CN106476268A - One kind realizes 3D printing continuously continual resin solidification process units and method - Google Patents

Abstract

The present invention discloses one kind and realizes 3D printing continuously continual resin solidification process units and method, device and resin storage tank are passed including light source, second conveyer, second, in resin storage tank built with liquid resin, before and after the resin storage tank, Definition of Division is solidification workspace and shaping discharge zone, the light source and second conveyer are arranged on solidification workspace, and the second conveyer is arranged on shaping discharge zone；The light source is located at the top of the second conveyer in solidification workspace area, the transmission initiating terminal of the second conveyer is not less than liquid resinous liquid level, the transmission tape beginning end sinking smooth type transits to transmission end, and the transmission end is not less than the height of printing shaping solidfied material apart from liquid resin liquid level；The second biography device will transmit the handing-over of end printing shaping condensate and be delivered to more than liquid resin liquid level.The present invention realizes light source and irradiates while make resin solidification, and connecting gear drives printed product not stop movement, realizes the continual production of 3D printing.

Description

One kind realizes 3D printing continuously continual resin solidification process units and method

Technical field

The present invention relates to 3D printing technique field.

Background technology

One kind of 3D printing, i.e. rapid shaping technique, it are a kind of based on mathematical model file, with powdered gold Category or plastics etc. can jointing material, come the technology of constructed object by way of successively printing.

3D printing is typically with digital technology file printing machine to realize.Often lead in Making mold, industrial design etc. Domain is used for modeling, after be gradually available for the direct manufacture of some products, had zero printed using this technology Part.The technology is in jewelry, footwear, industrial design, building, engineering and construction (AEC), automobile, Aero-Space, dentistry and medical treatment Industry, education, GIS-Geographic Information System, civil engineering, gun and other field have all been applied.

Existing 3D printing technique printing effect is low, it is impossible to adapt to the bulk manufacturing, for this purpose, necessary carry Go out a kind of 3D forming technique that can realize batch-type production printing.

Content of the invention

Goal of the invention：In order to overcome the deficiencies in the prior art, the present invention provides one kind and realizes 3D printing continuously not The resin solidification process units of interruption and method, can realize light source and irradiate while make resin solidification, and connecting gear drives and beats Print product does not stop movement, realizes 3D printing continuously continual production, improve production efficiency.

Technical scheme：For achieving the above object, technical scheme is as follows：

One kind realizes 3D printing continuously continual resin solidification process units, including light source, second conveyer, second Pass device and resin storage tank, the resin storage tank built with liquid resin, before and after the resin storage tank Definition of Division for solidification workspace and Shaping discharge zone, the light source and second conveyer are arranged on solidification workspace, and the second conveyer is arranged on shaping Discharge zone；The light source is located at the top of the second conveyer in solidification workspace area, the biography of the second conveyer Initiating terminal is sent to be not less than liquid resinous liquid level, the transmission tape beginning end sinking smooth type transits to transmission end, and the biography End is sent to be not less than the height of printing shaping solidfied material apart from liquid resin liquid level；The second biography device will transmit end The handing-over of printing shaping solidfied material is delivered to more than liquid resin liquid level.

Further, the transparent release film flushed with liquid resin liquid level, institute are provided with above the second conveyer State transparent release film printing opacity, holding liquid level and shaped-article easy to fall off, in print procedure, the transparent release film is protected Hold and second conveyer synchronizing moving in the horizontal direction.

Further, membrane case and film-coiling device are also included, the transparent release film of the membrane case output, through multiple compressions After roller bearing compression, the transparent release film remains in the liquid resin liquid level above the second conveyer in solidification workspace Flush, then reclaim through film-coiling device.

Further, the second conveyer includes the big axle of the first transmission, the little axle of the first transmission and the first conveyer belt sheet Body, the first transmission band body is by the big axle of the first transmission for being arranged on its two ends and the little through-drive connection of the first transmission；Institute The upper driving face for stating the big axle of the first transmission is not less than liquid resinous liquid level, and described first is driven the upper transmission identity distance chaotropic of little axle The liquid level distance of state resin is not less than the height of printing shaping solidfied material.

