CN108909342A - A kind of manufacture craft of Glass Craft - Google Patents
A kind of manufacture craft of Glass Craft Download PDFInfo
- Publication number
- CN108909342A CN108909342A CN201810818034.XA CN201810818034A CN108909342A CN 108909342 A CN108909342 A CN 108909342A CN 201810818034 A CN201810818034 A CN 201810818034A CN 108909342 A CN108909342 A CN 108909342A
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- glass
- shaped platform
- craft
- sliding block
- screw rod
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B44—DECORATIVE ARTS
- B44C—PRODUCING DECORATIVE EFFECTS; MOSAICS; TARSIA WORK; PAPERHANGING
- B44C5/00—Processes for producing special ornamental bodies
- B44C5/08—Leaded lights
Abstract
The invention belongs to technical field of artware manufacture, specifically a kind of manufacture craft of Glass Craft, the technique includes the following steps:Suitable glass material is chosen according to the Glass Craft of required production;Suitable dyestuff is chosen according to the craftwork of required production;Associated glass is cleaned;It will be melted in glass and the glass smelting material discharging module of dyestuff investment glass 3D printer, required Glass Craft printed finally by glass 3D printer;The present invention is suitable for the production of large batch of Glass Craft, and the precision of the Glass Craft made is high, high-quality.
Description
Technical field
The invention belongs to technical field of artware manufacture, specifically a kind of manufacture craft of Glass Craft.
Background technique
Craftwork is all very popular from ancient times to the present, as the improvement of people's living standards, people are to craftwork
Consumption enthusiasm is also higher and higher, especially Glass Craft, deep to be liked by female consumer.But craftwork, especially glass
The manufacture difficulty of craftwork is big, is usually all artificial hand-made, cost of manufacture height, and yield rate is low, leads to complicated glass
The price of craftwork is high;And the Glass Craft batch making difficulty of manual manufacture is high, and production precision is low, can not meet people
Consumption demand.
Summary of the invention
In order to make up for the deficiencies of the prior art, a kind of manufacture craft of Glass Craft proposed by the present invention, the technique are adopted
Glass Craft is made with a kind of glass 3D printer, reduces the manufacture difficulty of Glass Craft, so that Glass Craft
It is made from the artificial hand-made machine that becomes, improves the producing efficiency of Glass Craft;The glass 3D printing that the technique uses
Machine has the glass shaped platform of positioning action by setting, improves the production precision and aesthetics of Glass Craft, and
The batch micro operations of Glass Craft are realized, so that the supply of Glass Craft can satisfy the demand in market;The technique uses
Glass 3D printer by smearing polytetrafluoroethylene material on glass shaped platform, avoid Glass Craft printing and complete
It is sticked together afterwards with glass shaped platform, avoids pickup difficulty, so as to avoid the damage of Glass Craft, improve glass
The quality of glass craftwork improves the yield rate of Glass Craft.
The technical solution adopted by the present invention to solve the technical problems is:A kind of system of Glass Craft of the present invention
Make technique, which includes the following steps:
Step 1:Suitable glass material is chosen according to the Glass Craft of required production;
Step 2:In step 1 after the completion of material selection, suitable dyestuff is chosen according to the craftwork of required production;
Step 3:After the completion of dyestuff is chosen in step 2, associated glass is cleaned;
Step 4:After the completion of being cleaned in step 3, the glass smelting of glass and dyestuff investment glass 3D printer is discharged
It is melted in module, required Glass Craft is printed finally by glass 3D printer;
Wherein, 3D printer described in step 4 includes body, glass smelting material discharging module, glass shaped platform, cuts
Cut module and position adjustment block;The body is made of four rectangle fixed links and one piece of rectangular base plate;The glass smelting
Material discharging module is fixed on the top of body, and discharge port is offered on glass smelting material discharging module, and glass smelting material discharging module is used for
Glass smelting is discharged from discharge port at liquid;The glass shaped platform is located at the lower section of glass smelting material discharging module, glass
The liquid glass that glass shaped platform is used to carry discharge port discharge is allowed to form;The cutting module is located at glass smelting discharging mode
Between block and glass shaped platform, cutting module is used for the molding glass pieces bottom surface of sawing;The position adjustment block is located at
Below glass shaped platform, position adjustment block is used to adjust the position of glass shaped platform;The position adjustment block includes
Motor one, screw rod one, guide rod one, sliding block one, motor two, screw rod two, guide rod two, sliding block two and cylinder;One quantity of motor
It is two, motor one is separately fixed in two fixed links in left side front and back of body;One quantity of screw rod is two, one one end of screw rod
With the output axis connection of motor one, one other end of screw rod is rotatably connected on respectively in two fixed links in right side of machine body front and back;It is described
One quantity of guide rod is two, and one one end of guide rod is separately fixed in two fixed links in left side of machine body front and back, one other end of guide rod difference
