CN205416365U - Carry fast and draw shaping 3D print system - Google Patents

Abstract

The utility model provides a carry fast and draw shaping 3D print system for the 3D print system that print material is regarded as with the photosensitive resin, include: print the lift platform system, permeable light transmission oxygen tree fat groove system, light source system and control system. Compared with the prior art, the utility model discloses an its print speed to photosensitive resin material of 3D print system is compared with prior art and is very promoted.

Description

A kind of Rapid lifting molding 3D print system

Technical field

This utility model relates to a kind of 3D print system, particularly relates to a kind of 3D print system using photosensitive resin as printed material.

Background technology

It is a kind of increasing material manufacturing technology that 3D prints, also known as rapid prototyping (rapidprototyping, RP) technology.Up to the present, it mainly has fusion sediment rapid shaping (FusedDepositionModeling, FDM), Stereolithography (StereolithographyApparatus, SLA), lamella material's layer molding (LaminatedObjectManufacturing, LOM), three-dimensional powder bonding (ThreeDimensionalPrintingandGluing, 3DP) and selective laser sintering (LaserSintering, SLS).They are compared with traditional manufacture, can realize rapid prototyping molding during the first product of manufacture is i.e. from drawing to material object.

But due to the restriction of technology, 3D prints this mode making product from level to level, if it is desired to finer production, then need to reduce every layer thickness；If it is desired to raising print speed, then need to increase thickness, and this certainly will affect the precision quality of product.If producing the product of same accuracy, compared with traditional large-scale industrial production, there is no the advantage on cost, being especially considering that time cost, after scale cost.And for as desktop level product, print speed is too slow, affect customer experience, promote difficulty bigger.

Therefore, faster, printing precision higher 3D print system, to solve the deficiencies in the prior art for market in urgent need print speed.

Utility model content

The purpose of this utility model is to solve the existing 3D print system problem that print speed is slow on the premise of printing precision height, it is provided that a kind of Rapid lifting molding 3D print system.

For achieving the above object, this utility model adopts the following technical scheme that:

This utility model provides a kind of Rapid lifting molding 3D print system, for the 3D print system using photosensitive resin as printed material, it is characterised in that including: printing lifting platform system, it is used for controlling print platform and moves up and down；Light-permeable oxygen flow resin groove system, it is used for loading photosensitive resin；Light-source system, it is used for curing photosensitive resin；And control system, it is used for controlling three-dimensional modeling software and printing lifting platform system and light-source system cooperating, to realize Rapid lifting molding 3D printing.

3D print system described in the utility model, it is preferable that the photosensitive wavelength range of described photosensitive resin is 200nm-800nm.

3D print system described in the utility model, it is preferable that described printing lifting platform system is made up of driving host, drive disk assembly and print platform, drives drive disk assembly to drive print platform to move up and down by driving host；Wherein, described driving host is selected from any one in motor or servomotor, described drive disk assembly is selected from any one of ball screw systems or screw rod system, and described print platform any one material in porose or the corrosion resistant plate of atresia, aluminium alloy plate, polymethyl methacrylate plate and silica glass plate is constituted.

3D print system described in the utility model, it is preferable that described light-permeable oxygen flow resin groove system is between print platform and light-source system, and includes cell wall and bottom land.

3D print system described in the utility model, it is preferable that described cell wall is to be made up of any one material in rustless steel, aluminium alloy, polymethyl methacrylate and silica glass.

3D print system described in the utility model, it is preferable that described bottom land comprises printing opacity oxygen permeable layer, described printing opacity oxygen permeable layer standard oxygen under 14.7PSI pressure was 1cm by area in 1 second², thickness when being the layer of 1cm infiltration capacity be not less than 1 × 10^-7cm³/cm²/ cm/sec, the light penetration of its 200nm-800nm wave-length coverage is not less than 50%.

3D print system described in the utility model, it is preferable that described bottom land is printing opacity oxygen flow bottom land, it is made up of organosilicon material, organic fluorine material or the composite of the two.

3D print system described in the utility model, it is preferable that described organosilicon material is the polysiloxane compound formed for main chain backbone structure with siliconoxygen bond, described organic fluorine material is amorphous fluoropolymer or the compound with PFPE as backbone structure.

3D print system described in the utility model, preferably, described organosilicon material is at least one in the ELASTOSIL series organosilicon product of Wacker company, and described organic fluorine material is at least one in the TeflonAF series of products of Dupont company or at least one in the Fluorolink series of products of Solvay company.

3D print system described in the utility model, it is preferable that described light-source system is projector system, its projection pattern uses any one in LCD projection pattern, DLP projection pattern, SXRD projection pattern or LCOS projection pattern.