Further, the axle radius of the little axle of first transmission is less than the axle radius of the big axle of the first transmission.First conveyer belt Body is descending to be involved in, and the axle radius of the little axle of the first transmission diminishes, and printing shaping solidfied material has certain hardness and corner is sharp It is not flexible that printing shaping solidfied material falls into the second conveyer belt so that printing shaping solidfied material is smoothly peeled off with conveyer belt, and Printing shaping solidfied material is sent by the operation of two conveyer belts.

Further, second transmission device includes the second transmission front axle, the second driven rear axle and the second conveyer belt sheet Body, the second transmission band body are in transmission connection by the second transmission front axle and the second driven rear axle for being arranged on its two ends；Institute The upper driving face for stating the second transmission front axle is arranged less than the upper driving face of the little axle of the first transmission, the upload of second driven rear axle Dynamic face is not less than liquid resinous liquid level；The printing shaping solidfied material transmission of the transmission end of the second conveyer falls into the Two transmission devices.The some dividing plates of the second conveyer belt body upper surface spaced set, the spacing between dividing plate are beaten for one The receiving spacing of print shaping condensate.

Further, the second conveyer includes the first connecting gear group, transmission film and gripper shoe, the gripper shoe Supporting surface be transmit initiating terminal extend downward transmission end slope structure；The first connecting gear group includes two groups of phases The caterpillar belt structure group for mutually separating and be arrangeding in parallel, every group of caterpillar belt structure group include caterpillar belt structure and lower caterpillar belt structure, and described Upper caterpillar belt structure superposition is arranged on lower caterpillar belt structure, and the coincidence face of superposition presses two sides of transmission film, the transmission respectively Film between two groups of caterpillar belt structure groups be for print procedure in the loading end of solidfied material of illumination shaping and transmission channel, as holding The bottom of the transmission diaphragm area of section and transmission channel is held out against by the supporting surface of gripper shoe；Two groups of caterpillar belt structure groups synchronously drive Transmission film is along the guiding movement of the supporting surface of the first gripper shoe.Gripper shoe can hold out against from below and support transmission film, make transmission Film flat motion, so as to eliminate fluctuation.Per the upper caterpillar belt structure that organizes in the caterpillar belt structure group and lower caterpillar belt structure with transmission Anti-skid design is equipped with the outer surface that mould is closed, and the anti-skid design outwards oblique is set along the transmission direction of transmission film Put, to ensure that transmitting film tightens.Two groups of caterpillar belt structure groups push down transmission film both sides respectively, drive film to advance, and close with transmission mould Anti-skid design make transmission film have one advance component and the component that tightens to both sides.

The second conveyer continues to drive transmission film displacement, printing shaping solidfied material is sent to and is higher by liquid resin Liquid level position.

A kind of method for realizing the continuous continual resin solidification process units of 3D printing：Light source is caused in illumination range First top layer liquid curing, during solidification, solidfied material to be formed with the direction of transfer displacement of second conveyer, until Second conveyer is handover to after being molded completely.

Specifically, the first step：Light source is bright, and light source projects go out first pattern and solidify certain thickness liquid resin, The first solidfied material is formed in second conveyer；

Second step：Light source extinguishes, and second conveyer moves a certain distance to the right, at the same time transparent release film Synchronizing moving in the horizontal direction, the first solidfied material and transparent release UF membrane, and sink to moving a certain distance；

3rd step：Light source is bright, and light source projects go out two patterns, in the first solidfied material one layer of solidfied material of overlying cured superposition, At the same time the second conveyer correspondence position for forming the first solidfied material in second step forms the second solidfied material, and light source puts out Go out；

4th step：Second conveyer moving distance to the right, at the same time transparent release film is in level side To synchronizing moving, one layer of the first solidfied material and the second solidfied material and transparent release UF membrane, and a mobile spacing of sinking is superimposed From；

5th step：Light source is bright, and light source projects go out three patterns, solidifies one layer of solidification of superposition on the first solidfied material again Thing, at the same time in the overlying cured one layer of solidfied material of the second solidfied material, forms the first transmission of the second solidfied material in the third step Device correspondence position forms the 3rd solidfied material, and light source extinguishes；

By that analogy, the N number of solidfied material changed according to light source irradiation patterns is formed in second conveyer, these solidifications Thing is accumulated as required three-dimensional body.