It is fixed in two fixed links in right side of machine body front and back;One quantity of sliding block is two, and sliding block one is divided by guide rod one with screw rod one
It is not mounted on the front and back side of body, sliding block one is used to adjust the left-right position of glass shaped platform;The motor two is mounted on machine
On the sliding block one at body rear;Described two one end of screw rod is connected with the output shaft of motor two, before the other end and body of screw rod two
The sliding block one of side is rotatablely connected;Two both ends of guide rod are separately fixed on two pieces of sliding blocks one of body front and back side;The sliding block
Two are mounted on the middle part of body by screw rod two and guide rod two, and sliding block two is used to adjust the front-rear position of glass shaped platform;Institute
It states cylinder to be mounted on sliding block two, cylinder is used to adjust the upper and lower position of glass shaped platform.When work, by the glass metal of melting
Body is expelled on glass shaped platform from the discharge port of glass smelting material discharging module, and glass precursor solution drops down on glass shaped platform
When, the side-to-side movement on screw rod one and guide rod one of band movable slider one is rotated by motor one, the presence of guide rod one ensure that sliding block
One will not rotate, to ensure that the linear motion of sliding block one, the movement of sliding block one drives screw rod two, guide rod two and sliding block
Two side-to-side movements, so that cylinder drives glass shaped platform to move left and right;Band movable slider two is rotated in spiral shell by motor two
It is moved forward and backward on bar two and guide rod two, so that cylinder two moves forward and backward, so that glass shaped platform is moved forward and backward;Cylinder
There are the upper and lower positions of adjustable glass shaped platform;By the adjusting of the position to glass shaped platform so that 3D printing
Machine prints required glass finished-product, cuts finally by bottom of the cutting module to the glass after printing, so that glass
Bottom it is more smooth, improve the quality of finished work-piece.
Polytetrafluoroethylene material is coated on the glass shaped platform, polytetrafluoroethylene material is used for so that 3D printing
Glass will not stick on glass shaped platform.When work, the utilization of polytetrafluoroethylene material is so that the glass of melting will not glue
It is connected on glass shaped platform, removes, avoid from glass shaped platform so that the glass finished-product after the completion of printing is convenient
Glass pieces pickup trouble and damage, improve the quality of finished work-piece.
The 3D printer has four pieces of different glass shaped platforms;First piece of glass shaped platform is planar
State;Rectangular enclosure one, motor three and rotating cone are equipped with inside second block of glass shaped platform;The rectangular enclosure one is located at
The middle part of glass shaped platform;The motor three is fixed in rectangular enclosure one;The rotating cone lower end is mounted on motor three
Output shaft on, rotating cone upper end passes through rectangular enclosure one and exposes outside glass shaped platform upper surface, and rotating cone is for preventing
Glass in 3D printing moves, while preventing vitronectin on rotating cone.When work, when the workpiece accuracy requirement of printing
Low and bottom surface be plane when, using first piece of glass shaped platform, when the workpiece accuracy of printing is higher, with second block of glass at
The glass of melting is dropped on glass shaped platform and prints by type platform, and the setting of rotating cone is so that glass pieces will not
The movement that position occurs on glass shaped platform improves finished product to ensure that the precision of the glass pieces printed
Quality, while in print procedure, the rotation of rotating cone is so that glass will not stick on rotating cone, so that the glass after printing
Glass workpiece is easy to take out, and damages when avoiding glass pieces pickup, improves yield rate.
Circular groove, rectangular enclosure two, electromagnet one and electromagnet two are additionally provided on the third block glass shaped platform;
The circular groove is located at the middle part of glass shaped platform, and circular groove is for preventing the glass of 3D printing from sending out in print procedure
Raw movement, to improve the precision of the glass pieces in print procedure, improves the quality of workpiece;The rectangular recess two
Below circular groove;The electromagnet one is located at the bottom of rectangular recess two;The electromagnet two is located at rectangular recess two
Top smears at the top of electromagnet two by polytetrafluoroethylene material, passes through spring connection, electromagnetism between electromagnet one and electromagnet two
Iron two is used to printed glass releasing circular groove.When work, the setting of circular groove is so that the glass of melting enters circle
In connected in star, so that the position of workpiece will not move, to ensure that the precision of finished work-piece, the product of product are improved
Matter, when printing is completed, cutter device remove workpiece bottom extra cylindrical bump outstanding, electromagnet two and electromagnet
One is powered, and electromagnet two releases the cylindrical bump cut down in circular groove under the action of electromagnet one, facilitates
Staff takes out cylindrical bump, improves work efficiency.
