CN204915054U - Carve ceramic molding machine entirely - Google Patents
Carve ceramic molding machine entirely Download PDFInfo
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- CN204915054U CN204915054U CN201520646027.8U CN201520646027U CN204915054U CN 204915054 U CN204915054 U CN 204915054U CN 201520646027 U CN201520646027 U CN 201520646027U CN 204915054 U CN204915054 U CN 204915054U
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Abstract
The utility model relates to a carve ceramic molding machine entirely, it includes the PC, work platform, video capture card and GE motion control ware are connected to the PC, video capture card series connection data card and image appearance, the switching baffle is connected to the GE motion control ware, the IO terminal is connected to the switching baffle, the CN5 terminal, the CN6 terminal, the CN7 terminal, main shaft cooling card is connected to the IO terminal, CN5 terminal series connection X spindle drive ware, X axle motor, CN6 terminal series connection Y spindle drive ware, Y axle motor, CN7 terminal series connection Z spindle drive ware, Z axle motor, the below center of workstation sets up vertical lead screw, the vertical screw connection type of falling U frame, the top of U type frame sets up horizontal lead screw, set up the processing aircraft nose on the horizontal lead screw, processing aircraft nose fixed connection down -feed screw, set up electric main shaft on the down -feed screw, electricity main shaft series connection sculpture cutter, the utility model has the advantages of reliable and stable, extend convenient, intelligent, efficient, with low costs.
Description
Technical field
The utility model belongs to ceramic processing technique field, is specifically related to one and entirely carves jolly.
Background technology
China is pottery invention ground, has excellent Production of Ceramics tradition, and pottery is liking deeply by broad masses of the people as handicraft and daily necessities, and use is more.Along with the development of science and technology, pottery is as hard material, and its processing technology reaches its maturity.Such as, pottery engraving machine is a kind of electromechanical integration equipment be made up of digital control system, servo-drive system and frame for movement, part data to be processed is generated NC code by post processing program by computer software, and by control signal being sent in the motion controller of engraving machine automatically after computer decoding, by motion controller, movement instruction is changed into the pulse signal that can drive stepping motor or AC servomotor again, control the engraving path of ceramic engraving machine.Engraving machine is in the market mainly used for the engraving of timber, stone material and Advertisement label, and the digital-controlled carving machine being specifically designed to pottery engraving is little, and consumer increases day by day to the demand of ceramic carving, this makes the research of ceramic engraving machine become inexorable trend, therefore needs a kind of full carving jolly to solve the problem.
Utility model content
The purpose of this utility model is to overcome the deficiencies in the prior art, and provide a kind of reliable and stable, expand convenient, that intelligent, efficiency is high, cost is low full carving jolly.
The purpose of this utility model is achieved in that one carves jolly entirely, it comprises PC, workbench, described PC is connected with video frequency collection card and GE motion controller, described video frequency collection card is in series with data card and image instrument successively, described GE motion controller is connected with switching baffle plate, described switching baffle plate is connected with I/O terminal, CN5 terminal, CN6 terminal, CN7 terminal, described I/O connecting terminals is connected to main shaft cooling card, described CN5 terminal has been sequentially connected in series X-axis driver, X-axis motor, described CN6 terminal has been sequentially connected in series Y-axis driver, Y-axis motor, described CN7 terminal has been sequentially connected in series Z axis driver, Z axis motor, described main shaft cooling card is connected with electro spindle, the bottom face of described workbench is provided with 4 bearings, the bottom face of described bearing is provided with adjustment lower margin, the lower central of described workbench is provided with longitudinal leadscrew, described longitudinal leadscrew is connected with inverted U frame, the top of described inverted U frame is provided with horizontal leading screw, and described horizontal leading screw is provided with processing head, and described processing head is fixedly connected with down-feed screw, described down-feed screw is provided with electro spindle, and described electro spindle is connected in series with engraving cutter.
Described image instrument is secondary element image instrument.
Described secondary element image instrument includes optical imaging system, ccd video camera, video frequency collection card, data card.
The height of described down-feed screw distance adjustment lower margin is 1190mm.
The width of described inverted U frame is 1920mm.
The beneficial effects of the utility model: the utility model adopts workbench, bearing, adjustment lower margin, down-feed screw, electro spindle, horizontal leading screw, engraving cutter, longitudinal leadscrew composition one entirely to carve jolly, has reliable and stable, that expansion is convenient, intelligent, efficiency is high, cost is low advantage.The utility model adopts the table data information obtaining workpiece figure by secondary element image instrument, utilizes rever algorithm fitted figure curve to generate engraving pattern, has automation, interface is convenient, versatility is wide advantage; The control system of the utility model porcelain engraving machine adopts the version of PC aggregate motion controller, form a kind of digital control system in open type, the production efficiency of great raising ceramic product, improves the engraving precision of ceramic product, also reduces the production cost of ceramic engraving machine.To sum up, the utility model has reliable and stable, that expansion is convenient, intelligent, efficiency is high, cost is low advantage.