Beneficial effect：One kind of the present invention realizes 3D printing continuously continual resin solidification process units and method, can Realize light source to irradiate while make resin solidification, connecting gear drives printed product not stop movement, realize 3D printing continuous not between Disconnected production, improve production efficiency.

Several object identical or that differ is printed simultaneously can；At any time the object for needing to print is arranged into production stream Journey, realizes " promptly jump the queue, immediate delivery ", the flexibility of production is greatly improved.

Description of the drawings

Accompanying drawing 1 is the first example structure schematic diagram of the present invention；

Accompanying drawing 2 is one figure of working condition of the first embodiment of the present invention；

Accompanying drawing 3 is two figure of working condition of the first embodiment of the present invention；

Accompanying drawing 4 is three figure of working condition of the first embodiment of the present invention；

Accompanying drawing 5 is four figure of working condition of the first embodiment of the present invention；

Accompanying drawing 6 is five figure of working condition of the first embodiment of the present invention；

Accompanying drawing 7 is six figure of working condition of the first embodiment of the present invention；

Accompanying drawing 8 is the structural perspective of the first embodiment of the present invention；

Accompanying drawing 9 is second example structure schematic diagram of the present invention；

Accompanying drawing 10 is one figure of working condition of second embodiment of the present invention；

Accompanying drawing 11 is two figure of working condition of second embodiment of the present invention；

Accompanying drawing 12 is three figure of working condition of second embodiment of the present invention；

Accompanying drawing 13 is four figure of working condition of second embodiment of the present invention；

Accompanying drawing 14 is five figure of working condition of second embodiment of the present invention；

Accompanying drawing 15 is six figure of working condition of second embodiment of the present invention；

Accompanying drawing 16 is the structural perspective of second embodiment of the present invention；

Accompanying drawing 17 is the object structures shape for needing to print in the embodiment of the present invention；

Accompanying drawing 18 is to print the schematic diagram for completing afterwards oblique arrangement on a moving belt in the embodiment of the present invention.

Specific embodiment

Below in conjunction with the accompanying drawings the present invention is further described.

As accompanying drawing 1 and 8, one kind realizes 3D printing continuously continual resin solidification process units, including light source 10, first Conveyer 20, second passes device 30 and resin storage tank 80, and the light source 10 is region luminous flat, states resin storage tank 80 built with liquid State resin, before and after the resin storage tank 80, Definition of Division is solidification workspace and shaping discharge zone, the light source 10 and the first transmission Device 20 is arranged on solidification workspace, and the second conveyer 30 is arranged on shaping discharge zone；The light source 10 is located at solidification The top of the second conveyer 20 in workspace area, due to the process of illumination curing resin be can only illumination curing liquid tree Fat surface ground floor, so the transmission initiating terminal of the second conveyer 20 is not less than liquid resinous liquid level, the transmission Tape beginning end sinking smooth type transits to transmission end, and the transmission end is not less than apart from liquid resin liquid level and is printed as The height of type solidfied material.The second biography device 30 will transmit the handing-over of end printing shaping condensate and be delivered to liquid resin liquid level More than.

Presented in resin storage tank 80 due to liquid resin is meniscus, and meniscus can cause the residual of printing shaping solidfied material Lack, the quality of printout is affected, in order to the technical problem is solved, 20 top of the second conveyer is provided with and liquid tree The transparent release film 40 that fat liquid level is flushed, the transparent release film printing opacity, holding liquid level and shaped-article are easy to fall off, In print procedure, the transparent release film 40 keeps and the synchronizing moving in the horizontal direction of second conveyer 20.

Further, membrane case 60 and film-coiling device 70, the transparent release film 40 that the membrane case 60 is exported, process are also included After multiple compression roller bearing compressions, the transparent release film 40 remains in 20 top of second conveyer in solidification workspace Liquid resin liquid level is flushed, then is reclaimed through film-coiling device 70.