Rectangular enclosure three, fixed plate, sealing block, electromagnet three and vacuum are additionally provided in the 4th piece of glass shaped platform
Generator;The rectangular enclosure three is located inside glass shaped platform;The fixed plate is mounted on rectangular enclosure three by spring
It is interior;Several through-holes one are additionally provided on the glass shaped platform;Through-hole one on the sealing number of blocks and glass shaped platform
Quantity is identical, and sealing block is fixed in fixed plate, and sealing block is for sealing through-hole one;The electromagnet three is mounted on rectangle sky
Three bottom of chamber, electromagnet three are used for so that fixed plate is moved downward with sealing block;The lower section of the glass shaped platform is equipped with logical
Hole two;The vacuum generator is located at below glass shaped platform, passes through through-hole between vacuum generator and glass shaped platform
Three connections, vacuum generator are used for so that there is vacuum environment in rectangular enclosure three.When work, when glass solution fall in glass at
After on type platform, glass solution solidification adsorbs fixed plate by electromagnet three, so that sealing block moves downward, so that glass
Glass workpiece is in contact with space in rectangular enclosure three, by vacuum generator the air in rectangular enclosure three is reduced at this time and produced
A raw negative pressure, glass shaped platform firmly adsorbs glass pieces in the case where negative pressure, so that glass pieces will not
It moves, to improve the machining accuracy of glass pieces, and then improves the quality of finished product.
Glass shaped platform bottom is equipped with chamfering, and chamfering is used to reduce the friction between four pieces of glass shaped platforms.
When work, the setting of chamfering reduces abrasion of the glass shaped platform in combination, improves the service life of glass shaped platform, from
And improve the service life of 3D printer.
The cutting module includes motor four, screw rod three, guide rod three, sliding block three, hoist engine and cutting line;The motor four
Quantity is two, and motor four is separately fixed in the front and back fixed link of left side of machine body;Three quantity of screw rod is two, three one end of screw rod
It is connected with the output shaft of motor four, the other end of screw rod three is rotatably connected on former and later two fixed links of right side of machine body respectively
On;Three quantity of guide rod is two, and three left end of guide rod is separately fixed in former and later two fixed links of left side of machine body, guide rod three
Right end is separately fixed in former and later two fixed links of right side of machine body;Three quantity of sliding block is two, and sliding block three passes through screw rod three
The front and rear sides of body are mounted on guide rod three;The hoist engine quantity be two, hoist engine be separately fixed at body former and later two
On sliding block three;The cutting line both ends are wound respectively on the hoist engine of front and rear sides, after the completion of cutting line is for cutting printing
Glass.When work, when workpiece, which prints, to be completed, the rotation band movable slider three of motor four moves on screw rod three and guide rod three, leads
The presence of bar three move sliding block three may only in the horizontal direction, and hoist engine moves together with sliding block three, hoist engine fortune
While dynamic, cutting line on folding and unfolding hoist engine, so that cutting line moves back and forth, cutting line is transported to workpiece together with hoist engine
Dynamic, cutting line cuts the bottom of workpiece, so that workpiece bottom is more smooth, avoids the presence of burr, improves work
The quality of part.
Beneficial effects of the present invention are as follows:
1. a kind of manufacture craft of Glass Craft of the present invention, the technique is using a kind of glass 3D printer to glass
Glass craftwork is made, and is reduced the difficulty of Glass Craft production, is improved the precision and quality of Glass Craft, is improved
The producing efficiency of Glass Craft.
2. a kind of manufacture craft of Glass Craft of the present invention, a kind of glass 3D printer which uses is logical
The glass shaped platform that setting has positioning function is crossed, the high-precision batch making of Glass Craft is realized, so that glass
The supply of craftwork can satisfy the demand in market.
3. a kind of manufacture craft of Glass Craft of the present invention, a kind of glass 3D printer which uses is logical
It crosses and smears polytetrafluoroethylene (PTFE) on glass shaped platform, avoid and occur after Glass Craft completes with glass shaped platform
Adhesion avoids the damage of Glass Craft, improves the quality of Glass Craft.
Detailed description of the invention
Fig. 1 is flow chart of the invention;
Fig. 2 is main view of the invention;
Fig. 3 is A-A cross-sectional view in Fig. 2;
Fig. 4 is B-B cross-sectional view in Fig. 2;
Fig. 5 is the structural schematic diagram of second piece of glass shaped platform of the invention;
Fig. 6 is the structural schematic diagram of third block glass shaped platform of the present invention;
Fig. 7 is the structural schematic diagram of the 4th piece of glass shaped platform of the invention;
In figure:Body 1, machine glass smelting material discharging module 2, glass shaped platform 3, cutting module 4, position adjustment block 5,
Discharge port 21, motor 3 31, rotating cone 32, electromagnet 1, electromagnet 2 34, fixed plate 35, sealing block 36, electromagnet three
37, vacuum generator 38, motor 4 41, screw rod 3 42, guide rod 3 43, sliding block 3 44, hoist engine 45, cutting line 46, motor one
51, screw rod 1, guide rod 1, sliding block 1, motor 2 55, screw rod 2 56, guide rod 2 57, sliding block 2 58, cylinder 59.
Specific embodiment
It is carried out using structure of Fig. 1-Fig. 7 to a kind of manufacture craft of Glass Craft of an embodiment of the present invention as follows
Explanation.
