CN209454172U - A kind of inorganic and metal material part former - Google Patents
A kind of inorganic and metal material part former Download PDFInfo
- Publication number
- CN209454172U CN209454172U CN201821257901.9U CN201821257901U CN209454172U CN 209454172 U CN209454172 U CN 209454172U CN 201821257901 U CN201821257901 U CN 201821257901U CN 209454172 U CN209454172 U CN 209454172U
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- China
- Prior art keywords
- forming
- storehouse
- inorganic
- metal material
- scraper
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P10/00—Technologies related to metal processing
- Y02P10/25—Process efficiency
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- Preparation Of Clay, And Manufacture Of Mixtures Containing Clay Or Cement (AREA)
- Devices For Post-Treatments, Processing, Supply, Discharge, And Other Processes (AREA)
Abstract
Disclosed by the utility model inorganic and metal material part former, including system chassis in hollow structure, forming accommodation system is provided in system chassis, it further include light path system, light path system forms forming face in forming accommodation system, forming accommodation system is connected with feeding system, forming accommodation system and feeding system are respectively connected with control system, control system is used to control the usage of sizing agent that feeding system is provided to forming accommodation system, solve the problems, such as existing former can not provide on demand slurry cause a large amount of slurries be loaded into forming cabin is easily formed pollution and be denaturalized.
Description
Technical field
The utility model belongs to material forming equipment technical field, is related to inorganic and metal material part the forming of one kind and sets
Standby, the utility model further relates to carry out inorganic and metal material part forming method using the former.
Background technique
Photocuring technology is not only that it wins because of many advantages such as its surface quality is good, dimensional accuracy is high, manufacturing cost is low
Manufacturing extensive attention, also promotes the progress of itself.It is developed from its 1980s, after three
After the development of more than ten years, the forming technology of the multi-class material such as organic material, inorganic material and metal material has nowadays been formd.
Wherein, inorganic and metal material technical process is shaped using the technology are as follows: inorganic and metal material powder screening and pre- place
Reason, powder and resin material are mixed and made into slurry, the optical soliton interaction of slurry, degreasing sintered acquisition part.
Inorganic and metal material equipment is shaped using the technology, is required to that manufactured slurry is packed into forming before forming
Cabin, and paved by the relative motion of unidirectional scraper, since a large amount of material is loaded into forming cabin in forming process
Body, therefore increase the risk of material contamination, denaturation etc.;The work generated when relying on unidirectional scraper relative motion merely simultaneously
It firmly provides and paves power, it is difficult to which effect is paved in guarantee, and unidirectionally paves low efficiency;In addition, existing molding equipment is without forming
Face detection device, cannot timely feedback forming face paves effect.
Utility model content
The purpose of the utility model is to provide a kind of inorganic and metal material part former, solve it is existing at
Shape equipment can not provide slurry on demand and a large amount of slurries is caused to be loaded into the problem of forming cabin easily forms pollution and denaturation.
A technical solution used by the utility model is a kind of inorganic and metal material part former, packet
System chassis in hollow structure is included, forming accommodation system is provided in system chassis, further includes light path system, light path system exists
Forming face is formed in forming accommodation system, forming accommodation system is connected with feeding system, shapes accommodation system and feeding system is equal
It is connected with control system, control system is used to control the usage of sizing agent that feeding system is provided to forming accommodation system, control system
It is also connected with detection system.
The utility model is also characterized by
Shaping accommodation system includes the forming storehouse being set in system chassis, and shaping to be horizontally disposed in storehouse has part supporting plate,
Part supporting plate is connect with control system, and light path system forms forming face above part supporting plate.
Feeding system includes feed bin, and feed bin is communicated with scraper by connecting pipe, and scraper is movably set in System Computer
On frame, and it is located above forming storehouse, feed bin and scraper are connect with control system.
Scraper is the two-way scraper of groove type.
Material recycle storehouse is additionally provided in system chassis.
