CN103317925A - Numerical control modeling flower-carving machine for vertical type art pottery - Google Patents

Numerical control modeling flower-carving machine for vertical type art pottery Download PDF

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CN103317925A
CN103317925A CN2013101257916A CN201310125791A CN103317925A CN 103317925 A CN103317925 A CN 103317925A CN 2013101257916 A CN2013101257916 A CN 2013101257916A CN 201310125791 A CN201310125791 A CN 201310125791A CN 103317925 A CN103317925 A CN 103317925A
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stepping motor
working slider
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driving stepping
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不公告发明人
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Abstract

The invention relates to a numerical control modeling flower-carving machine for vertical type art pottery. The numerical control modeling flower-carving machine is characterized by comprising a computer, a controller and a main machine, wherein the controller is arranged between the computer and the main machine; the main machine comprises a machine base, a workpiece mounting device, an X-axis working system, a Y-axis working system and a Z-axis working system, the workpiece mounting device and the Y-axis working system are arranged on the machine base, the X-axis working system is arranged on the Y-axis working system, and the Z-axis working system is arranged on the X-axis working system; and a spindle motor is further arranged on the Z-axis working system, and a carving knife is arranged at one end of the spindle motor and linked with the spindle motor. The numerical control modeling flower-carving machine for the vertical type art pottery can improve the modeling efficiency of the art pottery and the labor production efficiency, and simultaneously, pottery shape varieties of the art pottery are further enriched.