As shown in Figure 1 to Figure 3, the manufacture craft of a kind of Glass Craft of the present invention, the technique include following step
Suddenly:
Step 1:Suitable glass material is chosen according to the Glass Craft of required production;
Step 2:In step 1 after the completion of material selection, suitable dyestuff is chosen according to the craftwork of required production;
Step 3:After the completion of dyestuff is chosen in step 2, associated glass is cleaned;
Step 4:After the completion of being cleaned in step 3, the glass smelting of glass and dyestuff investment glass 3D printer is discharged
It is melted in module, required Glass Craft is printed finally by glass 3D printer;
Wherein, 3D printer described in step 4 include body 1, glass smelting material discharging module 2, glass shaped platform 3,
Cutting module 4 and position adjustment block 5;The body 1 is made of four rectangle fixed links and one piece of rectangular base plate;The glass
The top that material discharging module 2 is fixed on body 1 is melted, discharge port 21, glass smelting discharging are offered on glass smelting material discharging module 2
Module 2 is for glass smelting to be discharged from discharge port 21 at liquid;The glass shaped platform 3 is located at glass smelting discharging mode
The lower section of block 2, the liquid glass that glass shaped platform 3 is used to carry the discharge of discharge port 21 are allowed to form;The cutting module 4
Between glass smelting material discharging module 2 and glass shaped platform 3, cutting module 4 is used for the molding glass pieces bottom surface of sawing;Institute
It states position adjustment block 5 and is located at 3 lower section of glass shaped platform, position adjustment block 5 is used to adjust the position of glass shaped platform 3
It sets;The position adjustment block 5 includes motor 1, screw rod 1, guide rod 1, sliding block 1, motor 2 55, screw rod two
56, guide rod 2 57, sliding block 2 58 and cylinder 59;One 51 quantity of motor is two, and motor 1 is separately fixed at a left side for body 1
Before and after side in two fixed links;One 52 quantity of screw rod is two, the output axis connection of one 52 one end of screw rod and motor 1, spiral shell
One 52 other end of bar is rotatably connected on respectively in 1 two fixed links in right side front and back of body;One 53 quantity of guide rod is two, guide rod
One 53 one end are separately fixed in 1 two fixed links in left side front and back of body, and one 53 other end of guide rod is separately fixed at 1 right side of body
In the fixed link of front and back two;One 54 quantity of sliding block is two, and sliding block 1 is installed by guide rod 1 with screw rod 1 respectively
The side before and after body 1, sliding block 1 are used to adjust the left-right position of glass shaped platform 3;The motor 2 55 is mounted on machine
On the sliding block 1 at 1 rear of body;Described 2 56 one end of screw rod is connected with the output shaft of motor 2 55, the other end of screw rod 2 56
It is rotatablely connected with the sliding block 1 in 1 front of body;2 57 both ends of guide rod are separately fixed at two pieces of sliding blocks of 1 front and back side of body
On one 54;The sliding block 2 58 is mounted on the middle part of body 1 by screw rod 2 56 and guide rod 2 57, and sliding block 2 58 is for adjusting glass
The front-rear position of glass shaped platform 3;The cylinder 59 is mounted on sliding block 2 58, and cylinder 59 is for adjusting glass shaped platform 3
Upper and lower position.When work, the glass precursor solution of melting is expelled to from the discharge port 21 of glass smelting material discharging module 2 glass at
On type platform 3, when glass precursor solution is dropped down on glass shaped platform 3, band movable slider 1 is rotated in screw rod one by motor 1
52 with guide rod 1 on side-to-side movement, the presence of guide rod 1 ensure that sliding block 1 will not rotate, to ensure that cunning
The movement of the linear motion of block 1, sliding block 1 drives screw rod 2 56, guide rod 2 57 and 2 58 side-to-side movement of sliding block, to make
Obtaining cylinder 59 drives glass shaped platform 3 to move left and right;By motor 2 55 rotate band movable slider 2 58 screw rod 2 56 with lead
It is moved forward and backward on bar 2 57, so that cylinder 59 2 moves forward and backward, so that glass shaped platform 3 is moved forward and backward;Cylinder 59
There are the upper and lower positions of adjustable glass shaped platform 3;By the adjusting of the position to glass shaped platform 3 so that 3D is beaten
Print machine prints required glass finished-product, cuts finally by the bottom of the glass after 4 pairs of cutting module printings, so that glass
The bottom of glass is more smooth, improves the quality of finished work-piece.
As shown in Fig. 2, being coated with polytetrafluoroethylene material on the glass shaped platform 3, polytetrafluoroethylene material is used
In sticking in 3D printing glass will not on glass shaped platform 3.When work, the utilization of polytetrafluoroethylene material is so that melting
Glass will not stick on glass shaped platform 3 so that the glass finished-product after the completion of printing is convenient flat from glass molding
It is removed on platform 3, avoids glass pieces pickup trouble and damage, improve the quality of finished work-piece.
