CN210758399U - Full-automatic display device of nixing pottery production technology and system of selling thereof - Google Patents

Abstract

The utility model discloses a nixing pottery production technology full-automatic display device and system of selling thereof, its technical scheme main points are: the production device is internally provided with a feeding box body for providing nixing pottery raw materials, a blank drawing mechanism, a carving mechanism, a glaze spraying mechanism, an electric kiln box, a polishing machine, a moving mechanism and a manipulator clamping mechanism connected to the moving mechanism, wherein the blank drawing mechanism, the carving mechanism, the glaze spraying mechanism, the electric kiln box and the polishing machine are sequentially arranged; the manipulator clamping mechanism is used for clamping products transmitted by all machines in the manufacturing area, and the moving mechanism is used for sequentially moving the products in the manufacturing area according to manufacturing procedures. The utility model discloses a arrange the production line of nixing pottery handicraft in the show box, the corresponding process that sets up feed and preparation realizes automated production nixing pottery, can arrange the show box in the culture region in downtown or city, changes planar propaganda into more three-dimensional propaganda, does benefit to and carries forward nixing pottery culture.

Description

Full-automatic display device of nixing pottery production technology and system of selling thereof

Technical Field

The utility model relates to a light industry technical field, in particular to nixing pottery production technology full-automatic display device and system of selling that can carry forward nixing pottery culture.

Background

Nixing pottery is one of four famous pottery in China, has high artistic, practical and collection values, and has a history of over 1300 years of development up to now. The existing nixing pottery is provided for common tourists to watch and search and discuss by related professionals through other modes such as a museum in the city, a ceramic convention, a city culture center and the like. Wherein, the ceramic business can provide people with the production process of personally experiencing the Xingxi pottery in the way of manually producing the Xingxi pottery diy. Nixing pottery culture is used as the mental civilization construction of a city, is not popularized to the public at late, and is not popularized to the public for the reason, because the time consumed by the complicated production process of the nixing pottery is long, if a user wants to obtain a nixing pottery product, the user generally obtains a pottery business to carry out diy manufacture or manufacture the nixing pottery product by a merchant, so that the process that the user wants to know the nixing pottery manufacture is limited, and the nixing pottery culture is very inconvenient and seriously affects the propaganda of the nixing pottery culture.

SUMMERY OF THE UTILITY MODEL

To present technical problem, an object of the utility model is to provide a nixing pottery production technology full-automatic display device, arrange the machine in the culture region in downtown or city, show the flow of preparation nixing pottery through the machine is automatic, change planar propaganda into more three-dimensional propaganda, and this system can carry out automated production alone and can store nixing pottery finished product and realize the function of automatic selling, provide the convenience for wanting to obtain the crowd who knows nixing pottery, in order to reach the mesh of carrying the nixing pottery culture.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the fully-automatic display device for the nixing pottery production process comprises a production device and a processing system for the production device, wherein the production device comprises a feeding area, a manufacturing area, a storage area and a conveying area among the feeding area, the manufacturing area and the storage area; the material supply area is arranged at the upstream of the manufacturing area along the manufacturing process, and the storage area is arranged at the downstream of the manufacturing area along the manufacturing process;

a conveying device is arranged in the conveying area and comprises a moving mechanism and a manipulator clamping mechanism connected to the moving mechanism; the manipulator clamping mechanism is used for clamping the clay raw materials in the feeding area, clamping products transmitted by all machines in the manufacturing area and manufacturing drawings thereof, and the moving mechanism is used for sequentially moving the products in the manufacturing area according to the manufacturing procedures of the manufacturing area;

a feeding box body for providing nixing pottery raw materials is arranged in the feeding area, and a storage mechanism, a feeding mechanism, a cutting mechanism and an extrusion mechanism for the pottery raw materials are arranged in the feeding box body; the cutting mechanism can cut off the clay raw materials with relative application amount according to the size of a drawing, the feeding mechanism conveys the cut clay raw materials to a workbench of the extrusion mechanism, and the conveying device conveys the clay raw materials of the workbench of the extrusion mechanism to a manufacturing area;

the manufacturing area is sequentially provided with: the device comprises a blank drawing mechanism for drawing and molding nixing pottery raw materials, an engraving mechanism for engraving products subjected to blank drawing and molding, a glaze spraying mechanism for spraying and engraving the products, an electric kiln box for sintering the products subjected to glaze spraying and a polishing machine for polishing the products subjected to sintering; the working tables of the blank drawing mechanism, the carving mechanism, the glaze spraying mechanism, the electric kiln box and the polishing machine are all connected through a mechanical clamping mechanism and a moving mechanism; the conveying device can convey the manufacturing drawing to each machine workbench according to the manufacturing process of the manufacturing area, and convey nixing ceramic products to the storage area after printing is completed;