Description

A kind of vertical art pottery numerical control moulding checkering machine
Technical field
The invention belongs to the Mould Machining field, relate in particular to a kind of vertical art pottery numerical control moulding checkering machine.
Background technology
From industry characteristic, the Modeling Material of art pottery industry moulding normal operation is pouring gypsum body, burning into sand sulphur pour mass, ceramic material etc., and formative method is generally continued to use jigger and added by hand manual surface treatment.The moulding time is long, is difficult to adapt to the industry requirement of high-efficient development.
From artistic ware shape moulding aspect, the art pottery mostly is circular geometry device shape, and is basic by manual processing, is difficult to guarantee rule, the attractive in appearance and precision of its shape; For personage, animal, and other are irregularly shaped, fully by behind the manual clay sculpture, turn over the mold type, complex technical process; Art pottery porcelain shape texturing aspect: art pottery moulded pottery not yet put in a kiln to bake base substrate is almost completely made at art pottery moulded pottery not yet put in a kiln to bake base substrate engraving by manual, and elapsed time is long, takies a large amount of hand labors.
Although once attempted with common four axle engraving machine production art ceramic wine bottle device shapes in this field, but because the installation way of common four axle engraving machines is not suitable for the lower gypsum of grip strength etc. fragile material, and its clamping position is very limited, and generally is difficult to processing.
In addition, be main industry because art pottery industry is a traditional craft, the modern numerical control knowledge of ubiquity is not high enough in the industry, even some craftsman is unwilling to accept the real achievement that modern science and technology are brought.And because traditional ceramic industry machinery usage level is on the low side, the practitioner is fewer in number, and numerical control knowledge is inadequate, and machining knowledge and overall qualities are not high, are difficult to have the people to dabble specially, and these reasons all bring obstruction also all for the Mechanization Development of the sector.
Summary of the invention
The present invention has designed a kind of vertical art pottery numerical control moulding checkering machine, thereby it is large to solve a series of difficulty of processing described in the background technology, takies hand labor many, and long problem expends time in.
To achieve these goals, the present invention has adopted following scheme:
A kind of vertical art pottery is comprised of computer system, controller and main frame three parts with numerical control moulding checkering machine, and described controller is arranged between described computer and the main frame.
Further, described main frame comprises support, workpiece erecting device, X-axis work system, Y-axis work system and Z axis work system, described workpiece erecting device and Y-axis work system all are arranged on the described support, described X-axis work system is arranged on the described Y-axis work system, and described Z axis work system is arranged on the described X-axis work system.Also be provided with spindle motor on described Z axis work system, an end of described spindle motor shaft is provided with graver, described graver and described spindle motor interlock.
Further, described Y-axis work system comprises: Y-axis working slider, Y-axis motion Driving Stepping Motor, Y-axis shaft coupling and Y-axis ball-screw, and described Y-axis working slider slides and is arranged on the described support; Described Y-axis ball-screw one end links with the Y-axis working slider, and the other end links with described Y-axis motion Driving Stepping Motor, and described Y-axis motion Driving Stepping Motor is arranged on described Y-axis working slider one end; Described Y-axis motion Driving Stepping Motor drives described Y-axis working slider and moves reciprocatingly by described Y-axis shaft coupling and Y-axis ball-screw interlock;
Further, described X-axis work system comprises: X-axis working slider, X-axis motion Driving Stepping Motor, X-axis shaft coupling and X-axis ball-screw; Described X-axis ball-screw one end is connected with the X-axis working slider, and the other end is connected with described X-axis motion Driving Stepping Motor by the X-axis shaft coupling; Described X-axis working slider be connected with described Y-axis working slider and with its interlock, described X-axis motion Driving Stepping Motor is fixed in the other end of described X-axis working slider; Described X-axis motion Driving Stepping Motor drives described X-axis working slider and moves reciprocatingly by X-axis shaft coupling and X-axis ball-screw interlock;
Further, described Z axis work system comprises: Z axis working slider, Z axis motion Driving Stepping Motor, Z axis shaft coupling and Z axis ball-screw; Described Z axis ball-screw one end is connected with the Z axis working slider, and the other end is connected with described Z axis motion Driving Stepping Motor by the Z axis shaft coupling; The described X-axis working slider of described Z axis working slider connect and with its interlock, described Z axis motion Driving Stepping Motor is fixed in the other end of described Z axis working slider; Described Z axis motion Driving Stepping Motor drives described Z axis working slider and moves reciprocatingly by Z axis shaft coupling and Z axis ball-screw interlock.