As shown in Fig. 3 and Fig. 5, the 3D printer has four pieces of different glass shaped platforms 3;First block of glass at
Type platform 3 is flat state;Rectangular enclosure one, motor 3 31 and rotating cone are equipped with inside second piece of glass shaped platform 3
32;The rectangular enclosure one is located at the middle part of glass shaped platform 3;The motor 3 31 is fixed in rectangular enclosure one;Institute
32 lower end of rotating cone is stated to be mounted on the output shaft of motor 3 31,32 upper end of rotating cone pass through rectangular enclosure one expose glass at
Outside 3 upper surface of type platform, rotating cone 32 prevents vitronectin from rotating for preventing the glass in 3D printing from moving
On cone 32.When work, when it is plane that the workpiece accuracy of printing, which requires low and bottom surface, using first piece of glass shaped platform 3, when
When the workpiece accuracy of printing is higher, with second piece of glass shaped platform 3, the glass of melting is dropped on glass shaped platform 3
It is printed, the setting of rotating cone 32 is so that the movement of position will not occur on glass shaped platform 3 for glass pieces, to protect
The precision for having demonstrate,proved the glass pieces printed improves the quality of finished product, while in print procedure, the rotation of rotating cone 32 so that
Glass will not stick on rotating cone 32, so that the glass pieces after printing are easy to take out, avoid glass pieces pickup
When damage, improve yield rate.
As shown in fig. 6, being additionally provided with circular groove, rectangular enclosure two, electromagnet one on the third block glass shaped platform 3
33 with electromagnet 2 34;The circular groove is located at the middle part of glass shaped platform 3, and circular groove is used to prevent the glass of 3D printing
Glass moves in print procedure, to improve the precision of the glass pieces in print procedure, improves the quality of workpiece;
The rectangular recess two is located at below circular groove;The electromagnet 1 is located at the bottom of rectangular recess two;The electromagnet
2 34 are located at the top of rectangular recess two, and 2 34 top of electromagnet is smeared by polytetrafluoroethylene material, electromagnet 1 and electromagnetism
It is connected between iron 2 34 by spring, electromagnet 2 34 is used to printed glass releasing circular groove.It is round recessed when work
The setting of slot is so that the glass of melting enters in circular groove, so that the position of workpiece will not move, to ensure that into
The precision of product workpiece improves the quality of product, and when printing is completed, cutter device is by workpiece bottom extra cylinder outstanding
The removal of shape convex block, electromagnet 2 34 and electromagnet 1 are powered, and electromagnet 2 34 will be under cutting under the action of electromagnet 1
The cylindrical bump come is released in circular groove, is facilitated staff and is taken out cylindrical bump, improves work efficiency.
As shown in fig. 7, being additionally provided with rectangular enclosure three, fixed plate 35, sealing block in the 4th piece of glass shaped platform 3
36, electromagnet 3 37 and vacuum generator 38;The rectangular enclosure three is located inside glass shaped platform 3;The fixed plate 35
It is mounted in rectangular enclosure three by spring;Several through-holes one are additionally provided on the glass shaped platform 3;The number of sealing block 36
Amount is identical as one quantity of through-hole on glass shaped platform 3, and sealing block 36 is fixed in fixed plate 35, and sealing block 36 will be for that will lead to
Hole one seals;The electromagnet 3 37 is mounted on three bottom of rectangular enclosure, and electromagnet 3 37 is used for so that fixed plate 35 and sealing
Block 36 moves downward;The lower section of the glass shaped platform 3 is equipped with through-hole two;It is flat that the vacuum generator 38 is located at glass molding
3 lower section of platform, is connected between vacuum generator 38 and glass shaped platform 3 by through-hole three, vacuum generator 38 is used for so that square
There is vacuum environment in shape cavity three.When work, after glass solution is fallen on glass shaped platform 3, glass solution solidification is led to
It crosses electromagnet 3 37 and adsorbs fixed plate 35, so that sealing block 36 moves downward, so that in glass pieces and rectangular enclosure three
Space is in contact, and by vacuum generator 38 air in rectangular enclosure three is reduced at this time and generates a negative pressure, in negative pressure
In the case where glass shaped platform 3 firmly glass pieces are adsorbed so that glass pieces will not move, to improve
The machining accuracy of glass pieces, and then improve the quality of finished product.
As shown in Fig. 2, 3 bottom of glass shaped platform is equipped with chamfering, chamfering is for reducing four pieces of glass shaped platforms 3
Between friction.When work, the setting of chamfering reduces abrasion of the glass shaped platform 3 in combination, improves glass molding
The service life of platform 3, to improve the service life of 3D printer.
As shown in Fig. 2 and Fig. 4, the cutting module 4 include motor 4 41, screw rod 3 42, guide rod 3 43, sliding block 3 44,
Hoist engine 45 and cutting line 46;4 41 quantity of motor is two, and the front and back that motor 4 41 is separately fixed at 1 left side of body is fixed
On bar;3 42 quantity of screw rod be two, 3 42 one end of screw rod is connected with the output shaft of motor 4 41, screw rod 3 42 it is another
End is rotatably connected on respectively in former and later two fixed links on 1 right side of body;3 43 quantity of guide rod is two, 3 43 left end of guide rod
It is separately fixed in former and later two fixed links in 1 left side of body, the right end of guide rod 3 43 is separately fixed at the front and back on 1 right side of body
In two fixed links;3 44 quantity of sliding block is two, and sliding block 3 44 is mounted on body 1 by screw rod 3 42 and guide rod 3 43
Front and rear sides;45 quantity of hoist engine is two, and hoist engine 45 is separately fixed on former and later two sliding blocks 3 44 of body 1;It is described
46 both ends of cutting line are wound respectively on the hoist engine 45 of front and rear sides, and cutting line 46 is used to cut the glass after the completion of printing.
