CN109079138A - Substrate and repeated using method are reused in a kind of increasing material manufacturing - Google Patents

Abstract

The invention discloses a kind of increasing material manufacturings to reuse substrate, including the substrate that is parallel to each other by powdering face and workbench binding face, it is characterized in that at least three boss are arranged in the workbench binding face, counter sink is provided on the boss, the counter sink is used for the fixed installation of substrate and 3D printing workbench.The present invention be easier to guarantee substrate geometric tolerance, it is easier to realize in 3D printing powdering it is uniform closely knit, reduce the difficulty of processing coefficient of substrate, accelerate the service efficiency of substrate.

Description

Substrate and repeated using method are reused in a kind of increasing material manufacturing

Technical field

The present invention relates to increases material manufacturing technology field, substrate and reuse side are reused in specifically a kind of increasing material manufacturing Method.

Background technique

Increases material manufacturing technology (also referred to as " 3D printing ") is based on Computerized three-dimensional CAD model, by the way of successively accumulating Directly manufacture the method for three dimensional physical entity.In view of the superiority of increasing material manufacturing itself, occur all kinds of specific aim 3D at present Printing technique is such as: precinct laser fusion, direct metal fusion sediment, the solidification of photosensitive resin selectivity, precinct laser sintering, 3D spray Penetrating modes, the these types of 3D printing methods such as printing has the bottom plate depended on using substrate as 3D printing workpiece.Thus substrate table The Pingdu in face and the depth of parallelism of substrate top and bottom directly affect 3D printing workpiece quality.

Below for industrially using relatively broad precinct laser fusion 3D printing technique at present, to illustrate substrate Influence of the geometric tolerance to printing workpiece.

Precinct laser fusion process is will to be laid in substrate surface by metal powder material from level to level using scraper.It is logical Control system control laser beam is crossed, the profile on powder according to workpiece in the section of this layer is scanned.Make the temperature of powder Melting point is risen to, clinkering forms the initial section of workpiece.3D printing workbench declines the thickness of a powdering layer together with substrate therewith, Powder is tiled to the upper surface of molded workpiece interface again by scraper, and is heated to being just below the powder clinkering point A certain temperature controls laser beam by control system, then is scanned on powder according to the cross section profile of this layer, makes powder Temperature rises to melting point and carries out clinkering again, and realizes and bond with following molded part.After the completion of this layer cross section clinkering, 3D printing workbench will decline the thickness of a powdering layer together with substrate again, and dusty material carries out again by scraper above flat Paving carries out the clinkering of a new layer cross section, until completing entire workpiece.Entire 3D printing work is risen after workpiece printing finishes Platform cleans up excessive powder and removes workpiece of the clinkering on substrate from 3D printing workbench together, cut by line or its He separates workpiece and substrate process means.Most start substrate and 3D printing work when printing it can be seen from the above-mentioned course of work The flat conditions for making the surface of platform are directly related to scraper in the packed uniform situation of the powdering layer of substrate surface.And 3D printing work Make the smooth of platform to be determined by equipment, equipment manufacturer can disposably mix up during installation, but substrate is then different, and substrate is can be into The row later period is machined or by workpiece printing person's self manufacture, is installed on 3D printing workbench by screw.Therefore substrate By the flatness in powdering face, the depth of parallelism on substrate two sides by powdering surface and between 3D printing workbench binding face is to powdering layer Packed uniform situation influence it is the most direct.And due to during increasing material manufacturing by preheating and laser sintered process high temperature It influences, substrate surface can generate certain deformation quantity after the completion of printing every time, and cut the workpiece meeting of separation after printing from plate line Workpiece pedestal or support are remained by powdering face in substrate, in order to achieve the purpose that the recycling of substrate can all carry out substrate again Secondary milling is processed come the depth of parallelism of the flatness and upper and lower surface that guarantee the surface of substrate.