Further, described workpiece erecting device comprises by A axle output and is installed in whirligig A shaft-like work clamping rotating disc, A axle motion Driving Stepping Motor on the described support, is fixedly installed on Workpiece clamping slide unit and the Workpiece clamping elastic rotary dish of described support; Described Workpiece clamping slide unit bottom is fixedly mounted on the described support, and described Workpiece clamping slide unit and the adjacent setting of described A shaft-like work clamping rotating disc; Be provided with the Workpiece clamping handwheel on described Workpiece clamping slide unit top, also be provided with an outwardly directed adjustable plate vertical with described Workpiece clamping slide unit on described Workpiece clamping slide unit, described Workpiece clamping elastic rotary dish is arranged on the described adjustable plate, described Workpiece clamping elastic rotary dish and the corresponding setting of described A shaft-like work clamping rotating disc, moulding workpiece are arranged between described Workpiece clamping elastic rotary dish and the described A shaft-like work clamping rotating disc; Described A axle motion Driving Stepping Motor is arranged between described A shaft-like work clamping rotating disc and the described support.
Further, the material of required engraving is equipped with on the type of described graver and the described moulding workpiece.
This vertical art pottery has following beneficial effect with numerical control moulding checkering machine:
1, the vertical art pottery of the present invention can improve the moulding efficient of the art pottery with numerical control moulding checkering machine, can improve make efficiency more than 7 times with manual comparing.
2, the vertical art pottery of the present invention enriches the device shape kind of the art pottery with numerical control moulding checkering machine.
3, the efficiency of engraving and texturing on the vertical art pottery usefulness of the present invention numerical control moulding checkering machine raising art pottery moulded pottery not yet put in a kiln to bake.
4, the vertical art pottery of the present invention provides the effective tool of art pottery exploitation for the contemporary art ceramics practitioner with numerical control moulding checkering machine.
5, the vertical art pottery of the present invention is reasonable, easy to use with numerical control moulding checkering machine design science, is suitable for batch production and uses.
Description of drawings
Fig. 1: the vertical art pottery of the present invention numerical control moulding checkering machine main machine structure schematic diagram;
Fig. 2: the vertical art pottery of the present invention numerical control moulding checkering machine Computer Systems Organization schematic diagram.
Description of reference numerals:
1-X axle motion Driving Stepping Motor; 2-Workpiece clamping handwheel; 3-Workpiece clamping elastic rotary dish; 4-Workpiece clamping slide unit; 5-moulding workpiece; The 6-support; 7-A shaft-like work clamping rotating disc; 8-X axle working slider; 9-Z axle working slider; 10-Z axle motion Driving Stepping Motor; The 11-spindle motor; The 12-graver; 13-Y axle motion Driving Stepping Motor; 14-Y axle working slider; 15-A axle motion Driving Stepping Motor.
The specific embodiment
Below in conjunction with Fig. 1, the present invention will be further described:
As shown in Figure 1, the invention discloses a kind of vertical art pottery numerical control moulding checkering machine, it is comprised of computer system, controller and main frame three parts, and controller is arranged between described computer and the main frame.Main frame comprises support 6, workpiece erecting device, X-axis work system, Y-axis work system and Z axis work system, workpiece erecting device and Y-axis work system all are arranged on the support 6, the X-axis work system is arranged on the Y-axis work system, and the Z axis work system is arranged on the X-axis work system.Also be provided with spindle motor 11 on the Z axis work system, an end of spindle motor 11 axles is provided with graver 12, graver 12 and spindle motor 11 interlocks.Spindle motor 11 is High Rotation Speed under the driving of frequency converter, drives the 12 pairs of workpiece of icking tool that are installed on its axle and carries out machining.The material of required engraving is equipped with on the type of graver 12 and the moulding workpiece 5.Graver commonly used is the flat single-blade sharp knife of low-angle, and material is diamond or carbide alloy.
The Y-axis work system comprises: Y-axis working slider 14, Y-axis motion Driving Stepping Motor 13, Y-axis shaft coupling and Y-axis ball-screw, and Y-axis working slider 14 slides and is arranged on the support 6; Y-axis ball-screw one end links with Y-axis working slider 14, and the other end links with Y-axis motion Driving Stepping Motor 13, and Y-axis motion Driving Stepping Motor 13 is arranged on Y-axis working slider 14 1 ends; Y-axis motion Driving Stepping Motor 13 drives Y-axis working slider 14 and moves reciprocatingly by Y-axis shaft coupling and Y-axis ball-screw interlock; The X-axis work system comprises: X-axis working slider 8, X axle motion Driving Stepping Motor 1, X-axis shaft coupling and X-axis ball-screw; X-axis ball-screw one end is connected with X-axis working slider 8, and the other end is connected with X-axis motion Driving Stepping Motor 1 by the X-axis shaft coupling; X-axis working slider 8 be connected with Y-axis working slider 14 and with its interlock, X-axis motion Driving Stepping Motor 1 is fixed in the other end of X-axis working slider 8; X-axis motion Driving Stepping Motor 1 drives X-axis working slider 8 and moves reciprocatingly by X-axis shaft coupling and X-axis ball-screw interlock; The Z axis work system comprises: Z axis working slider 9, Z axis motion Driving Stepping Motor 10, Z axis shaft coupling and Z axis ball-screw; Z axis ball-screw one end is connected with Z axis working slider 9, and the other end is connected with Z axis motion Driving Stepping Motor 10 by the Z axis shaft coupling; Z axis working slider 9 be connected with X-axis working slider 8 and with its interlock, Z axis motion Driving Stepping Motor 10 is fixed in the other end of Z axis working slider 9; Z axis motion Driving Stepping Motor 10 drives Z axis working slider 9 and moves reciprocatingly by Z axis shaft coupling and Z axis ball-screw interlock.