The first embodiment of second conveyer 2, the second conveyer 2 include the big axle 201, first of the first transmission Little axle 202 and the first transmission band body 203 is driven, the first transmission band body 203 is passed by be arranged on its two ends first Move big axle 201 and the little axle 202 of the first transmission is in transmission connection；The described first upper driving face for being driven big axle 201 is not less than liquid tree The liquid level of fat, the described first upper transmission identity distance for being driven little axle 202 are consolidated not less than printing shaping with a distance from liquid resinous liquid level The height of compound.

Described first axle radius of the axle radius less than the big axle 201 of the first transmission for being driven little axle 202, in the present invention, first passes The radius for moving little axle 202 is preferably smaller than 5mm.First transmission band body comes downwards to little 202 position of axle of the first transmission and is involved in its following table Face, as the axle radius of the little axle of the first transmission diminishes compared with the big axle 201 of the first transmission, and printing shaping solidfied material has certain hardness And corner is not sharp flexible, so that printing shaping solidfied material is moved at little 202 position of axle of the first transmission and conveyer belt sheet Body is smoothly peeled off, and printing shaping solidfied material falls into the second conveyer belt, and printing shaping solidfied material is sent by the operation of the second conveyer belt.

On technical foundation based on the first embodiment of second conveyer 20, second transmission device 30 includes Second transmission front axle 31, the second driven rear axle 32 and the second transmission band body 33, the second transmission band body 33 is by arranging At its two ends second is driven front axle 31 and the second driven rear axle 32 is in transmission connection；The upper driving face of the second transmission front axle 31 Arrange less than the upper driving face of the little axle 202 of the first transmission, the upper driving face of second driven rear axle 32 is not less than liquid resin Liquid level；The printing shaping solidfied material transmission of the transmission end of the second conveyer 20 falls into the second transmission device 30.Also Including scraper 50, the knife face laminating described first of the scraper 50 transmits the printing initiating terminal solidfied material loading end of band body 203 Arrange, the residue on conveyer belt can be hung in time.Described second transmission 33 upper surface spaced set of band body some every Plate, the spacing between dividing plate are the receiving spacing of a printing shaping solidfied material.

As accompanying drawing 9 and 16, second embodiment of second conveyer 20, the second conveyer 20 include the first biography The supporting surface of mechanism's group 211, transmission film 212 and gripper shoe 213, the gripper shoe 213 is sent to extend downward for transmission initiating terminal The slope structure of transmission end；The first connecting gear group 211 includes two groups of caterpillar belt structures for being separated from each other and be arrangeding in parallel Group, every group of caterpillar belt structure group include caterpillar belt structure and lower caterpillar belt structure, and the upper caterpillar belt structure superposition is arranged on lower crawler belt In structure, the coincidence face of superposition presses two sides of transmission film 212 respectively, the transmission film 212 two groups of caterpillar belt structure groups it Between be for the loading end of solidfied material of illumination shaping and transmission channel in print procedure, as the transmission of loading end and transmission channel The bottom in 212 region of film is held out against by the supporting surface of gripper shoe 213, and wherein transmission film 212 goes out from the transmission film membrane case in left side Come, involve in the transmission film roll membrane device on right side；Two groups of caterpillar belt structure groups synchronously drive transmission the propping up along the first gripper shoe 213 of film 212 The guiding movement in support face.Gripper shoe can hold out against from below and support transmission film, make transmission film flat motion, so as to eliminate ripple Dynamic.Per the upper caterpillar belt structure that organizes in the caterpillar belt structure group and on the outer surface pressed with transmission film 212 of lower caterpillar belt structure Anti-skid design is equipped with, and the anti-skid design is outwards angularly disposed along the transmission direction of transmission film 212.Two groups of caterpillar belt structure groups Push down transmission film both sides respectively, drive film to advance, the anti-skid design closed with transmission mould makes transmission film have the component of an advance With the component that tightens to both sides.The second conveyer 30 continues to drive transmission 212 displacement of film, and printing shaping solidfied material is passed Deliver to and be higher by liquid resin liquid level position.