The quantity in material recycle storehouse is 2, and two material recycle storehouses are respectively arranged at the two sides in forming storehouse.
The upper edge of system chassis is inwardly provided with overflow launder, and the side of overflow launder and forming storehouse and material recycle for one week
The upper edge in storehouse contacts.
The beneficial effects of the utility model are:
Inorganic and metal material part the former of the utility model is implanted into part model subdivision data by inside
The control system of identification software can obtain the position that part supporting plate should be in real time, and part supporting plate is driven to carry out up and down
It is mobile, current desired slurry additive amount is calculated in real time in combination with part supporting plate present level, enables feeding system root
It adds materials, saves human and material resources in due course according to the concrete condition of formation of parts, and can reduce the risk of material contamination and denaturation;
The setting of the two-way scraper of groove type effectively increases the forming of inorganic and metal material part the former of the utility model
Efficiency, in addition, the setting in material recycle storehouse 10 avoids additional size from influencing forming process.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of inorganic and metal material part former of the utility model.
In figure, 1. system chassis, 2. light path systems, 3. control systems, 4. forming storehouses, 5. part supporting plates, 6. feed bins, 7.
Connecting pipe, 8. scrapers, 9. detection systems, 10. material recycle storehouses, 11. overflow launders, 12. forming faces, 13. material recycle platforms.
Specific embodiment
The utility model is described in detail with reference to the accompanying drawings and detailed description.
A kind of inorganic and metal material part former of the utility model, is that the forming based on photocuring technology is set
It is standby, as shown in Figure 1, including system chassis 1 in hollow structure, it is provided with forming accommodation system in system chassis 1, further includes light
Road system 2, light path system 2 form forming face 12 in forming accommodation system, and forming face 12 is the focal plane of light path system, although
The position of particular device forming face is relatively fixed, but belongs to virtual presence;Forming accommodation system is connected with feeding system, shapes cabin
Chamber system and feeding system are respectively connected with control system 3, and control system 3 is provided for controlling feeding system to forming accommodation system
Usage of sizing agent.
As shown in Figure 1, forming accommodation system includes the forming storehouse 4 being set in system chassis 1, the level in storehouse 4 that shapes is set
It is equipped with part supporting plate 5, part supporting plate 5 is connect with control system 3, and light path system 2 forms forming face 12 above part supporting plate 5,
It is overlapped by being moved to part supporting plate 5 with forming face 12, the light source that light path system 2 uses is the light that can produce ultraviolet band light
Source is cured with coated inorganic or metal material, in turn using the photosensitive resin in 5 spreading mass of ultraviolet excitation part supporting plate
Realize the forming of part.
As shown in Figure 1, feeding system includes feed bin 6, feed bin 6 is communicated with scraper 8 by connecting pipe 7, and scraper 8 is living
It is dynamic to be set on system chassis 1, and it is located at 4 top of forming storehouse, feed bin 6 and scraper 8 are connect with control system 3.
It is implanted with part model subdivision data identification software inside control system 3, can be believed in real time according to the forming of part
Breath obtains the position that part supporting plate 5 should be in, and then generates movement instruction, can pass through between control system 3 and part supporting plate 5
Movement mechanism connection, therefore control system 3 controls movement mechanism movement, and then part supporting plate 5 is driven to send to corresponding position.
The height database corresponding with the forming capacity in storehouse 4 of part supporting plate 5 is implanted with inside control system 3, it can
The highly automated of the part supporting plate 5 detected according to control system 3 obtains slurry capacity in forming storehouse 4, and then calculates current
The amount of slurry of highly desired supply;Needed slurry additive amount at present level of the control system 3 by the way that part supporting plate 5 is calculated
Afterwards, feed instruction is issued to feeding system, feeding system compresses slurry by the hydraulic transmission inside feed bin 6, in turn
Suitable slurry is delivered to scraper 8 by feed bin 6, realizes the feed to forming storehouse 4 finally by scraper 8;Control system 3 is logical
The present level for crossing part supporting plate 5 can calculate current desired slurry additive amount in real time, enable feeding system according at
The concrete condition of shape part adds materials in due course, saves human and material resources, and can reduce the risk of material contamination and denaturation.