The workpiece erecting device comprises by A axle output and is installed in whirligig A shaft-like work clamping rotating disc 7, A axle motion Driving Stepping Motor 15 on the support 6, be fixedly installed on Workpiece clamping slide unit 4 and the Workpiece clamping elastic rotary dish 3 of support 6, wherein the A axle is one and is fixed on whirligig on the support through precision speed reduction device; Workpiece clamping slide unit 4 bottoms are fixedly mounted on the support 6, and Workpiece clamping slide unit 4 and the 7 adjacent settings of A shaft-like work clamping rotating disc; Be provided with Workpiece clamping handwheel 2 on Workpiece clamping slide unit 4 tops, on Workpiece clamping slide unit 4 with the Workpiece clamping slide unit 4 vertical outwardly directed adjustable plates that also are provided with, Workpiece clamping elastic rotary dish 3 is arranged on the adjustable plate, Workpiece clamping elastic rotary dish 3 and the 7 corresponding settings of A shaft-like work clamping rotating disc, moulding workpiece 5 are arranged between Workpiece clamping elastic rotary dish 3 and the A shaft-like work clamping rotating disc 7; A axle motion Driving Stepping Motor 15 is arranged between A shaft-like work clamping rotating disc 7 and the support 6.
The vertical art pottery of the present invention numerical control moulding checkering machine operation principle:
Processed art pottery moulding gypsum pour mass or moulded pottery not yet put in a kiln to bake base substrate are positioned on the A shaft-like work clamping rotating disc axle, by regulating the Workpiece clamping handwheel, make workpiece upper end and Workpiece clamping elastic rotary dish contact gripping.Design and set type by the special-purpose engraving software that configures in the computer system, and by computer design and the information of setting type are sent to the vertical art pottery automatically with in the numerical control moulding checkering machine controller, again by controller these information change into can Driving Stepping Motor be train of pulse with the signal of power, control the vertical art pottery and generate control X-direction motion stepper motor with numerical control moulding checkering machine main frame, Y direction motion stepper motor, the processing feed roadbed footpath of four axles of Z-direction motion stepper motor, A direction of principal axis motion stepper motor.The computer system schematic diagram of vertical art pottery usefulness numerical control moulding checkering machine as shown in Figure 2.Simultaneously, the High Rotation Speed engraving member high-speed cutting of the vertical art pottery on the numerical control moulding checkering machine main frame, by pressing the cutter of Material Processing configuration, the rapidoprint that is fixed on the host work platform is cut, can process the various potteries that in computer, design and go out three-dimensional relief pattern and literal with device shape or in its Surface Machining, realize the automated job of the numerical control moulding of the vertical art pottery, checkering machine.
The vertical art pottery of the present invention is considered the stability reasons of frame for movement with numerical control moulding checkering machine, Y-axis working slider and A shaft-like work clamping rotating disc 7 are installed on the support, and its purpose one is the machining accuracy that increases frame for movement, the 2nd, consider easy for installation.The Z axis working slider is installed on the X-axis working slider, on the Z axis slide unit spindle motor is installed simultaneously, also well considered alignment.Therefore structural design of the present invention is very reasonable.
The vertical art pottery of the present invention can improve the moulding efficient of the art pottery with numerical control moulding checkering machine, can improve make efficiency more than 7 times with manual comparing.Simultaneously, the vertical art pottery of the present invention enriches the device shape kind of the art pottery with numerical control moulding checkering machine, improves the efficiency of engraving and texturing on the art pottery moulded pottery not yet put in a kiln to bake, and the effective tool of art pottery exploitation is provided for the contemporary art ceramics practitioner.
The art pottery of the present invention has improved operating efficiency greatly with digital control vertical automatic modeling checkering machine, and the make efficiency of itself and artificial model is compared as follows table:
Table one
Figure BSA00000877503000071
The above has carried out exemplary description to the present invention by reference to the accompanying drawings; obvious realization of the present invention is not subjected to the restriction of aforesaid way; as long as the various improvement of having adopted method design of the present invention and technical scheme to carry out; or without improving design of the present invention and technical scheme are directly applied to other occasion, all in protection scope of the present invention.