The prior art as shown in Figure 1, after the completion of the increasing material manufacturing, by mill, grind substrate by powdering face, make the flat of its face Face degree reaches requirement；Then substrate is regard as datum level by the overturning of powdering face, milled, the binding face of mill and 3D printing workbench, The flatness in face required for reaching and the depth of parallelism on two sides.It is bonded due to substrate by powdering face and with 3D printing workbench The area on face two sides is larger (as shown in Figure 1), causes milling that man-hour requirement is added to use biggish milling cutter or grinding wheel, causes in this way Coolant liquid is difficult at the point of a knife for being ejected into milling cutter completely when processing or grinding wheel and workpiece cut contact position, when causing cutting it is cooling not Enough heat waste cutters reduce processing efficiency；The abrasion of milling cutter or grinding wheel cutter during the cutting process, also causes the phase of round-trip milling The height in adjacent two positions face will be different；Working (finishing) area is larger to be also led to milling cutter or grinding wheel and cuts number back and forth and increase, and is made Obtain the deformation of workpiece machined surface accumulation of heat；Working (finishing) area is larger to cause round-trip milling direction to be not easy to adjust consistency, will lead to Adjacent position removes quantity of material and generates difference.

Thus existing substrate processing method, it is more difficult to the depth of parallelism for reaching required facial plane degree and two sides, especially with difficulty Guarantee the depth of parallelism outstanding problem on substrate two sides.And the flatness of real estate and the depth of parallelism on two sides, directly influence each 3D The uniform closely knit situation of powdering when printing.And the difficulty of processing of existing substrate, cause each process time too long and it is economical at This is higher, reduces the service efficiency of substrate.

Secondly, substrate after the completion of 3D printing, is directly freely placed in above line ceding of Taiwan frame by the prior art manually, carry out Line cuts the separation with substrate.Since substrate is freely to be placed in above line ceding of Taiwan frame manually, it is difficult to guarantee substrate and line ceding of Taiwan frame Verticality and the depth of parallelism, therefore line cuts separation workpiece and substrate every time, can artificially be left remaining work on powdering face in substrate Part pedestal and support, and lead to secondary grinding Milling Machining of the substrate to be carried out by powdering face.In this way make substrate to reusing Time is too long, also reduces working efficiency, and then increase processing cost.

Existing substrate thickness is that 15mm (as shown in Figure 1) thickness is excessively thin, repeatedly repeatedly under the external forces such as sandblasting or Moderate finite deformation amount is also easy to produce in the heated situation of laser.

Summary of the invention

The present invention is to overcome the shortcomings of in the above-mentioned prior art and provide a kind of increasing material manufacturing and reuse substrate, including phase Mutually parallel substrate is by powdering face and workbench binding face, it is characterised in that the workbench binding face setting at least three is convex Platform, on the substrate on be provided with counter sink, the counter sink is used for the fixed installation of substrate and 3D printing workbench.

Further, the counter sink is located on boss.

Preferably, there are four the boss, four right angles of the workbench binding face are separately positioned on.

Further, the thickness of the substrate increases by 50%~100% relative to conventional substrate.

Preferably, the thickness of the substrate increases by 60%~80% relative to conventional substrate.

Preferably, the thickness of conventional base plate is generally 10-20mm, and substrate thickness of the invention (including boss) is 15- 40mm, it is further preferred that being 16-36mm.

The repeated using method of substrate is reused based on a kind of increasing material manufacturing, it is characterised in that the following steps are included:

Step 1, after the completion of increasing material manufacturing, obtained by cutting separating base plate and workpiece by powdering face, make the flat of its face Face degree reaches requirement；

Step 2 regard substrate as datum level by the overturning of powdering face, what planarizing process and 3D printing workbench fitted The surface of boss, and the flatness in face required for reaching and the depth of parallelism on two sides；

Step 3, the 3D printing table surface that the surface of boss after processing is completed is fitted in 3D printing equipment, with tight Substrate is anchored on 3D printing workbench by firmware；

Step 4, material powder are tiled in substrate by powdering face, to realize that powdering is uniformly closely knit when 3D printing, more preferably Guarantee 3D printing workpiece quality.