the storage area is arranged at the downstream of the manufacturing process of the manufacturing area, a storage box body is arranged in the storage area, a back door which is associated with the mechanical arm clamping mechanism is arranged at one end, close to the conveying area, of the storage box body, and the mechanical arm clamping mechanism can take out manufactured products from the storage box or convey the manufactured products and manufacturing drawings to the storage box through the back door; and a front door is arranged at one end, far away from the conveying area, of the storage box body and used for taking out nixing pottery products in the storage box body and manufacturing drawings.

Preferably, the moving mechanism comprises moving rails arranged along the linear direction of the blank drawing mechanism pointing to the polishing machine and a screw structure arranged between the moving rails; the manipulator clamping mechanism comprises a clamping manipulator, an electric push rod connected with the manipulator and a rotating part for driving the clamping manipulator and the electric push rod to rotate; the rotating piece is connected to the bottom of the electric push rod; the lead screw structure is connected between the moving rail and the rotating part and used for driving the mechanical arm clamping mechanism to move on the moving rail.

Preferably, the blank drawing mechanism comprises:

the blank drawing bench is provided with a blank drawing workbench;

the blank drawing turntable is used for placing clay and is arranged on the blank drawing worktable, and the bottom of the blank drawing turntable is connected with a first blank drawing rotating group used for driving the blank drawing turntable to rotate and a first blank drawing moving group used for driving the blank drawing turntable to move back and forth;

the end part of the drawing main shaft is provided with a second drawing rotating group for driving the drawing main shaft to rotate, and the drawing main shaft and the second drawing rotating group are connected to a drawing rack through a first fixing frame and are positioned above a drawing turntable; a second throwing moving group and a third throwing moving group which are used for driving the throwing main shaft to move left and right and move up and down are arranged between the throwing rack and the first fixing frame;

the blank drawing mechanical arm is connected to the blank drawing rack through a second fixing plate and is positioned on the side of the blank drawing turntable; a fourth blank drawing moving group for driving the blank drawing manipulator to move up and down is arranged between the blank drawing rack and the second fixing plate;

the blank drawing turntable, the blank drawing main shaft and the blank drawing mechanical arm are matched to perform blank drawing on the clay.

Preferably, the engraving mechanism comprises:

the engraving table frame is provided with an engraving working table;

the rotary engraving knife is connected with the engraving rack through a third lifting plate, and a first engraving moving group and a second engraving moving group which are used for driving the rotary engraving knife to move left and right and up and down are arranged between the engraving rack and the third lifting plate; the caterpillar conveying group is arranged on the engraving workbench;

the engraving turntable is provided with an engraving station and is used for placing the pulled clay pottery; the engraving turntable is connected to the crawler of the crawler conveying group and can move along with the rotation of the crawler, and a first workpiece clamping group and a second workpiece clamping group for positioning the pulled clay pottery are arranged on an engraving station of the engraving turntable; the first workpiece clamping group is arranged on an engraving station of the engraving rotary table, the second workpiece clamping group is connected to the engraving rack through a third fixing plate, and a third engraving moving group used for driving the second workpiece clamping group to move up and down is connected between the third fixing plate and the engraving rack.

Preferably, the glaze spraying mechanism comprises:

the glaze spraying table frame is provided with a glaze spraying workbench;

the glaze spraying rotary table is connected to the glaze spraying workbench, and the bottom of the glaze spraying rotary table is provided with a first glaze spraying rotary group for driving the glaze spraying rotary table to rotate; a first glaze spraying moving group for driving the glaze spraying turntable to move back and forth is arranged between the glaze spraying worktable and the glaze spraying stand;

the glaze spraying assembly is used for spraying glaze on the workpiece; the glaze spraying component comprises a glaze storage device with an opening provided with a valve, a shunt pipe with a through hole and a glaze spraying head connected to the end part of the shunt pipe; the glaze storage device is fixed on the glaze spraying rack and is positioned above the glaze spraying turntable, so that the glaze spraying head faces the glaze spraying turntable.

Preferably, an electronic tag is arranged in the feeding box body, and the electronic tag can store information of the type and the specification of the raw materials and the material quantity used each time and is used for being matched with the feeding box body.