3D print system described in the utility model, it is preferable that described control system off line uses storage card to import under data cases individually to perform print out task, or online control software by computer or intelligent terminal by wired or wireless and control execution print out task.

A kind of Rapid lifting molding 3D print system described in the utility model, storage card or computer or the data of intelligent terminal and order are imported by control system, control to print lifting platform system and light-source system so that the photosensitive resin loaded in light-permeable oxygen flow resin groove system is by control system setting means Rapid lifting molding.

This utility model provides a kind of Rapid lifting molding 3D print system, compared with prior art, has the advantages that

1, the Rapid lifting molding 3D print system that this utility model provides uses light-permeable oxygen flow resin groove system, the shaping speed of photosensitive resin can be greatly speeded up, thus realize 3D and print object Rapid lifting molding so that 3D printing shaping efficiency greatly improves on the basis of prior art；

2, the Rapid lifting molding 3D print system that this utility model provides uses uninterrupted printing and handle system so that it is the most smooth careful that 3D prints object surface, is particularly suitable for manufacturing baroque delicate objects, and formed precision is higher.

Accompanying drawing explanation

With accompanying drawing, the utility model is described in further detail, but the embodiment in accompanying drawing is not constituted any restriction of the present utility model.

Fig. 1 is the structural representation of a kind of Rapid lifting molding 3D print system of the present utility model.

In figure: 1, print platform；2, light-source system；3, drive disk assembly；4, driving host；5A, the cell wall of light-permeable oxygen flow resin groove system；5B, the bottom land of light-permeable oxygen flow resin groove system；6, photosensitive resin.

Detailed description of the invention

Being further detailed detailed description of the invention of the present utility model below in conjunction with drawings and Examples, this is preferred embodiment of the present utility model.

Embodiment 1

As it is shown in figure 1, a kind of Rapid lifting molding 3D print system, including print platform 1, light-source system 2, drive disk assembly 3, driving host 4, the cell wall 5A of light-permeable oxygen flow resin groove system, the bottom land 5B of light-permeable oxygen flow resin groove system.

Described light-source system is the optical projection system using LCD projection pattern.

Described printing lifting platform system, is made up of print platform 1 in accompanying drawing 1, drive disk assembly 3 and driving host 4.

Print platform 1, aluminium alloy sheets in accompanying drawing 1 in described printing lifting platform system.

Drive disk assembly 3 in accompanying drawing 1 in described printing lifting platform system, selects ball screw systems.

Driving host 4 in accompanying drawing 1 in described printing lifting platform system, selects stepping motor system.

The cell wall of described light-permeable oxygen flow resin groove system, aluminium alloy product forms.

The bottom land of described light-permeable oxygen flow resin groove system, in the ELASTOSIL series selecting organosilicon material to be Wacker company, thickness is the film product of 20 μm.

Described control system, uses storage card to import data and is individually performed print out task by print system.

Embodiment 2

As it is shown in figure 1, a kind of Rapid lifting molding 3D print system, including print platform 1, light-source system 2, drive disk assembly 3, driving host 4, the cell wall 5A of light-permeable oxygen flow resin groove system, the bottom land 5B of light-permeable oxygen flow resin groove system.

Further, described light-source system is the optical projection system using DLP projection pattern.

Described printing lifting platform system, is made up of print platform 1 in accompanying drawing 1, drive disk assembly 3 and driving host 4.

Print platform 1 in accompanying drawing 1 in described printing lifting platform system, selects polymethyl methacrylate plate.

Drive disk assembly 3 in accompanying drawing 1 in described printing lifting platform system, selects screw rod system.

Driving host 4 in accompanying drawing 1 in described printing lifting platform system, selects servo electrical machinery system.

The 5A cell wall of described light-permeable oxygen flow resin groove system, selects polymethyl methacrylate product composition.

The 5B bottom land of described light-permeable oxygen flow resin groove system, the organosilicon material of selection be Wacker company ELASTOSIL series in thickness be the film product of 40 μm, organic fluorine material be that the FluorolinkP56 product of Solvay company collectively constitutes.

Described control system, uses wired connections mode to control software by computer and controls to perform print out task.

Embodiment 3

As it is shown in figure 1, a kind of Rapid lifting molding 3D print system, including print platform 1, light-source system 2, drive disk assembly 3, driving host 4, the cell wall 5A of light-permeable oxygen flow resin groove system, the bottom land 5B of light-permeable oxygen flow resin groove system.

Further, described light-source system is the optical projection system using LCOS projection pattern.

Described printing lifting platform system, is made up of print platform 1 in accompanying drawing 1, drive disk assembly 3 and driving host 4.

In described printing lifting platform system, print platform 1 in accompanying drawing 1, selects pertusate corrosion resistant plate.