Further, the cutting mode in step 1 is chosen as the conventional cutting mode such as laser cutting, wire cutting.

Further, it is preferable to be cut to cut tooling line using fixed substrate line.

Specifically, fixed substrate line described in step 1 cuts tooling, including be bonded with substrate substrate fitting stationary plane, Fixed mechanism, the fixed mechanism are bonded for substrate fitting stationary plane with the surface of substrate boss.

Specifically, the fixed mechanism includes fixed screw holes, fixed spoke, clamping screw, passes through the clamping screw Fixed spoke and line ceding of Taiwan frame is set to be linked to be entirety.

Further, the mode of planarizing process described in the step 2 is chosen as milling and/or grind.

Specifically, step 1 middle line, which cuts separating base plate, and workpiece is obtained reaches the flatness in its face by powdering face to want It asks method particularly includes: substrate boss face is fixed on substrate fitting stationary plane, alignment plane side is corrected by using dial gauge Method controls so that the flatness and verticality of substrate and line ceding of Taiwan frame are within 0.05 millimeter of the margin of tolerance, so that line be made to cut Cutting wire adhesive substrates by powdering face directly cut separation workpiece and substrate, obtained substrate be in by the flatness allowance of powdering Within 0.05 millimeter.

Since the boss (such as Fig. 4) that substrate manufacture of the present invention comes out certain altitude uses substrate binding face relative to existing (such as Fig. 1), area greatly reduces, and boss integral face of the present invention is caused to be more easily implemented the flatness in face.Because of boss of the present invention (such as Fig. 4) integral face causes to process relative to the reduction of existing substrate binding face (such as Fig. 1) and the reduction of overall processing area When can be using smaller milling cutter or grinding wheel, coolant liquid can be easier to be ejected into milling cutter point of a knife or grinding wheel and work compared with prior art Part cuts contact position, so that greatly reducing when cutting to the loss of cutter, improves processing efficiency.Milling cutter or grinding wheel are in cutting process The reduction of middle tool wear is also beneficial to the consistency of the height in the adjacent two positions face of round-trip milling.Process entire area Reduce, the number for being also advantageous for milling cutter or the round-trip milling of grinding wheel is reduced, and can effectively reduce the deformation of workpiece machined surface accumulation of heat. Overall processing area reduces, and is also easier to adjust round-trip milling direction, guarantees that workpiece surface goes the consistency in material direction, make past It returns adjacent position removal quantity of material and keeps identical.

So boss (such as Fig. 4) of the present invention is more easily implemented the flatness on surface.

Fixed substrate line of the present invention cuts tooling (as shown in Figure 6), is fixed by the way that substrate boss face is fixed on substrate fitting The form in face enables the flatness and verticality of substrate and line ceding of Taiwan frame to control within the margin of tolerance by playing table.To It pastes wire cutting silk and is directly cut separation workpiece and substrate by powdering face with substrate, obtained substrate is by the plane of powdering Tolerance is within claimed range.The more existing mode cut without using the direct line of tooling of such mode, more can directly guarantee that line is cut The precise degrees of plane.And cut tooling using fixed substrate line of the present invention, the substrate that line is cut out by powdering face, will not be artificial it is residual Workpiece pedestal and support are stayed, so that substrate directly reaches the standard of reusing by powdering face.Therefore it has been subtracted pair compared with the prior art By powdering facing cut, grinder part remnants pedestal and support link, the time that substrate reuses is shortened, improves work effect Also reduce processing and fabricating cost while rate.

Completion of processing is cut when substrate of the present invention cuts tooling (such as Fig. 6) mode line by invention fixed substrate line by powdering face Afterwards, four small areas on the surface of processing boss are gone again as benchmark face by powdering face using substrate.Boss is easily achieved due to aforementioned (such as Fig. 4) flatness reason, and substrate is more easily implemented by the depth of parallelism between powdering face and boss face, and mill, mill amount Very small process time is also very short.

So substrate is by the depth of parallelism between powdering face and boss face, it is as shown in Figure 1 relative to existing used substrate Substrate is more easily implemented by the depth of parallelism in powdering face and substrate binding face two sides.