Except object described above, feature and advantage, the utility model also has other object, feature and advantage.Below with reference to figure, the utility model is described in further detail.
Accompanying drawing explanation
The accompanying drawing forming a application's part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:
Fig. 1 is the system schematic of a kind of full carving jolly of the utility model.
Fig. 2 is the front view of a kind of full carving jolly of the utility model.
Fig. 3 is the left view of a kind of full carving jolly of the utility model.
In figure: 1, workbench 2, bearing 3, adjustment lower margin 4, down-feed screw 5, electro spindle 6, horizontal leading screw 7, engraving cutter 8, longitudinal leadscrew.
Detailed description of the invention
Below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail, but the multitude of different ways that the utility model can limit according to claim and cover is implemented.
Embodiment 1
As Fig. 1, Fig. 2, shown in Fig. 3, one carves jolly entirely, it comprises PC, workbench, described PC is connected with video frequency collection card and GE motion controller, described video frequency collection card is in series with data card and image instrument successively, described GE motion controller is connected with switching baffle plate, described switching baffle plate is connected with I/O terminal, CN5 terminal, CN6 terminal, CN7 terminal, described I/O connecting terminals is connected to main shaft cooling card, described CN5 terminal has been sequentially connected in series X-axis driver, X-axis motor, described CN6 terminal has been sequentially connected in series Y-axis driver, Y-axis motor, described CN7 terminal has been sequentially connected in series Z axis driver, Z axis motor, described main shaft cooling card is connected with electro spindle 5, the bottom face of described workbench 1 is provided with 4 bearings 2, the bottom face of described bearing 2 is provided with adjustment lower margin 3, the lower central of described workbench 1 is provided with longitudinal leadscrew 8, described longitudinal leadscrew 8 is connected with inverted U frame, the top of described inverted U frame is provided with horizontal leading screw 6, described horizontal leading screw 6 is provided with processing head, described processing head is fixedly connected with down-feed screw 4, described down-feed screw 4 is provided with electro spindle 5, and described electro spindle 5 is connected in series with engraving cutter 7.
When the utility model is implemented, first PC is connected video frequency collection card and GE motion controller, video frequency collection card successively tandem data card and image instrument, GE motion controller is connected switching baffle plate, switching baffle plate is connected I/O terminal, CN5 terminal, CN6 terminal, CN7 terminal, I/O terminal is connected main shaft cooling card, CN5 terminal is sequentially connected in series X-axis driver, X-axis motor, CN6 terminal is sequentially connected in series Y-axis driver, Y-axis motor, CN7 terminal is sequentially connected in series Z axis driver, Z axis motor, main shaft cooling card is connected electro spindle 5, at the bottom face of workbench 1,4 bearings 2 are set, at the bottom face of bearing 2, adjustment lower margin 3 is set, at the lower central of workbench 1, longitudinal leadscrew 8 is set, longitudinal leadscrew 8 is connected inverted U frame, horizontal leading screw 6 is set on the top of inverted U frame, horizontal leading screw 6 arranges processing head, processing head is fixedly connected with down-feed screw 4, down-feed screw 4 arranges electro spindle 5, electro spindle 5 is connected in series engraving cutter 7, can come into operation after completing above-mentioned installation, the table data information of workpiece image is obtained by Quadratic Finite Element, then engraving pattern is produced by rever algorithm fitted figure image curve, then by mapping software as ArtCAM software converts relief shape to, further generation NC code, then carry out machining by full carving jolly, the mode adding motion controller with PC carries out machining, has the advantage that precision is high, system expansion is strong, cost is low, efficiency is high.In a word, the utility model has reliable and stable, that expansion is convenient, intelligent, efficiency is high, cost is low advantage.
Embodiment 2
As Fig. 1, Fig. 2, shown in Fig. 3, one carves jolly entirely, it comprises PC, workbench, described PC is connected with video frequency collection card and GE motion controller, described video frequency collection card is in series with data card and image instrument successively, described GE motion controller is connected with switching baffle plate, described switching baffle plate is connected with I/O terminal, CN5 terminal, CN6 terminal, CN7 terminal, described I/O connecting terminals is connected to main shaft cooling card, described CN5 terminal has been sequentially connected in series X-axis driver, X-axis motor, described CN6 terminal has been sequentially connected in series Y-axis driver, Y-axis motor, described CN7 terminal has been sequentially connected in series Z axis driver, Z axis motor, described main shaft cooling card is connected with electro spindle 5, the bottom face of described workbench 1 is provided with 4 bearings 2, the bottom face of described bearing 2 is provided with adjustment lower margin 3, the lower central of described workbench 1 is provided with longitudinal leadscrew 8, described longitudinal leadscrew 8 is connected with inverted U frame, the top of described inverted U frame is provided with horizontal leading screw 6, described horizontal leading screw 6 is provided with processing head, described processing head is fixedly connected with down-feed screw 4, described down-feed screw 4 is provided with electro spindle 5, described electro spindle 5 is connected in series with engraving cutter 7, described image instrument is secondary element image instrument, described secondary element image instrument includes optical imaging system, ccd video camera, video frequency collection card, data card, described down-feed screw 4 is 1190mm apart from the height of adjustment lower margin 3, the width of described inverted U frame is 1920mm.