As shown in accompanying drawing 2-7 or 10-15, operation principle：Source causes the first top layer liquid curing in illumination range, solid During change, solidfied material to be formed is with the direction of transfer displacement of second conveyer, until being handover to second after being molded completely Conveyer.Specifically, the first step：Light source is bright, and light source projects go out first pattern and solidify certain thickness liquid resin, The first solidfied material is formed in second conveyer；Second step：Light source extinguishes, second conveyer move to the right certain away from From at the same time transparent release film synchronizing moving in the horizontal direction, the first solidfied material and transparent release UF membrane, and movement of sinking Certain distance；3rd step：Light source is bright, and light source projects go out two patterns, in the first solidfied material one layer of solidfied material of overlying cured superposition, At the same time the second conveyer correspondence position for forming the first solidfied material in second step forms the second solidfied material, and light source puts out Go out；4th step：Second conveyer moving distance to the right, at the same time transparent release film is synchronous in the horizontal direction Mobile, one layer of the first solidfied material and the second solidfied material and transparent release UF membrane is superimposed, and sinks to moving a certain distance；5th Step：Light source is bright, and light source projects go out three patterns, solidifies one layer of solidfied material of superposition again, at the same time on the first solidfied material In the overlying cured one layer of solidfied material of the second solidfied material, the second conveyer correspondence position of the second solidfied material is formed in the third step The 3rd solidfied material is formed, light source extinguishes；By that analogy, the N changed according to light source irradiation patterns is formed in second conveyer Individual solidfied material, these solidfied materials accumulate the three-dimensional body to form needs.

In order that the operation principle of this programme more clearly can be presented, specific printing solidfied material is given further Shaping flow table, need the shape and structure of solidfied material for printing and arrangement mode in table referring to accompanying drawing 17 and 18, specific as follows：

Section Formation cross-section figure and then printing.

The above is only the preferred embodiment of the present invention, it should be pointed out that：Ordinary skill people for the art For member, under the premise without departing from the principles of the invention, some improvements and modifications can also be made, these improvements and modifications also should It is considered as protection scope of the present invention.

Claims (10)

1. one kind realizes 3D printing continuously continual process units, it is characterised in that：Including light source (10), second conveyer (20), second pass device (30) and resin storage tank (80), resin storage tank (80) built with liquid resin, before resin storage tank (80) Definition of Division is solidification workspace and shaping discharge zone afterwards, and light source (10) and second conveyer (20) are arranged on solidification work Make area, second conveyer (30) are arranged on shaping discharge zone；Described light source (10) are located in solidification workspace area The top of second conveyer (20), the transmission initiating terminal of second conveyer (20) are not less than liquid resinous liquid level, The transmission tape beginning end sinking smooth type transits to transmission end, and the transmission end is not low apart from liquid resin liquid level Height in printing shaping solidfied material；Second biography device (30) will transmit the handing-over of end printing shaping condensate and be delivered to liquid More than state resin liquid level.

2. one kind according to claim 1 realizes 3D printing continuously continual process units, it is characterised in that：Described The transparent release film (40) flushed with liquid resin liquid level, transparent release film (40) are provided with above one conveyer (20) Keep and second conveyer (20) synchronizing moving in the horizontal direction.

3. the one kind according to claim 3 or 7 realizes 3D printing continuously continual process units, it is characterised in that：Also Including membrane case (60) and film-coiling device (70), the transparent release film (40) that membrane case (60) export, roll through multiple compressions After shaft compression, transparent release film (40) remain in the liquid tree above the second conveyer (20) in solidification workspace Fat liquid level is flushed, then is reclaimed through film-coiling device (70).

4. one kind according to claim 1 realizes 3D printing continuously continual process units, it is characterised in that：Described One conveyer (20) includes that first is driven big axle (201), the first transmission little axle (202) and the first transmission band body (203), institute State first transmission big axle (201) and first of the first transmission band body (203) by being arranged on its two ends and be driven little axle (202) biography It is dynamically connected；The described first upper driving face for being driven big axle (201) is not less than liquid resinous liquid level, and described first is driven little axle (202) upper transmission identity distance is not less than the height of printing shaping solidfied material with a distance from liquid resinous liquid level.