Preferably, the side surface of the display box body is provided with an operation screen, the operation screen is internally provided with a unit for inputting a throwing shape, a carving shape and a glaze dipping color, and the operation screen is also provided with a user identification unit of a processing system associated with the front door of the storage box body.

To prior art problem, another object of the utility model is to provide an automatic vending system of nixing pottery product.

The above technical purpose of the present invention can be achieved by the following technical solutions:

an automatic selling system of nixing pottery products comprises a production device, a service platform configured with a server and a client end correlated with the service platform, wherein the production device is in communication connection with the service platform through a configuration data transmission module, and the client end is used for logging in the service platform by a client and uploading a manufacturing drawing;

the production device is the full-automatic display device for the nixing pottery production process; the service platform transmits the manufacturing drawing to a production device and feeds back a user identification code and storage information to the client; the production device is used for manufacturing according to the manufacturing drawing and storing the manufactured product, and the manufactured state can be fed back to the service platform to identify the user and open the storage area.

To sum up, the utility model discloses following beneficial effect has:

1. arranging a production line of nixing pottery artware in a display box body, correspondingly setting feeding and manufacturing processes, realizing automatic production of nixing pottery, arranging the display box body in an urban area or a culture area of a city, and displaying the flow of manufacturing the nixing pottery through automatic production of a machine, so that planar propaganda is converted into more three-dimensional propaganda, and the nixing pottery culture is favorably carried forward; through the feed of feed box, the raw materials gets into the preparation district to process through throwing, sculpture, glaze spraying, sintering and polishing in proper order, utilize mechanized structure can simulate artificial production nixing pottery, provide the convenience for wanting to obtain the crowd who knows the nixing pottery, in order to reach the mesh of carrying forward nixing pottery culture.

2. The manipulator clamping mechanism is matched with the moving mechanism to move the nixing ceramics among the mechanisms of all the procedures of the manufacturing area, and the intelligent manipulator mechanism is utilized to link the production lines of the manufacturing area to form a complete automatic production process line; in the throwing process, a throwing main shaft, a throwing mechanical arm, a throwing rotary table, and each throwing moving group and each throwing rotating group are matched with each other to perform throwing on the clay raw material, the clay raw material is placed on the throwing rotary table, and the throwing main shaft rotates and is matched with the throwing mechanical arm which moves up and down to perform throwing forming on the clay raw material; then, the step of carving is carried out, the workpiece formed by the drawing blank is positioned by the upper clamping group and the lower clamping group, the rotary carving knife is matched with the rotary carving rotary disc to carve the workpiece formed by the drawing blank according to the drawing information, and the step of glaze spraying is carried out after the carving is finished; if the valve switch of the glaze storage device is opened, glaze liquid in the glaze storage device flows downstream to the shunt pipe under the action of gravity, and the shunt pipe evenly shunts the glaze liquid so that the glaze liquid can uniformly flow out of the through holes of the shunt pipe, and glaze spraying can be carried out on a workpiece by matching with the rotation of the glaze spraying turntable and the forward and backward movement of the glaze spraying worktable; and then, the nixing ceramics are put into an electric kiln box for kiln manufacture and then polished to obtain the nixing ceramics, and the nixing ceramics are moved to a storage box body through a mechanical arm clamping mechanism. Can simulate artificial production on the whole and carry out automated production nixing pottery, the course of working of show each process can help people's better understanding nixing pottery culture.

3. Automatic combination of selling system and production line can make things convenient for people to obtain nixing pottery handicraft, draw base shape through the operation screen input, the sculpture shape, soak the glaze colour and carry out design nixing pottery by oneself, also can carry out the upload of drawing base shape through service platform, the upload of sculpture drawing, the drawing is revised, the drawing is purchased, the convenient operation of intelligence such as online ordering, make things convenient for people to design nixing pottery independently when purchasing, provide comfortable and convenient purchase experience, arouse people to be interested in nixing pottery simultaneously, do benefit to the carry forward nixing pottery culture.

Drawings

Fig. 1 is an overall schematic view of the present invention;

FIG. 2 is an overall schematic view of the blank drawing mechanism of the present invention;

FIG. 3 is an enlarged schematic view of the blank drawing spindle of the present invention;

fig. 4 is an overall schematic view of the engraving mechanism of the present invention;

FIG. 5 is a schematic view of the glaze spraying mechanism of the present invention;

FIG. 6 is an overall schematic view of the electric kiln box and the polishing machine of the present invention;

fig. 7 is an overall schematic view of the moving mechanism and the mechanical clamping mechanism of the present invention;

figure 8 is an overall schematic view of the vending system of the present invention.