When the utility model is implemented, first PC is connected video frequency collection card and GE motion controller, video frequency collection card successively tandem data card and image instrument, GE motion controller is connected switching baffle plate, switching baffle plate is connected I/O terminal, CN5 terminal, CN6 terminal, CN7 terminal, I/O terminal is connected main shaft cooling card, CN5 terminal is sequentially connected in series X-axis driver, X-axis motor, CN6 terminal is sequentially connected in series Y-axis driver, Y-axis motor, CN7 terminal is sequentially connected in series Z axis driver, Z axis motor, main shaft cooling card is connected electro spindle 5, at the bottom face of workbench 1,4 bearings 2 are set, at the bottom face of bearing 2, adjustment lower margin 3 is set, at the lower central of workbench 1, longitudinal leadscrew 8 is set, longitudinal leadscrew 8 is connected inverted U frame, horizontal leading screw 6 is set on the top of inverted U frame, horizontal leading screw 6 arranges processing head, processing head is fixedly connected with down-feed screw 4, down-feed screw 4 arranges electro spindle 5, electro spindle 5 is connected in series engraving cutter 7, can come into operation after completing above-mentioned installation, the table data information of workpiece image is obtained by Quadratic Finite Element, then engraving pattern is produced by rever algorithm fitted figure image curve, then by mapping software as ArtCAM software converts relief shape to, further generation NC code, then carry out machining by full carving jolly, the mode adding motion controller with PC carries out machining, has the advantage that precision is high, system expansion is strong, cost is low, efficiency is high, the utility model image instrument is secondary element image instrument, and secondary element image instrument includes optical imaging system, ccd video camera, video frequency collection card, data card, has stable performance, gathers the advantage convenient, efficiency is high, reliability is strong, down-feed screw 4 of the present utility model is 1190mm apart from the height of adjustment lower margin 3, and the width of inverted U frame is 1920mm, has the advantage that the range of work is wide, structure is simple, space is large, easy to operate.Generally speaking, the utility model has reliable and stable, that expansion is convenient, intelligent, efficiency is high, cost is low advantage.
The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.
Claims (5)
1. entirely carve jolly for one kind, it comprises PC, workbench, it is characterized in that: described PC is connected with video frequency collection card and GE motion controller, described video frequency collection card is in series with data card and image instrument successively, described GE motion controller is connected with switching baffle plate, described switching baffle plate is connected with I/O terminal, CN5 terminal, CN6 terminal, CN7 terminal, described I/O connecting terminals is connected to main shaft cooling card, described CN5 terminal has been sequentially connected in series X-axis driver, X-axis motor, described CN6 terminal has been sequentially connected in series Y-axis driver, Y-axis motor, described CN7 terminal has been sequentially connected in series Z axis driver, Z axis motor, described main shaft cooling card is connected with electro spindle,
The bottom face of described workbench is provided with 4 bearings, the bottom face of described bearing is provided with adjustment lower margin, the lower central of described workbench is provided with longitudinal leadscrew, described longitudinal leadscrew is connected with inverted U frame, the top of described inverted U frame is provided with horizontal leading screw, and described horizontal leading screw is provided with processing head, and described processing head is fixedly connected with down-feed screw, described down-feed screw is provided with electro spindle, and described electro spindle is connected in series with engraving cutter.
2. one according to claim 1 carves jolly entirely, it is characterized in that: described image instrument is secondary element image instrument.
3. one according to claim 2 carves jolly entirely, it is characterized in that: described secondary element image instrument includes optical imaging system, ccd video camera.
4. one according to claim 1 carves jolly entirely, it is characterized in that: the height of described down-feed screw distance adjustment lower margin is 1190mm.
5. one according to claim 1 carves jolly entirely, it is characterized in that: the width of described inverted U frame is 1920mm.
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CN201520646027.8U CN204915054U (en) | 2015-08-25 | 2015-08-25 | Carve ceramic molding machine entirely |
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CN201520646027.8U CN204915054U (en) | 2015-08-25 | 2015-08-25 | Carve ceramic molding machine entirely |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105774350A (en) * | 2016-05-10 | 2016-07-20 | 济南金胜星机械设备有限公司 | Numerical control die engraving system for fired ceramic body |
CN105835581A (en) * | 2016-05-10 | 2016-08-10 | 徐利斌 | Numerical control stereoscopic ceramic body relief engraving system |
-
2015
- 2015-08-25 CN CN201520646027.8U patent/CN204915054U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105774350A (en) * | 2016-05-10 | 2016-07-20 | 济南金胜星机械设备有限公司 | Numerical control die engraving system for fired ceramic body |
CN105835581A (en) * | 2016-05-10 | 2016-08-10 | 徐利斌 | Numerical control stereoscopic ceramic body relief engraving system |
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