Claims (6)

1. the vertical art pottery is with numerical control moulding checkering machine, and it is characterized in that: be comprised of computer system, controller and main frame three parts, described controller is arranged between described computer and the main frame.
According to claim 1 the described vertical art pottery with numerical control moulding checkering machine, it is characterized in that: described main frame comprises support (6), workpiece erecting device, X-axis work system, Y-axis work system and Z axis work system, described workpiece erecting device and Y-axis work system all are arranged on the described support (6), described X-axis work system is arranged on the described Y-axis work system, and described Z axis work system is arranged on the described X-axis work system.Also be provided with spindle motor (11) on described Z axis work system, an end of described spindle motor (11) axle is provided with graver (12), described graver (12) and described spindle motor (11) interlock.
3. the described vertical art pottery is characterized in that with numerical control moulding checkering machine according to claim 2:
Described Y-axis work system comprises: Y-axis working slider (14), Y-axis motion Driving Stepping Motor (13), Y-axis shaft coupling and Y-axis ball-screw, and described Y-axis working slider (14) slides and is arranged on the described support (6); Described Y-axis ball-screw one end links with Y-axis working slider (14), and the other end links with described Y-axis motion Driving Stepping Motor (13), and described Y-axis motion Driving Stepping Motor (13) is arranged on described Y-axis working slider (14) one ends; Described Y-axis motion Driving Stepping Motor (13) drives described Y-axis working slider (14) and moves reciprocatingly by described Y-axis shaft coupling and Y-axis ball-screw interlock;
Described X-axis work system comprises: X-axis working slider (8), X-axis motion Driving Stepping Motor (1), X-axis shaft coupling and X-axis ball-screw; Described X-axis ball-screw one end is connected with X-axis working slider (8), and the other end is connected with described X-axis motion Driving Stepping Motor (1) by the X-axis shaft coupling; Described X-axis working slider (8) be connected with described Y-axis working slider (14) and with its interlock, described X-axis motion Driving Stepping Motor (1) is fixed in the other end of described X-axis working slider (8); Described X-axis motion Driving Stepping Motor (1) drives described X-axis working slider (8) and moves reciprocatingly by X-axis shaft coupling and X-axis ball-screw interlock;
Described Z axis work system comprises: Z axis working slider (9), Z axis motion Driving Stepping Motor (10), Z axis shaft coupling and Z axis ball-screw; Described Z axis ball-screw one end is connected with Z axis working slider (9), and the other end is connected with described Z axis motion Driving Stepping Motor (10) by the Z axis shaft coupling; Described Z axis working slider (9) be connected with described X-axis working slider (8) and with its interlock, described Z axis motion Driving Stepping Motor (10) is fixed in the other end of described Z axis working slider (9); Described Z axis motion Driving Stepping Motor (10) drives described Z axis working slider (9) and moves reciprocatingly by Z axis shaft coupling and Z axis ball-screw interlock.
According to claim 2 or the 3 described vertical art potteries with numerical control moulding checkering machines, it is characterized in that: described workpiece erecting device comprises by A axle output and is installed in whirligig A shaft-like work clamping rotating disc (7), A axle motion Driving Stepping Motor (15) on the described support (6), is fixedly installed on Workpiece clamping slide unit (4) and the Workpiece clamping elastic rotary dish (3) of described support (6); Described Workpiece clamping slide unit (4) bottom is fixedly mounted on the described support (6), and described Workpiece clamping slide unit (4) and the adjacent setting of described A shaft-like work clamping rotating disc (7); Be provided with Workpiece clamping handwheel (2) on described Workpiece clamping slide unit (4) top, at upper also the be provided with outwardly directed adjustable plate vertical with described Workpiece clamping slide unit (4) of described Workpiece clamping slide unit (4), described Workpiece clamping elastic rotary dish (3) is arranged on the described adjustable plate, described Workpiece clamping elastic rotary dish (3) and the corresponding setting of described A shaft-like work clamping rotating disc (7), moulding workpiece (5) are arranged between described Workpiece clamping elastic rotary dish (3) and the described A shaft-like work clamping rotating disc (7); Described A axle motion Driving Stepping Motor (15) is arranged between described A shaft-like work clamping rotating disc (7) and the described support (6).
5. the described vertical art pottery is with numerical control moulding checkering machine according to claim 4, and it is characterized in that: the material that the type of described graver (12) and described moulding workpiece (5) are gone up required engraving is equipped with.
6. the described vertical art pottery is with numerical control moulding checkering machine according to claim 5, and it is characterized in that: described graver (12) is the flat single-blade sharp knife of low-angle, and described graver (12) material is diamond or carbide alloy.
CN2013101257916A 2013-04-12 2013-04-12 Numerical control modeling flower-carving machine for vertical type art pottery Pending CN103317925A (en)

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Cited By (16)