Reference numerals: 1. a display box body; 2. a feeding box body; 3. a blank drawing mechanism; 301. a throwing rack; 302. a throwing workbench; 303. a throwing rotary table; 3031. a first pulling rotation group; 3032. a first drawing moving group; 304. a blank drawing main shaft; 3041. a second withdrawal rotation group; 3042. a first fixing frame; 3043. a second fixing frame; 3044. a third withdrawal rotation group; 3045. a second drawing moving group; 3046. a third drawing moving group; 3047. a first lifter plate; 3048. a first moving plate; 3049. a first fixing plate; 305. a throwing manipulator; 3051. a second fixing plate; 3052. a fourth drawing moving group; 3053. a second lifter plate; 4. an engraving mechanism; 401. engraving a rack; 4011. engraving a working table; 402. rotating the graver; 4021. a first engraving moving group; 4022. a second moving plate; 4023. a third lifter plate; 4024. a second engraving moving group; 403. a crawler belt conveying group; 4031. a crawler belt; 404. engraving the rotary table; 405. a first workpiece clamping group; 406. a second workpiece clamping group; 4061. a third fixing plate; 4062. an L-shaped plate; 4063. a third engraving movement group; 5. a glaze spraying mechanism; 501. a glaze spraying rack; 5011. a glaze spraying workbench; 502. spraying glaze on the rotary table; 5021. a first glaze spraying moving group; 503. a glaze spraying assembly; 5031. a glaze storage device; 5032. a shunt tube; 5033. spraying a glaze head; 6. an electric kiln box; 7. polishing the machine; 701. a polishing bench; 7011. polishing the working table; 702. polishing the turntable; 7021. a third workpiece clamping group; 7022. a fourth lifter plate; 7023. a first polishing moving group; 7024. a second polishing moving group; 8. a moving mechanism; 801. a moving rail; 802. a lead screw structure; 803. a base; 9. a manipulator gripping mechanism; 10. an operation screen; 11. a vending machine.

Detailed Description

In an exemplary embodiment 1 of the application, a fully automatic display device for nixing pottery production process is provided, and referring to fig. 1, the device comprises a production device and a processing system for controlling the production device, wherein the production device is internally provided with a feeding area, a manufacturing area, a storage area and a conveying area between the manufacturing area and the storage area, the feeding area is arranged at the upstream of the manufacturing area along the manufacturing process, the storage area is arranged at the downstream of the manufacturing area along the manufacturing process, and the conveying area and the manufacturing area are arranged side by side. The material supply area and the material storage area are respectively located at two ends of the manufacturing area and the conveying area, and the manufacturing area and the conveying area are arranged side by side. The preparation district is provided with show box 1, and show box 1 adopts the transparent box that transparent material made for show nixing pottery production process. A plurality of mechanisms which are respectively used for completing the procedures of blank drawing, carving, glazing, firing and polishing of the nixing pottery are arranged in the display box body 1, and a conveying device is arranged in the conveying area and comprises a moving mechanism 8 and a manipulator clamping mechanism 9 connected to the moving mechanism 8; the manipulator clamping mechanism 9 is used for clamping ceramic clay raw materials in the feeding area, clamping products and manufacturing drawings thereof transmitted by all machines in the manufacturing area, and the moving mechanism 8 is used for sequentially moving the products in the manufacturing area according to the manufacturing procedures of the manufacturing area and transporting the final finished products to the storage area for storage.

Be equipped with the storage box in the storing district, the one end that the storage box is close to the conveying district is equipped with and presss from both sides the back door that gets the mechanism relevance with machinery, specifically is, and the manipulator presss from both sides the mechanism and sends into the storage box with the nixing pottery product and the preparation drawing of making from the back door, also can take out the storage box through the back door and store the product that has made. One end of the storage box body, which is far away from the conveying area, is provided with an openable front door for taking out nixing pottery products and manufacturing drawings in the storage box body.