Drive disk assembly 3 in accompanying drawing 1 in described printing lifting platform system, selects ball screw systems.

Driving host 4 in accompanying drawing 1 in described printing lifting platform system, selects servo electrical machinery system.

The 5A cell wall of described light-permeable oxygen flow resin groove system, selects stainless steel product composition.

The 5B bottom land of described light-permeable oxygen flow resin groove system, the organic fluorine material of selection is the TeflonAF2400 product composition of Dupont company.

Described control system, uses wireless online mode to control software by computer and controls to perform print out task.

Embodiment 4

As it is shown in figure 1, a kind of Rapid lifting molding 3D print system, including print platform 1, light-source system 2, drive disk assembly 3, driving host 4, the cell wall 5A of light-permeable oxygen flow resin groove system, the bottom land 5B of light-permeable oxygen flow resin groove system.

Further, described light-source system is the optical projection system using SXRD projection pattern.

Described printing lifting platform system, is made up of print platform 1 in accompanying drawing 1, drive disk assembly 3 and driving host 4.

Print platform 1 in accompanying drawing 1 in described printing lifting platform system, selects silica glass plate.

Drive disk assembly 3 in accompanying drawing 1 in described printing lifting platform system, selects screw rod system.

Driving host 4 in accompanying drawing 1 in described printing lifting platform system, selects servo electrical machinery system.

The 5A cell wall of described light-permeable oxygen flow resin groove system, selects silica glass product composition.

The 5B bottom land of described light-permeable oxygen flow resin groove system, the organosilicon material of selection be Wacker company ELASTOSIL series in thickness be the film product of 400 μm, organic fluorine material be that the TeflonAF1600 product of Dupont company collectively constitutes.

Described control system, uses wireless online mode to control software by intelligent terminal and controls to perform print out task.

Finally should be noted that: above example only in order to the technical scheme of this utility model a kind of Rapid lifting molding 3D print system to be described, is not intended to limit；Although being described in detail this utility model with reference to previous embodiment, it will be understood by those within the art that, the technical scheme described in foregoing embodiments still can be modified by it, or wherein portion of techniques feature is carried out equivalent；And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of this utility model each embodiment technical scheme.

Claims (9)

1. a Rapid lifting molding 3D print system, for 3D print system using photosensitive resin as printed material, its feature left in, including: printing lifting platform system, it is used for controlling print platform and moves up and down；Light-permeable oxygen flow resin groove system, it is used for loading photosensitive resin；Light-source system, it is used for curing photosensitive resin；And control system, it is used for controlling three-dimensional modeling software and printing lifting platform system and light-source system cooperating, to realize Rapid lifting molding 3D printing.

2. 3D print system as claimed in claim 1, it is characterised in that the photosensitive wavelength range of described photosensitive resin is 200nm-800nm.

3. 3D print system as claimed in claim 1, it is characterised in that described printing lifting platform system is made up of driving host, drive disk assembly and print platform, drives drive disk assembly to drive print platform to move up and down by driving host；Wherein, described driving host is selected from any one in motor or servomotor, described drive disk assembly is selected from any one of ball screw systems or screw rod system, and described print platform any one material in porose or the corrosion resistant plate of atresia, aluminium alloy plate, polymethyl methacrylate plate and silica glass plate is constituted.

4. 3D print system as claimed in claim 1, it is characterised in that described light-permeable oxygen flow resin groove system is between print platform and light-source system, and includes cell wall and bottom land.

5. 3D print system as claimed in claim 4, it is characterised in that described cell wall is to be made up of any one material in rustless steel, aluminium alloy, polymethyl methacrylate and silica glass.

6. 3D print system as claimed in claim 4, it is characterised in that described bottom land comprises printing opacity oxygen permeable layer, described printing opacity oxygen permeable layer standard oxygen under 14.7PSI pressure was 1cm by area in 1 second², thickness when being the layer of 1cm infiltration capacity be not less than 1 × 10^-7cm³/cm²/ cm/sec, the light penetration of its 200nm-800nm wave-length coverage is not less than 50%.

7. 3D print system as claimed in claim 4, it is characterised in that described bottom land is printing opacity oxygen flow bottom land, and it is made up of organosilicon material, organic fluorine material or the composite of the two.

8. 3D print system as claimed in claim 1, it is characterised in that described light-source system is projector system, and its projection pattern uses any one in LCD projection pattern, DLP projection pattern, SXRD projection pattern or LCOS projection pattern.

9. 3D print system as claimed in claim 1, it is characterized in that, described control system off line uses storage card to import under data cases individually to perform print out task, or online controlled software by computer or intelligent terminal by wired or wireless and control execution print out task.