When work, when workpiece, which prints, to be completed, the rotation band movable slider 3 44 of motor 4 41 moves on screw rod 3 42 and guide rod 3 43, leads
The presence of bar 3 43 move sliding block 3 44 may only in the horizontal direction, and hoist engine 45 moves together with sliding block 3 44,
While hoist engine 45 moves, cutting line 46 on folding and unfolding hoist engine 45 so that cutting line 46 moves back and forth, cutting line 46 with
For hoist engine 45 together to workpiece motion s, cutting line 46 cuts the bottom of workpiece, so that workpiece bottom is more smooth, avoids
The presence of burr, improves the quality of workpiece.
Concrete operations process is as follows:
When work, the glass precursor solution of melting is expelled to glass molding from the discharge port 21 of glass smelting material discharging module 2
On platform 3, the polytetrafluoroethylene (PTFE) smeared on glass shaped platform 3 can stick in avoid glass solution and glass shaped platform 3
Together, workpiece picks up difficulty after the completion of avoiding printing, avoids workpiece damage when picking up, improves yield rate;Glass metal
When body is dropped down on glass shaped platform 3, it is left on screw rod 1 and guide rod 1 that band movable slider 1 is rotated by motor 1
Right movement, the presence of guide rod 1 ensure that sliding block 1 will not rotate, thus ensure that the linear motion of sliding block 1,
The movement of sliding block 1 drives screw rod 2 56, guide rod 2 57 and 2 58 side-to-side movement of sliding block, so that cylinder 59 drives glass
Shaped platform 3 moves left and right;Band movable slider 2 58 is rotated by motor 2 55 to move forward and backward on screw rod 2 56 and guide rod 2 57,
So that cylinder 59 moves forward and backward, so that glass shaped platform 3 is moved forward and backward;Cylinder 59 there are the moldings of adjustable glass
The upper and lower position of platform 3;By the adjusting of the position to glass shaped platform 3 so that 3D printer print required glass at
Product finally open motor 4 41, and the rotation band movable slider 3 44 of motor 4 41 moves on screw rod 3 42 and guide rod 3 43, guide rod three
43 presence move sliding block 3 44 may only in the horizontal direction, and hoist engine 45 moves together with sliding block 3 44, elevator
While machine 45 moves, cutting line 46 on folding and unfolding hoist engine 45, so that cutting line 46 moves back and forth, cutting line 46 is with elevator
For machine 45 together to workpiece motion s, cutting line 46 cuts the bottom of workpiece, so that workpiece bottom is more smooth, avoids hair
The presence of thorn and point, improves the quality of workpiece.
In the process, four pieces of glass shaped platforms 3 are gathered around there are four types of different forms, and glass shaped platform 3 is under four kinds of forms
Workflow it is as follows:
1) when working, the glass of melting is dropped on first piece of glass shaped platform 3, glass shaped platform 3 is plane
Form, glass shaped platform 3 at this time are suitble to printing precision low, and bottom surface is the glass pieces of plane.
2) when working, the glass of melting is dropped on second piece of glass shaped platform 3, the setting of rotating cone 32 is so that glass
The movement that position will not occur in glass platform for glass workpiece improves to ensure that the precision of the glass pieces printed
The quality of finished product, while in print procedure, the rotation of rotating cone 32 so that glass will not stick on rotating cone 32 so that
Glass pieces after printing are easy to take out, and damage when avoiding glass pieces pickup, improve yield rate.
3) when working, the glass of melting is dropped on third block glass shaped platform 3, the setting of circular groove is so that molten
The glass melted enters in circular groove, so that the position of workpiece will not move, to ensure that the precision of finished work-piece, mentions
The high quality of product, when printing is completed, cutter device removes workpiece bottom extra cylindrical bump outstanding, electromagnetism
Iron 2 34 and electromagnet 1 are powered, and electromagnet 2 34 pushes away the cylindrical bump cut down under the action of electromagnet 1
Out in circular groove, facilitates staff and take out cylindrical bump, improve work efficiency.
4) work when, the glass of melting is dropped on the 4th piece of glass shaped platform 3, when glass solution fall in glass at
After on type platform 3, glass solution solidification adsorbs fixed plate 35 by electromagnet 3 37, so that sealing block 36 moves downward, thus
So that glass pieces are in contact with space in rectangular enclosure three, the sky in rectangular enclosure three is made by vacuum generator 38 at this time
Gas, which is reduced, generates a negative pressure, and glass shaped platform 3 firmly adsorbs glass pieces in the case where negative pressure, so that glass
Workpiece will not move, to improve the machining accuracy of glass pieces, and then improve the quality of finished product.