Referring to fig. 1, a feeding box body 2 for providing nixing pottery raw materials is arranged in the feeding area, the feeding box body 2 is provided with a discharge port, a feeding port opposite to the discharge port, and a storage box with an outlet connected with the feeding port, and shrinkage doors are arranged on the discharge port and the feeding port of the feeding box body 2. Be provided with the conveying equipment who is used for extruding the earthenware clay raw materials in the feed box 2, conveying equipment establishes at the middle part of feed box 2, and conveying equipment's discharge gate meets with the workstation that feed box 2 is located on its discharge gate, and conveying equipment's feed end and storage case intercommunication. The clay raw materials that extrude are rectangular form, and the clay raw materials of extruding are placed on the workstation that the feed box is close to the discharge gate, and the machine is got to the manipulator clamp and is got the clay raw materials on its workstation through the discharge gate clamp of feed box. The electronic tag is arranged in the feeding box body 2, and can correlate the information of the type and the specification of the stored raw material and the material amount used each time with the processing system, and can control the output amount of the clay raw material according to the manufacturing drawing. The electronic tag is a prior art, and its conveying device is an existing device, which is not described herein again, and its specific structure may refer to a ceramic blank conveying device disclosed in patent publication No. CN 203077440U.

Referring to fig. 1, the production area is equipped with the throwing mechanism 3, the engraving mechanism 4, the glaze spraying mechanism 5, the electric kiln box 6 and the polishing machine 7 of arranging in proper order according to the preparation process and along the length direction of the display box body, the throwing mechanism 3, the engraving mechanism 4, the glaze spraying mechanism 5, the electric kiln box 6, the workstation of polishing machine 7 is connected through the conveyer, the transport hu zang nationality can convey the preparation drawing to each workstation according to the manufacturing process to will be after the preparation with nixing pottery product send to the storing district and store.

Referring to fig. 2 and 3, the throwing mechanism 3 includes a throwing bench 301, a throwing wheel 303 for placing clay, a throwing spindle 304, and a throwing robot 305. The blank drawing bench 301 comprises a blank drawing worktable 302 and a column connected to the table top of the blank drawing worktable 302, the blank drawing turntable 303 is arranged on the blank drawing worktable 302, and the bottom of the blank drawing turntable is connected with a first blank drawing rotating group 3031 for driving the blank drawing turntable 303 to rotate and a first blank drawing moving group 3032 for driving the blank drawing turntable 303 to move back and forth. The first blank-drawing rotating group 3031 adopts a stepping motor with belt transmission, the stepping motor is fixed on the bottom surface of the blank-drawing worktable 302, and an output shaft of the stepping motor is connected with a belt so as to drive the blank-drawing turntable 303 to rotate through the belt transmission; the first blank drawing moving group 3032 adopts a structure that a stepping motor drives a ball screw pair, and the first blank drawing moving group 3032 is connected to the bottom of the stepping motor through a square plate, so that the blank drawing turntable 303 and the first blank drawing rotating group 3031 move back and forth together along the Y direction shown in the figure.

A second blank-drawing rotation group 3041 is fixedly connected to an end of the blank-drawing main shaft 304, and is configured to drive the blank-drawing main shaft 304 to rotate. The second blank drawing rotation group 3041 employs a stepping motor, an output shaft of the stepping motor is fixedly connected to the blank drawing spindle 304, an end of the stepping motor far from the blank drawing spindle 304 is fixedly connected to a first fixing frame 3042, the first fixing frame 3042 is in a shape of a 'shape', and the stepping motor and the blank drawing spindle 304 are connected between two side plates of the first fixing frame 3042. A third blank drawing rotation group 3044 is connected to a side plate of the first fixing frame 3042, the third blank drawing rotation group 3044 is connected to the second blank drawing rotation group 3041 through a second fixing frame 3043, specifically, the second fixing frame 3043 is in a shape of a [ shape ], and two side plates thereof are fixedly connected to the outside of the step motor of the second blank drawing rotation group 3041 and are disposed between two side plates of the first fixing frame 3042. The third blank drawing rotation group 3044 employs a step motor, which is fixed outside a side plate of the first fixing frame 3042, and an output end of the step motor passes through the side plate of the first fixing frame 3042 to be connected with the second fixing frame 3043, and can drive the blank drawing spindle 304 to swing.

In order to obtain a better blank drawing effect, a second blank drawing moving group 3045 and a third blank drawing moving group 3046 are arranged between the blank drawing bench 301 and the first fixing frame 3042, the second blank drawing moving group 3045 is used for driving the blank drawing main shaft 304 to move up and down along the Z direction shown in the figure, and the third blank drawing moving group 3046 is used for driving the blank drawing main shaft 304 to move left and right along the X direction shown in the figure. Specifically, a bottom plate of the first fixing frame 3042 is connected to a first lifting plate 3047 through two L-shaped frames, and a surface of the first lifting plate 3047 away from the first fixing frame 3042 is used for fixing the third blank moving group 3046. The third drawing movement group 3046 adopts a structure in which a stepping motor drives a ball screw pair, a nut member of the ball screw pair is fixed on a first lifting plate 3047, and a screw portion thereof is connected with the third drawing movement group 3046 through a first moving plate 3048. Specifically, the third blank drawing moving group 3046 adopts a structure in which a stepping motor drives a ball screw pair, a nut member of the third blank drawing moving group 3046 is fixed on a first moving plate 3048, and a screw portion thereof is connected between two vertical columns of the blank drawing bench 301 through a first fixing plate 3049.