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CN103640079A (en) * 2013-11-25 2014-03-19 银川博聚工业产品设计有限公司 Mechanical cutting device for ceramic blanks
CN103802575A (en) * 2013-12-10 2014-05-21 杭州余杭博陆搪瓷厂 Ruling machine
CN105082846A (en) * 2015-09-25 2015-11-25 泉州坤泰机械精工制造有限公司 Ceramic circumferential engraving and milling machine
CN105346322A (en) * 2015-09-28 2016-02-24 芜湖日升重型机床有限公司 Application of frequency converter on numerical control engraving machine tool
CN105619577A (en) * 2015-12-31 2016-06-01 黄群好 Special engraving equipment for full-automatic ceramic surface processing
CN105835581A (en) * 2016-05-10 2016-08-10 徐利斌 Numerical control stereoscopic ceramic body relief engraving system
GR1008881B (en) * 2015-09-16 2016-10-19 Νεκταριος Μενελαου Βιδακης Sculptural mechatronic system
CN107031256A (en) * 2017-05-16 2017-08-11 安庆市宏大涛业精啄数控科技有限公司 A kind of bottle gourd engraving uses engraving machine feeding device
CN107187261A (en) * 2017-06-14 2017-09-22 东莞市唯美陶瓷工业园有限公司 A kind of preparation method of Ceramic Tiles master mold
CN108515801A (en) * 2018-05-29 2018-09-11 王琼 The carving device of ceramic art
CN108515796A (en) * 2018-06-07 2018-09-11 钦州学院 Adjustable radius of gyration ceramics engraving machine
CN109624565A (en) * 2018-11-22 2019-04-16 广州博雕数控机床有限公司 A kind of five axis foam engraving machine of straight cage
CN109774360A (en) * 2017-11-14 2019-05-21 董绍光 A kind of three coordinate angle adjustable engraving machines
CN110281678A (en) * 2019-05-16 2019-09-27 郑州工程技术学院 A kind of full-automatic engraving system of work of fine arts and its method
CN113021587A (en) * 2021-02-03 2021-06-25 霍杰 Vase square broken string making devices
CN114474332A (en) * 2022-01-13 2022-05-13 湖南工业大学 Special engraving device for full-automatic ceramic surface processing

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Publication number Priority date Publication date Assignee Title
CN103640079A (en) * 2013-11-25 2014-03-19 银川博聚工业产品设计有限公司 Mechanical cutting device for ceramic blanks
CN103802575A (en) * 2013-12-10 2014-05-21 杭州余杭博陆搪瓷厂 Ruling machine
CN103802575B (en) * 2013-12-10 2016-03-02 杭州余杭博陆搪瓷厂 Pen machine
GR1008881B (en) * 2015-09-16 2016-10-19 Νεκταριος Μενελαου Βιδακης Sculptural mechatronic system
CN105082846A (en) * 2015-09-25 2015-11-25 泉州坤泰机械精工制造有限公司 Ceramic circumferential engraving and milling machine
CN105346322A (en) * 2015-09-28 2016-02-24 芜湖日升重型机床有限公司 Application of frequency converter on numerical control engraving machine tool
CN105619577B (en) * 2015-12-31 2017-11-28 唐山市开平区雅风陶瓷厂 The special texturing device of fully-automatic ceramic Surface Machining
CN105619577A (en) * 2015-12-31 2016-06-01 黄群好 Special engraving equipment for full-automatic ceramic surface processing
CN105835581A (en) * 2016-05-10 2016-08-10 徐利斌 Numerical control stereoscopic ceramic body relief engraving system
CN107031256B (en) * 2017-05-16 2018-11-30 安庆市宏大涛业精啄数控科技有限公司 A kind of bottle gourd engraving engraving machine feeding device
CN107031256A (en) * 2017-05-16 2017-08-11 安庆市宏大涛业精啄数控科技有限公司 A kind of bottle gourd engraving uses engraving machine feeding device
CN107187261A (en) * 2017-06-14 2017-09-22 东莞市唯美陶瓷工业园有限公司 A kind of preparation method of Ceramic Tiles master mold
CN107187261B (en) * 2017-06-14 2020-02-18 东莞市唯美陶瓷工业园有限公司 Method for manufacturing female die of ceramic tile
CN109774360A (en) * 2017-11-14 2019-05-21 董绍光 A kind of three coordinate angle adjustable engraving machines
CN108515801A (en) * 2018-05-29 2018-09-11 王琼 The carving device of ceramic art
CN108515801B (en) * 2018-05-29 2021-12-10 福建德化博昌陶瓷文化有限公司 Engraving device for ceramic art
CN108515796A (en) * 2018-06-07 2018-09-11 钦州学院 Adjustable radius of gyration ceramics engraving machine
CN109624565A (en) * 2018-11-22 2019-04-16 广州博雕数控机床有限公司 A kind of five axis foam engraving machine of straight cage
CN110281678A (en) * 2019-05-16 2019-09-27 郑州工程技术学院 A kind of full-automatic engraving system of work of fine arts and its method
CN113021587A (en) * 2021-02-03 2021-06-25 霍杰 Vase square broken string making devices
CN114474332A (en) * 2022-01-13 2022-05-13 湖南工业大学 Special engraving device for full-automatic ceramic surface processing

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Application publication date: 20130925