with the high-torque synchronous toothed belt 134, scraping teeth 139 are fixedly mounted on the lower side of the scraper body 138, when the automatic printing device works, a servo motor 135 drives a driving pulley 133 through a driving shaft to drive the high-torque synchronous toothed belt 134 to transmit, the high-torque synchronous toothed belt 134 drives the sliding seat connecting plate 137 and the sliding block to slide along the linear guide rail 130 through the synchronous toothed belt metal piece to form a linear motion pair, so that the scraper body 138 is driven to perform linear motion, printing powder in a lifting cylinder is loaded through the scraping teeth 139, and the automatic; the integral design, the whole can directly install on the cabin board, and the leakproofness is good, compact structure.

The laser assembly 12 comprises an installation tube 121, a connection base 125 and a laser lens 124, wherein one end of the installation tube 121 is fixedly provided with a connection seat 122, the connection seat 122 is provided with an inner hexagonal screw, and the laser lens 124 is fixedly arranged on the outer side surface of the connection seat 122 through the inner hexagonal screw; a stud 126 is fixedly connected to the bottom end of the mounting tube 121, a rotating nut 128 and a small round nut 129 located above the rotating nut 128 are mounted on the stud 126 in a threaded manner, a split sleeve 127 is fixedly mounted at the top end of the connecting base 125, the rotating nut 128 is movably inserted into the split sleeve 127, and a limit screw 123 connected with the stud 126 in a sliding manner is mounted on the side wall of the connecting base 125; when the height of the laser lens 124 needs to be adjusted, the small round nut 129 can be firstly unscrewed upwards along the stud 126 to enable the stud 126 not to be pressed and fixed any more, then the rotary nut 128 starts to rotate, so that the stud 126 is driven to lift through the thread transmission between the rotary nut 128 and the stud 126, the mounting pipe 121 and the laser lens 124 are driven to lift integrally, the height and the focal length of the laser lens 124 are adjusted, and when the stud 126 lifts, the end of the limit screw 123 slides up and down in the limit sliding groove in the stud 126 to limit the stud 126 and prevent the stud 126 from rotating.

The equal horizontal installation of servo motor controller 23, laser generator 22 is in the lower extreme that the support constitutes A21, saves space, and whole arranging is inseparable, electrical control cabinet 24 fixed mounting is in the trailing flank of the support constitution A21 upper end, just electrical control cabinet 24's cabinet door is backward, makes the regulator cubicle open from the back and looks over the maintenance, makes it overhaul more convenient, and electrical control cabinet leans on the back to install simultaneously, makes the frame constitute the upper end front side and leaves sufficient space, can be used to install the lift cylinder for printing, can save space, and whole arranging is inseparabler.

A21 is constituteed to the support and B31 adopts split type design with the support, makes the printer body independently as an organic whole, and the fan is constituteed as independent one step with filtering, does not directly link firmly with the printer, can fully isolated the vibration that the fan brought to guarantee the machining precision of printer.

A smoke dust filter screen is installed in the gas filtering equipment 32, argon gas is filled in the gas filtering equipment 32, the gas outlet end of the gas filtering equipment 32 is communicated with the gas inlet end of the fan 33, the gas outlet end of the fan 33 is communicated with the upper air supply outlet 112 and the lower air supply outlet 113 of the cabin 11, the gas inlet end of the gas filtering equipment 32 is communicated with the air return inlet 115 of the cabin 11, when the gas filtering equipment works, the fan 33 is started to convey argon gas into the printing cabin, and the argon gas is stable in property and can be used as protective gas during printing; then the smoke dust generated by printing and sintering in the cabin and the argon gas enter the gas filtering equipment 32 together from the air return inlet of the cabin, and the smoke dust filtering net filters the argon gas and the printed and sintered smoke dust, so that the cyclic utilization of the argon gas is realized.

Specifically, when the device works, the printer receives a working instruction, the fan 33 fills argon gas into the device cabin 11, the lifting cylinder B15 is filled with printing powder firstly when printing starts, the piston in the cylinder is at a low position, the lifting cylinder A14 is empty when printing starts, and the piston in the cylinder is at a high position; during printing, the piston in the lifting cylinder A14 descends by one layer, and the piston in the lifting cylinder B15 ascends by one layer, so that a part of printing powder is ejected; then the scraper driving device 13 drives the scraper to scrape the powder from the lifting cylinder B15 to the lifting cylinder A14 from the position of the lifting cylinder B15 and return to the rightmost initial position, meanwhile, the redundant powder is scraped and sent to the receiving hopper 116, the laser generator 22 is matched with the laser assembly 12 to perform printing sintering according to the requirement of the printed object, and the printed powder is printed and molded; the generated smoke dust is recycled to the gas filtering equipment 32 for reuse; in the second printing pass, the piston in cylinder A14 is lowered one more level and the piston in cylinder B15 is raised one more level, and printing is performed in the same manner.

The printer body is independent and integrated, the fan and the filter form an independent step, the fan and the filter are not directly fixedly connected with the printer, and the vibration caused by the fan can be fully isolated, so that the processing precision of the printer is ensured; the printer body and the control cabinet are compact and scientific in layout, so that the space can be fully saved, and the occupied area is reduced; the printer body adopts the leakproofness cabin, and the cabin is connected with gas filtration equipment simultaneously, can handle the circulation with the inside smoke and dust that produces because of metal sintering prints of cabin and use, and is energy-concerving and environment-protective more.

The embodiments of the present invention are not limited thereto, and according to the above-described embodiments of the present invention, other embodiments obtained by modifying, replacing or combining the above-described preferred embodiments in various other forms without departing from the basic technical idea of the present invention by using the conventional technical knowledge and the conventional means in the field can fall within the scope of the present invention.