The throwing robot 305 is connected to the throwing rack 301 through a second fixing plate 3051, the throwing robot 305 is located on the side of the throwing turntable 303 and at the front end of the fixing plate in the Y direction in the drawing, a fourth throwing moving group 3052 is arranged between the throwing rack 301 and the second fixing plate 3051, and the fourth throwing moving group 3052 is used for driving the throwing robot 305 to move up and down in the Z direction in the drawing. Specifically, the blank drawing worktable 302 is located at the side of the blank drawing turntable 303 and is provided with a side upright column at the front end of the first fixing plate 3049 along the Y direction in the figure, and the second fixing plate 3051 is fixed on the upright column and is connected with the fourth blank drawing moving group 3052 at the side far away from the upright column. The fourth drawing movement group 3052 is configured to drive a ball screw pair by a stepping motor, a nut member of the ball screw pair is connected to the drawing robot 305 via a second lifting plate 3053, and a screw structure thereof is fixed to the second fixing plate 3051. The blank drawing turntable 303, the blank drawing main shaft 304 and the blank drawing manipulator 305 cooperate with each other to draw the clay. And the clay pottery workpiece after the blank drawing and forming is conveyed to the engraving station of the engraving mechanism 4 through the mechanical hand clamping mechanism 9. The workpiece throwing time can be set according to the actual required manufacturing size, and information transmitted by the electronic tag, such as the throwing time of a large workpiece is 10 seconds to 20 seconds, and the throwing time of a small workpiece is 5 seconds to 10 seconds.

Referring to fig. 4, the engraving mechanism 4 includes an engraving carriage 401, a rotary engraving knife 402, a caterpillar 4031 transport group 403, an engraving carousel 404 having an engraving station and for placing the pulled clay pottery, and a first workpiece clamping group 405 and a second workpiece clamping group 406. The engraving table 401 is provided with an engraving workbench 4011, the caterpillar 4031 transmission group 403 is arranged on the engraving workbench 4011, the caterpillar 4031 transmission group 403 adopts a structure that the caterpillar 4031 is matched with a stepping motor, the caterpillar 4031 is wound on the periphery of the engraving workbench 4011, and the caterpillar 4031 is driven by the stepping motor to rotate. A plurality of engraving carousels 404 are sequentially disposed on the tracks 4031 of the conveyor set 403 of the tracks 4031 and move with the tracks 4031. The bottom of sculpture carousel 404 disposes first sculpture rotatory group for drive sculpture carousel 404 rotates, and first sculpture rotatory group adopts step motor, and step motor fixes the bottom surface at track 4031, and its output shaft and sculpture carousel 404 fixed connection and then rotate through driving sculpture carousel 404. The first workpiece clamping group 405 is arranged on the disc surface of the engraving turntable 404 and used for clamping workpieces, wherein the first workpiece clamping group 405 comprises three clamping hands which are circularly arranged and a clamping driving piece which is connected to the end parts of the clamping hands and used for driving the clamping hands to move, the clamping driving piece adopts an electric cylinder, and the three clamping hands are arc-shaped plates and the end parts of the three clamping hands are connected with the output ends of the clamping driving piece. In order to improve the stability of the engraving turntable 404 during rotation, an outer ring shaft seat is sleeved on the outer peripheral side of the engraving turntable 404.

The second workpiece clamping group 406 is attached to the engraving carriage 401 by a third retaining plate 4061, and the third retaining plate 4061 is attached to the engraving carriage 401 on a side parallel to the direction of movement of the track 4031. The second workpiece clamping group 406 is identical in construction to the first workpiece clamping group 405, except that the second workpiece clamping group 406 is secured to a side plate of an L-shaped plate 4062, and a third engraving displacement group 4063 is disposed between the other side plate of the L-shaped plate 4062 and the third securing plate 4061, the third engraving displacement group 4063 being configured to drive the second workpiece clamping group 406 to move up and down in the Z-direction as shown. Specifically, the third engraving moving group 4063 is configured by a ball screw pair driven by a stepping motor, a nut member of which is fixed to a side plate of the L-shaped plate 4062, and a screw portion of which is fixed to the third fixing plate 4061 along the Z direction.