Wherein, scraper 8 is the two-way scraper of groove type, can match with feeding system and realize under the action of outer plus-pressure
On-demand two-way feed and strike off slurry, effectively increase inorganic and metal material part the former of the utility model at
Shape efficiency.
As shown in Figure 1, control system 3 is also connected with detection system 9, which is non-contact detection system, packet
The parts such as signal generating source, signal collector, signal processing original part and transmission part are included, pave face sending to slurry by continuing
Signal and recycle it is treated after control system 3 passed to by transmission part, control system 3 by the movement of control scraper 8 and
Pressure in scraper 8 realizes material transferring, it is ensured that face to be deposited and 12 overlapping position of forming face are uniform, smooth by filled therewith,
Part to guarantee that layer upon layer shapes is consistent on total quality;Wherein, depositional plane and forming face 12 are overlapped
It is that the spacing after moved by part supporting plate 5 between 8 lower end surface of part and scraper controls, the movement of slurry flatness and scraper 8
Speed and pressure are related.
As shown in Figure 1, being additionally provided with folding material recycle storehouse 10, the quantity in material recycle storehouse 10 in system chassis 1
It is the two sides that 2, and two material recycle storehouses 10 are respectively arranged at forming storehouse 4, the setting in material recycle storehouse 10 makes scraper 8 without past
Multiple movement can be achieved with the unloading of additional size, so that additional size be avoided to influence forming process, while also reduce material pollution
With the risk of denaturation;Material recycle platform 13 is provided on material recycle storehouse 10, material recycle storehouse can be as desired by material
It recycles the movement of platform 13 and expands or shrinks own volume, further improve the flexible of the former of the utility model
Property;In addition, material recycle Cang10Chu is equipped with flexible apparatus, it can preferably help scraper 8 that additional size is discharged into material recycle
Inside storehouse 10.
As shown in Figure 1, the upper edge of system chassis 1 one week is inwardly provided with overflow launder 11, and the side of overflow launder 11 with
The upper edge contact in storehouse 4 and material recycle storehouse 10 is shaped, the setting of overflow launder 11 can be during paving to the fortune of slurry
Row track is limited, and slurry is avoided to flow to the other positions such as system chassis 1 is outer and pollute and waste.
It is provided with folding protective device in forming accommodation system and material recycle storehouse 10, avoids forming cabin system
System with contact of the movement mechanism with slurry in material recycle storehouse 10, so that it is guaranteed that system run precision and stability.
Inorganic and metal material part the former of one kind of the utility model is using photocuring technology to inorganic and golden
Belong to material parts to be formed, specifically implement in accordance with the following steps:
Step 1 takes the to be formed inorganic or metal material powder of suitable particle diameter to mix with specific and suitable photosensitive resin
And standing, gas removal, being made can be by the light-initiated cured slurry of ultraviolet band;
Slurry is packed into feed bin 6 and connecting pipe 7 by step 2, and high according to the layering of part in control system 3
Degree sets corresponding slurry supply model, and control system 3 controls that part supporting plate 5 is mobile, make the face to be deposited of part be located at
The position that forming face 12 is overlapped;
Step 3, control system 3 control feed bin 6 and connecting pipe 7 and inject slurry in scraper 8, while control system 3
It controls scraper 8 to move, make in the filling to forming face 12 that slurry is uniform, smooth, and extra slurry is scraped to material recycle storehouse
In 10;
Control system 3 is also connected with detection system 9, and the information of paving of 12 spreading mass of forming face is carried out by detection system 9
Detection, and this is paved into information and feeds back to control system 3, the utility model uses non-contact detection system, Real-time Feedback zero
Information is paved in part face to be deposited, and the movement velocity and pressure of scraper 8 are adjusted by control system 3, it is ensured that face to be deposited at
Shape face overlapping position is uniform, smooth by filled therewith, so that the part for guaranteeing that layer upon layer shapes is kept on total quality
Unanimously.