From the above the present invention be easier to guarantee substrate geometric tolerance, it is easier to realize in 3D printing powdering it is equal It is even closely knit, reduce the difficulty of processing coefficient of substrate, accelerates the service efficiency of substrate.The integral thickness h2 of substrate of the present invention is (as schemed 5), it is greater than at present using substrate integral thickness h1 (such as Fig. 2), can makes the present invention relative at present using substrate in weight in this way Deflection is smaller under multiple sandblasting external force and the heated situation of laser, and required removal material is less when line cuts, mills, grinding processing, enables The present invention uses substrate access times more compared at present, realizes better economic benefit.

Detailed description of the invention

Fig. 1 is the schematic diagram of substrate structure of the prior art；

Fig. 2 is the A-A of Fig. 1 to cut-away view

Fig. 3 is that schematic diagram of substrate structure is reused in increasing material manufacturing of the invention；

Fig. 4 is the B of Fig. 3 to diagram；

Fig. 5 is the a-a of Fig. 3 to cut-away view；

Fig. 6 is that fixed substrate line of the invention cuts the practical state diagram of tooling；

Wherein: the substrate of the 1_ prior art；The substrate of the 1-01_ prior art is by powdering face；1-02_ workbench binding face； Substrate 2- of the invention；2-01_ substrate is by powdering face；2-02_ counter sink；2-03_ boss；3- fixed substrate line cuts tooling；3- 01_ is bonded stationary plane with substrate；3-02_ fixed screw holes；3-03_ fixed spoke；3-04_ clamping screw；4- line ceding of Taiwan frame.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.As long as in addition, technical characteristic involved in the various embodiments of the present invention described below Not constituting a conflict with each other can be combined with each other.

Embodiment one:

Substrate is reused in a kind of increasing material manufacturing, including the substrate that is parallel to each other by powdering face and workbench binding face, institute It states workbench binding face and three boss is set, be provided with counter sink on the boss.

The thickness of the substrate increases by 50%~100%, and the present embodiment thickness increases by 100%.

Embodiment two:

Referring to attached drawing 2-5, a kind of increasing material manufacturing reuse substrate, compared with embodiment one, the difference is that described There are four boss, is separately positioned on four right angles of the workbench binding face；The thickness of the substrate increases by 80%.Remaining Content is the same as example 1.The thickness of substrate described in another embodiment increases by 60%.

Embodiment three:

A kind of increasing material manufacturing reuse substrate, compared with embodiment one, the difference is that there are five the boss, point It is not arranged at four right angles and center of the workbench binding face；The thickness of the substrate increases by 50%.Remaining content It is the same as example 1.

Example IV:

Referring to attached drawing 6, the repeated using method of substrate is reused corresponding to a kind of increasing material manufacturing of embodiment two, including Following steps:

Step 1, after the completion of increasing material manufacturing, cut that tooling line cuts separating base plate and workpiece is obtained by using fixed substrate line By powdering face, the flatness in its face is made to reach requirement；The fixed substrate line cuts tooling, including the substrate patch being bonded with substrate Stationary plane, fixed mechanism are closed, the fixed mechanism is bonded for substrate fitting stationary plane with the surface of substrate boss.The fixation Mechanism includes fixed screw holes, fixed spoke, clamping screw, makes fixed spoke and line ceding of Taiwan frame (such as by the clamping screw Fig. 6) it is linked to be entirety；

Line cuts separating base plate and workpiece obtains making the flatness in its face reach requirement by powdering face method particularly includes: by base Plate boss face is fixed on substrate fitting stationary plane, corrects alignment planar approach by using dial gauge, controls so that substrate and line The flatness and verticality of ceding of Taiwan frame are within the margin of tolerance, and the present embodiment is within 0.05 millimeter of the margin of tolerance, to make Wire cutting silk adhesive substrates are directly cut separation workpiece and substrate by powdering face, and obtained substrate is by the flatness allowance of powdering Within the desired margin of tolerance, the present embodiment is within 0.05 millimeter.