A first carving moving group 4021 is arranged between the carving bench 401 and the rotary carving tool 402, and the first carving moving group 4021 is used for driving the rotary carving tool 402 to move left and right along the X direction in the drawing. Specifically, a vertical frame and a second moving plate 4022 are arranged on the opposite side of the engraving table 401 from the third fixed plate 4061, and the first engraving moving group 4021 is arranged between the vertical frame and the second moving plate 4022. The first engraving moving group 4021 adopts a structure that a stepping motor drives a ball screw pair, a nut member of the first engraving moving group fixes one surface of the second moving plate 4022, which is far away from the caterpillar 4031, a screw rod part of the first engraving moving group is connected to the stand, the length direction of the screw rod is parallel to the X direction, and the first engraving moving group 4022 can drive the second moving plate 4022 to move along the X direction in the drawing. The rotary graver 402 is connected to the second moving plate 4022 through the third lifting plate 4023, a second engraving moving group 4024 is provided between the second moving plate 4022 and the third lifting plate 4023, and the second engraving moving group 4024 is configured to drive the rotary graver 402 to move up and down along the Z direction in the drawing. Specifically, the second engraving moving group 4024 is configured by driving a ball screw pair by a stepping motor, a nut member of the second engraving moving group is fixed to a surface of the third lifting plate 4023 away from the track 4031, a screw portion of the second engraving moving group is connected to the second moving plate 4022, a length direction of the screw is parallel to the Z direction, and the third lifting plate 4023 and the rotary engraving knife 402 can be driven to move in the Z direction in the drawing. The rotary graver 402 is composed of a graver and a stepping motor, an output end of the stepping motor is fixedly connected with the graver, and the stepping motor is fixed at the lower end of the third lifting plate 4023 close to the caterpillar 4031. Through the setting of the carving removal group of equidirectional not for rotatory carving tool 402 cooperates track 4031 conveying group 403, sculpture carousel 404 to realize the automatic sculpture process, has better home range, can improve glyptic precision. The carved and molded clay pottery workpiece is conveyed to a glaze spraying station of the glaze spraying mechanism 5 through the mechanical arm clamping mechanism 9, and through information transmitted by the electronic tag, if a small picture is carved, the time is consumed for about 3 hours, and if a large picture is carved, the time is consumed for about 5 hours.

Referring to fig. 5, the glaze spraying mechanism 5 includes a glaze spraying bench 501, a glaze spraying turntable 502 and a glaze spraying assembly 503 for spraying glaze on the workpiece, the glaze spraying bench 501 is provided with a glaze spraying worktable 5011, the glaze spraying turntable 502 is connected to the glaze spraying worktable 5011, and the bottom of the glaze spraying turntable 502 is provided with a first glaze spraying rotating group, the first glaze spraying rotating group is used for driving the glaze spraying turntable 502 to rotate, the first glaze spraying rotating group adopts a stepping motor, the stepping motor is fixed on the lower plate of the glaze spraying worktable 5011, and the output end of the stepping motor is connected to the bottom of the glaze spraying turntable 502.

A first glaze spraying moving group 5021 is arranged between the glaze spraying workbench 5011 and the glaze spraying workbench 501, the first glaze spraying moving group 5021 is used for driving the glaze spraying turntable 502 and the glaze spraying workbench 5011 to move back and forth along the Y direction in the drawing, specifically, the first glaze spraying moving group 5021 adopts a structure that a stepping motor drives a ball screw pair, a nut piece of the ball screw pair is fixed at the bottom of the glaze spraying workbench 5011, a screw rod part of the ball screw pair is connected to the glaze spraying workbench 501, the length direction of the screw rod is parallel to the Y direction, and the glaze spraying turntable 502 and the glaze spraying workbench 5011 can be driven to move along the Y direction in the drawing.