Step 4 opens light path system 2, to the slurry at forming face 12 according to the cross section information of part with line or the side in face
Formula is scanned exposure, solidifies to certain thickness slurry;
After the completion of step 5, one layer of slurry curing, control system 3 controls the distance that part supporting plate 5 moves down a thickness, and
Step 3~step 5 is repeated, the feed for carrying out next circulation paves, scans and solidifies and work that part supporting plate 5 moves down, up to complete
At the forming of entire part.
Part after taking out forming, obtains required product after post-treated, degreasing sintered.
Claims (7)
1. a kind of inorganic and metal material part former, which is characterized in that including system chassis in hollow structure
(1), it is provided with forming accommodation system in the system chassis (1), further includes light path system (2), the light path system (2) is in institute
It states in forming accommodation system and forms forming face (12), the forming accommodation system is connected with feeding system, the forming cabin system
System and feeding system are respectively connected with control system (3), and the control system (3) is for controlling feeding system to forming accommodation system
The usage of sizing agent of offer, the control system (3) are also connected with detection system (9).
2. a kind of inorganic and metal material part former as described in claim 1, which is characterized in that the forming cabin
Chamber system includes the forming storehouse (4) being set in system chassis (1), and being horizontally disposed in the forming storehouse (4) has part supporting plate
(5), the part supporting plate (5) connect with control system (3), and the light path system (2) forms forming above part supporting plate (5)
Face (12).
3. a kind of inorganic and metal material part former as claimed in claim 2, which is characterized in that the feed system
System includes feed bin (6), and the feed bin (6) is communicated with scraper (8) by connecting pipe (7), scraper (8) the activity setting
In on system chassis (1), and be located above forming storehouse (4), the feed bin (6) and scraper (8) with control system (3) even
It connects.
4. a kind of inorganic and metal material part former as claimed in claim 3, which is characterized in that the scraper
It (8) is the two-way scraper of groove type.
5. a kind of inorganic and metal material part former as claimed in claim 2, which is characterized in that the System Computer
Material recycle storehouse (10) are additionally provided in frame (1).
6. a kind of inorganic and metal material part former as claimed in claim 5, which is characterized in that the material returns
The quantity for receiving storehouse (10) is 2, and two material recycle storehouses (10) are respectively arranged at the two sides of forming storehouse (4).
7. a kind of inorganic and metal material part former as claimed in claim 5, which is characterized in that the System Computer
The upper edge of frame (1) is inwardly provided with overflow launder (11) for one week, and the side of overflow launder (11) and forming storehouse (4) and material recycle
The upper edge in storehouse (10) contacts.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821257901.9U CN209454172U (en) | 2018-08-06 | 2018-08-06 | A kind of inorganic and metal material part former |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821257901.9U CN209454172U (en) | 2018-08-06 | 2018-08-06 | A kind of inorganic and metal material part former |
Publications (1)
Publication Number | Publication Date |
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CN209454172U true CN209454172U (en) | 2019-10-01 |
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ID=68035119
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CN201821257901.9U Active CN209454172U (en) | 2018-08-06 | 2018-08-06 | A kind of inorganic and metal material part former |
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CN (1) | CN209454172U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111168995A (en) * | 2020-01-03 | 2020-05-19 | 深圳摩方新材科技有限公司 | Multi-material photocuring 3D printing equipment for film coating and using method thereof |
-
2018
- 2018-08-06 CN CN201821257901.9U patent/CN209454172U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111168995A (en) * | 2020-01-03 | 2020-05-19 | 深圳摩方新材科技有限公司 | Multi-material photocuring 3D printing equipment for film coating and using method thereof |
CN111168995B (en) * | 2020-01-03 | 2022-09-02 | 深圳摩方新材科技有限公司 | Multi-material photocuring 3D printing equipment for film coating and using method thereof |
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