5. one kind according to claim 4 realizes 3D printing continuously continual process units, it is characterised in that：Described The one axle radius for being driven little axle (202) is driven the axle radius of big axle (201) less than first.

6. one kind according to claim 4 realizes 3D printing continuously continual process units, it is characterised in that：Described Two transmission devices (30) include the second transmission front axle (31), the second driven rear axle (32) and the second transmission band body (33), described Second transmission band body (33) is connected by the second transmission front axle (31) and the second driven rear axle (32) transmission for being arranged on its two ends Connect；The upper driving face of second transmission front axle (31) is driven the upper driving face of little axle (202) and arranges less than first, and described second The upper driving face of driven rear axle (32) is not less than liquid resinous liquid level；It is sent to the transmission end of the second conveyer (20) The printing shaping solidfied material handing-over at end is delivered to the second transmission device (30).

7. one kind according to claim 6 realizes 3D printing continuously continual process units, it is characterised in that：Described The some dividing plates of two transmission band body (33) upper surface spaced sets, the spacing between dividing plate is a printing shaping solidfied material Accommodate spacing.

8. one kind according to claim 1 realizes 3D printing continuously continual process units, it is characterised in that：Described One conveyer (20) includes the first connecting gear group (211), transmission film (212) and gripper shoe (213), the gripper shoe (213) supporting surface is to transmit the slope structure that initiating terminal extends downward transmission end；First connecting gear group (211) The caterpillar belt structure group for being separated from each other including two groups and be arrangeding in parallel, every group of caterpillar belt structure group include caterpillar belt structure and lower crawler belt knot Structure, and upper caterpillar belt structure superposition is arranged on lower caterpillar belt structure, the coincidence face of superposition presses the two of transmission film (212) respectively Side, transmission film (212) are logical for the illumination shaping condensate transmission in print procedure between two groups of caterpillar belt structure groups Road, the bottom as transmission film (212) region of passage are held out against by the supporting surface of gripper shoe (213)；Two groups of caterpillar belt structure groups The synchronous guiding movement for driving transmission film (212) along the supporting surface of the first gripper shoe (213).

9. one kind according to claim 8 realizes 3D printing continuously continual process units, it is characterised in that：Per group institute State on the contoured surface that the upper caterpillar belt structure in caterpillar belt structure group and lower caterpillar belt structure are pressed with transmission film (212) and be equipped with anti-skidding flower Line, and the anti-skid design is outwards angularly disposed along the transmission direction of transmission film (212), to ensure that transmitting film tightens.

10. a kind of method of work for realizing the continuous continual resin solidification process units of 3D printing, it is characterised in that：

Over time, light source cause the first top layer liquid curing in illumination range, during solidification, solidification to be formed Thing is with the direction of transfer displacement of second conveyer, until being handover to second conveyer after being molded completely；

Specifically, the first step：Light source is bright, and light source projects go out first pattern and solidify certain thickness liquid resin, first The first solidfied material is formed on conveyer；

Second step：Light source extinguishes, and second conveyer moves a certain distance to the right, and at the same time transparent release film is in water Square to synchronizing moving, the first solidfied material and transparent release UF membrane, and sink to moving a certain distance；

3rd step：Light source is bright, and light source projects go out two patterns, in the first solidfied material one layer of solidfied material of overlying cured superposition, with this While the second conveyer correspondence position for forming the first solidfied material in second step forms the second solidfied material, light source extinguishes；

4th step：Second conveyer moving distance to the right, at the same time transparent release film in the horizontal direction with Moved further, is superimposed one layer of the first solidfied material and the second solidfied material and transparent release UF membrane, and sinks to moving a certain distance；

5th step：Light source is bright, and light source projects go out three patterns, solidifies one layer of solidfied material of superposition again on the first solidfied material, At the same time in the overlying cured one layer of solidfied material of the second solidfied material, the second conveyer of the second solidfied material is formed in the third step Correspondence position forms the 3rd solidfied material, and light source extinguishes；

By that analogy, the N number of solidfied material changed according to light source irradiation patterns is formed in second conveyer, and these solidfied materials tire out Product forms the three-dimensional body for needing.