More than, it is illustrated about one embodiment of the present invention, but the present invention is not limited to the above embodiments, not
Various changes are able to carry out in the range of disengaging present subject matter.
(A) in the above-described embodiment, it is cooperated and is realized by two groups of motors one, screw rod one, sliding block one and guide rod one
Glass shaped platform moves left and right, but not limited to this, single motor one, screw rod one, sliding block one and guide rod one can also be passed through
With moving left and right for guide rail, sliding block matching and realization glass shaped platform.
Industrial applicibility
According to the present invention, the manufacture craft of the Glass Craft is capable of the glass for producing high-precision, high quality of batch
Craftwork, so that the manufacture craft of this Glass Craft is useful in technical field of artware manufacture.
Claims (7)
1. a kind of manufacture craft of Glass Craft, it is characterised in that:The technique includes the following steps:
Step 1:Suitable glass material is chosen according to the Glass Craft of required production;
Step 2:In step 1 after the completion of material selection, suitable dyestuff is chosen according to the craftwork of required production;
Step 3:After the completion of dyestuff is chosen in step 2, associated glass is cleaned;
Step 4:After the completion of being cleaned in step 3, by the glass smelting material discharging module of glass and dyestuff investment glass 3D printer
Required Glass Craft is printed in middle melting finally by glass 3D printer;
Wherein, 3D printer described in step 4 includes body (1), glass smelting material discharging module (2), glass shaped platform
(3), cutting module (4) and position adjustment block (5);The body (1) is by four rectangle fixed links and one piece of rectangular base board group
At;The glass smelting material discharging module (2) is fixed on the top of body (1), and glass smelting material discharging module offers discharging on (2)
Mouth (21), glass smelting material discharging module (2) are used for the discharge from discharge port (21) at liquid by glass smelting;The glass molding
Platform (3) is located at the lower section of glass smelting material discharging module (2), and glass shaped platform (3) is used to carry discharge port (21) discharge
Liquid glass is allowed to form;The cutting module (4) is located between glass smelting material discharging module (2) and glass shaped platform (3),
Cutting module (4) is used for the molding glass pieces bottom surface of sawing;The position adjustment block (5) is located at glass shaped platform (3)
Lower section, position adjustment block (5) are used to adjust the position of glass shaped platform (3);The position adjustment block (5) includes motor
One (51), screw rod one (52), guide rod one (53), sliding block one (54), motor two (55), screw rod two (56), guide rod two (57), sliding block
Two (58) and cylinder (59);Motor one (51) quantity is two, and motor one (51) is separately fixed at before and after the left side of body (1)
In two fixed links;Screw rod one (52) quantity is two, the output axis connection of screw rod one (52) one end and motor one (51), spiral shell
Bar one (52) other end is rotatably connected on the right side of body (1) respectively in two fixed links in front and back;Guide rod one (53) quantity is
Two, guide rod one (53) one end is separately fixed on the left of body (1) in two fixed links in front and back, and guide rod one (53) other end is solid respectively
It is scheduled on the right side of body (1) in two fixed links in front and back;Sliding block one (54) quantity is two, and sliding block one (54) passes through guide rod one
(53) the front and back side of body (1) is separately mounted to screw rod one (52), sliding block one (54) is for adjusting glass shaped platform (3)
Left-right position;The motor two (55) is mounted on the sliding block one (54) at body (1) rear;Described screw rod two (56) one end and electricity
The output shaft of machine two (55) is connected, and the other end of screw rod two (56) and the sliding block one (54) in front of body (1) are rotatablely connected;Institute
Guide rod two (57) both ends are stated to be separately fixed on two pieces of sliding blocks one (54) of body (1) front and back side;The sliding block two (58) passes through
Screw rod two (56) and guide rod two (57) are mounted on the middle part of body (1), and sliding block two (58) is for adjusting glass shaped platform (3)
Front-rear position;The cylinder (59) is mounted on sliding block two (58), and cylinder (59) is used to adjust the upper and lower of glass shaped platform (3)
Position.
2. a kind of manufacture craft of Glass Craft according to claim 1, it is characterised in that:The glass molding is flat
Be coated with polytetrafluoroethylene material on platform (3), polytetrafluoroethylene material be used for so that 3D printing glass will not stick in glass at
On type platform (3).
3. a kind of manufacture craft of Glass Craft according to claim 1, it is characterised in that:The 3D printer has four
The different glass shaped platform (3) of block;First piece of glass shaped platform (3) is flat state;Second block of glass at
Rectangular enclosure one, motor three (31) and rotating cone (32) are equipped with inside type platform (3);The rectangular enclosure one is located at glass molding
The middle part of platform (3);The motor three (31) is fixed in rectangular enclosure one;Rotating cone (32) lower end is mounted on motor
On the output shaft of three (31), rotating cone (32) upper end passes through rectangular enclosure one and exposes outside glass shaped platform (3) upper surface, turns
Mantle (32) prevents vitronectin on rotating cone (32) for preventing the glass in 3D printing from moving.