Step 2 regard substrate as datum level by the overturning of powdering face, and milling, mill fit convex with 3D printing workbench The face of platform, and the flatness in face required for reaching and the depth of parallelism on two sides；

Step 3, the 3D printing table surface that the surface of boss after processing is completed is fitted in 3D printing equipment, with tight Substrate is anchored on 3D printing workbench by firmware, and countersunk head screw is lock onto 3D printing by countersunk head (screw) hole in the present embodiment Workbench.

Step 4, material powder are tiled in substrate by powdering face, to realize that powdering is uniformly closely knit when 3D printing, more preferably Guarantee 3D printing workpiece quality.

Claims (10)

1. It is special including the substrate that is parallel to each other by powdering face and workbench binding face 1. substrate is reused in a kind of increasing material manufacturing Sign is that at least three boss are arranged in the workbench binding face, is provided with counter sink on the substrate, the counter sink is used for The fixed installation of substrate and 3D printing workbench.
2. 2. substrate is reused in a kind of increasing material manufacturing according to claim 1, it is characterised in that the counter sink is located at convex On platform.
3. 3. substrate is reused in a kind of increasing material manufacturing according to claim 1, it is characterised in that there are four the boss, point Four right angles of the workbench binding face are not set.
4. 4. substrate is reused in a kind of increasing material manufacturing according to claim 1, it is characterised in that the thickness of the substrate increases Add 50%~100%.
5. 5. substrate is reused in a kind of increasing material manufacturing according to claim 3, it is characterised in that the thickness of the substrate increases Add 60%~80%.
6. 6. a kind of repeated using method of increasing material manufacturing reuse substrate described according to claim 1~any one of 4, Characterized by the following steps:

   Step 1, after the completion of increasing material manufacturing, by cutting separating base plate and workpiece obtain the flatness for being made its face by powdering face Reach requirement；

   Step 2 regard substrate as datum level, the boss that planarizing process and 3D printing workbench fit by the overturning of powdering face Surface, and the flatness in face and the depth of parallelism on two sides required for reaching；

   Step 3, the 3D printing table surface that the surface of boss after processing is completed is fitted in 3D printing equipment, use fastener Substrate is anchored on 3D printing workbench；

   Step 4, material powder are tiled in substrate by powdering face, to realize that powdering is uniformly closely knit when 3D printing, preferably protect Demonstrate,prove the quality of 3D printing workpiece.
7. 7. the repeated using method that substrate is reused in a kind of increasing material manufacturing according to claim 6, which is characterized in that step Cutting mode in rapid 1 preferably cuts tooling line using fixed substrate line and cuts.
8. 8. the repeated using method that substrate is reused in a kind of increasing material manufacturing according to claim 7, it is characterised in that institute It states fixed substrate line described in step 1 and cuts tooling, the substrate including being bonded with substrate is bonded stationary plane, fixed mechanism, described Fixed mechanism is bonded for substrate fitting stationary plane with the surface of substrate boss, and the fixed mechanism includes fixed screw holes, consolidates Determine spoke, clamping screw, so that fixed spoke and line ceding of Taiwan frame is linked to be entirety by the clamping screw.
9. 9. the repeated using method that substrate is reused in a kind of increasing material manufacturing according to claim 6, it is characterised in that institute The mode for stating planarizing process described in step 2 is chosen as milling and/or grind.
10. 10. the repeated using method that substrate is reused in a kind of increasing material manufacturing according to claim 6, it is characterised in that institute State that step 1 middle line cuts separating base plate and workpiece obtains making the flatness in its face reach requirement by powdering face method particularly includes: will Substrate boss face be fixed on substrate fitting stationary plane, by using dial gauge correct alignment planar approach, control so that substrate with The flatness and verticality of line ceding of Taiwan frame are within the margin of tolerance, to make directly being cut by powdering face for wire cutting silk adhesive substrates It cuts separation workpiece and substrate, obtained substrate is within the margin of tolerance by the flatness allowance of powdering.