4. a kind of manufacture craft of Glass Craft according to claim 3, it is characterised in that:The third block glass at
Circular groove, rectangular enclosure two, electromagnet one (33) and electromagnet two (34) are additionally provided on type platform (3);The circular groove
Positioned at the middle part of glass shaped platform (3), circular groove is for preventing the glass of 3D printing from moving in print procedure;Institute
Rectangular recess two is stated to be located at below circular groove;The electromagnet one (33) is located at the bottom of rectangular recess two;The electromagnet
Two (34) are located at the top of rectangular recess two, smear at the top of electromagnet two (34) by polytetrafluoroethylene material, electromagnet one (33)
It is connect between electromagnet two (34) by spring, electromagnet two (34) is used to printed glass releasing circular groove.
5. a kind of manufacture craft of Glass Craft according to claim 3, it is characterised in that:The 4th block of glass at
Rectangular enclosure three, fixed plate (35), sealing block (36), electromagnet three (37) and vacuum generator are additionally provided in type platform (3)
(38);It is internal that the rectangular enclosure three is located at glass shaped platform (3);The fixed plate (35) is mounted on rectangle sky by spring
In chamber three;Several through-holes one are additionally provided on the glass shaped platform (3);Sealing block (36) quantity and glass shaped platform
(3) one quantity of through-hole on is identical, and sealing block (36) is fixed on fixed plate (35), and sealing block (36) is used for through-hole one is close
Envelope;The electromagnet three (37) is mounted on three bottom of rectangular enclosure, and electromagnet three (37) is used for so that fixed plate (35) and sealing
Block (36) moves downward;The lower section of the glass shaped platform (3) is equipped with through-hole two;The vacuum generator (38) is located at glass
Below shaped platform (3), it is connect between vacuum generator (38) and glass shaped platform (3) by through-hole three, vacuum generator
(38) for so that there is vacuum environment in rectangular enclosure three.
6. a kind of manufacture craft of Glass Craft according to claim 1, it is characterised in that:The glass shaped platform
(3) bottom is equipped with chamfering, and chamfering is used to reduce the friction between four pieces of glass shaped platforms (3).
7. a kind of manufacture craft of Glass Craft according to claim 1, it is characterised in that:The cutting module (4)
Including motor four (41), screw rod three (42), guide rod three (43), sliding block three (44), hoist engine (45) and cutting line (46);The electricity
Machine four (41) quantity is two, and motor four (41) is separately fixed in the front and back fixed link on the left of body (1);The screw rod three (42)
Quantity is two, and screw rod three (42) one end is connected with the output shaft of motor four (41), and the other end of screw rod three (42) rotates respectively
It is connected in former and later two fixed links on the right side of body (1);Guide rod three (43) quantity is two, guide rod three (43) left end difference
It is fixed in former and later two fixed links on the left of body (1), before the right end of guide rod three (43) is separately fixed on the right side of body (1)
In latter two fixed link;Sliding block three (44) quantity is two, and sliding block three (44) is pacified by screw rod three (42) and guide rod three (43)
Mounted in the front and rear sides of body (1);Hoist engine (45) quantity is two, and hoist engine (45) is separately fixed at before and after body (1)
On two sliding blocks three (44);Cutting line (46) both ends are wound respectively on the hoist engine (45) of front and rear sides, cutting line
(46) for cutting the glass after the completion of printing.
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CN201810818034.XA CN108909342B (en) | 2018-07-24 | 2018-07-24 | Manufacturing process of glass artware |
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CN201810818034.XA CN108909342B (en) | 2018-07-24 | 2018-07-24 | Manufacturing process of glass artware |
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CN108909342B CN108909342B (en) | 2021-07-09 |
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CN107673585A (en) * | 2017-11-16 | 2018-02-09 | 海南中航特玻科技有限公司 | A kind of 3D glass printer and Method of printing |
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CN103214176A (en) * | 2012-01-19 | 2013-07-24 | 昆山思拓机器有限公司 | Multifunctional glass support platform |
CN104829111A (en) * | 2015-04-20 | 2015-08-12 | 浙江泽源玻璃科技有限公司 | Glass cutting device |
WO2018002001A1 (en) * | 2016-06-28 | 2018-01-04 | Shell Internationale Research Maatschappij B.V. | A method and apparatus for 3d printing of quartz glass |
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Effective date of registration: 20210611 Address after: 422001 plot F-22, Shaoyang Economic Development Zone, Shuangqing District, Shaoyang City, Hunan Province Applicant after: Hunan Shaohong special glass Co.,Ltd. Address before: Jiangsu Youfeng Microelectronics Co., Ltd., No. 5, Xinyu Road, Changheng Industrial Park, Xinbei District, Changzhou City, Jiangsu Province, 213127 Applicant before: Wang Yuqin |
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