The glaze spraying component 503 is fixed on the glaze spraying rack 501 and located above the glaze spraying turntable 502, the glaze spraying component 503 comprises a glaze storage device 5031, a shunt tube 5032 and a glaze spraying head 5033, the glaze storage device 5031 is bottle-shaped and provided with a valve at an opening, the opening of the glaze storage device 5031 is communicated with the shunt tube 5032, the shunt tube 5032 is internally provided with a plurality of through holes which are uniformly formed, the end part of the shunt tube 5032 is communicated with the glaze spraying head 5033, and the opening of the glaze spraying head 5033 faces the glaze spraying turntable 502. If the valve of the glaze storage 5031 is opened, the glaze liquid in the glaze storage 5031 flows downstream to the diversion pipe 5032 under the action of gravity, and the diversion pipe 5032 evenly diverts the glaze liquid to enable the glaze liquid to drop downwards, so that the workpiece can be sprayed with glaze by rotating together with the glaze spraying turntable 502 and moving back and forth of the glaze spraying worktable 5011, and the glaze spraying effect is good. The workpiece after glaze spraying and forming is transported into the electric kiln box 6 through the mechanical arm clamping mechanism 9. The information transmitted by the electronic tag takes about 40 seconds if the information is a small object, and takes about 90 seconds if the information is an object

Referring to fig. 6, the electric kiln box 6 includes two kiln boxes each having a door, the sintering temperature of the kiln box at the upper end in the Z direction is 1100 ° to 1200 °, the sintering temperature of the box at the lower end is 1300 °, and the doors are opened by rotating by a hinge mechanism. The electric kiln box 6 is prior art and will not be described in detail herein. The firing time is the same whether the workpiece is a large or small workpiece, 5 + -0.5 hours. The fired and molded workpiece is transported into a polishing machine 7 through a manipulator clamping mechanism 9.

Referring to fig. 1 and 6, a polishing rack 701 is disposed at a downstream of the manufacturing process and near the electric kiln box 6 in the manufacturing area, the polishing rack 701 has a polishing table 7011, a polishing turntable 702 is disposed on the polishing table 7011, a first polishing rotating group is disposed at the bottom of the polishing turntable 702, the first polishing rotating group employs a stepping motor, the stepping motor is fixed on the polishing table 7011, and an output end of the stepping motor is fixedly connected to the bottom of the polishing turntable 702, so as to drive the polishing turntable 702 to rotate. The polishing turntable 702 is provided with a third workpiece clamping group 7021, the third workpiece clamping group 7021 is used for clamping a workpiece, and specifically, the structure of the third workpiece clamping group 7021 is the same as that of the first workpiece clamping group 405 of the engraving mechanism 4, which is not described herein again. The polishing machine 7 adopts a double-grinding-wheel polishing machine 7 in the prior art, and the polishing machine 7 can be used with a single grinding wheel or with double grinding wheels. The polishing machine 7 is connected with a first polishing moving group 7023 through a fourth lifting plate 7022 and the polishing bench 701, and the first polishing moving group 7023 is used for driving the polishing machine 7 to move up and down along the Z direction in the figure. The first polishing moving group 7023 adopts a telescopic push rod cylinder, the push rod cylinder is fixed at the upper end of the polishing bench 701 through a fourth fixing plate, and a push rod of the first polishing moving group is fixedly connected to the back of the fourth lifting plate 7022 far away from the polishing machine 7, so that the fourth lifting plate 7022 and the polishing machine 7 can be driven to move along the Z direction in the drawing. A second polishing moving group 7024 is arranged between the fourth fixing plate, the fourth moving plate and the polishing bench 701, and the second polishing moving group 7024 is used for driving the polishing machine 7 to move left and right along the X direction in the figure. Specifically, the second polishing moving group 7024 is a structure in which a motor drives a ball screw pair, nut members of which are respectively connected to the fourth fixing plate and the fourth lifting plate 7022, and a screw portion of which is fixedly connected to the polishing table 701. Through the information conveyed by the electronic tag, the time consumed by the small workpiece polishing process is 3 hours, and the time consumed by the large workpiece polishing process is 4 hours.

Referring to fig. 1 and 7, the moving mechanism 8 includes a moving rail 801 and a screw structure 802, the length direction of the moving rail 801 is parallel to the linear direction along the blank drawing mechanism 3 towards the polishing machine 7, the screw structure 802 adopts a structure of a ball screw pair driven by a motor, a base 803 is connected to the nut member, and the base 803 is used for connecting the manipulator clamping mechanism 9. The manipulator gripping mechanism 9 includes a manipulator, an electric push rod, and a rotating member. The clamping mechanical arm adopts a finger cylinder, the clamping mechanical arm is provided with a clamping finger for taking a workpiece, the end part of the clamping mechanical arm far away from the clamping hand is connected with the telescopic end of the electric push rod, and the mechanical arm is driven to stretch into each mechanism to take the workpiece or put the workpiece through the telescopic action of the electric push rod. The rotating part is connected between the bottom of the electric push rod and the base, the rotating part is a stepping motor and used for driving the mechanical arm and the electric push rod to rotate, and the mechanical arm is driven to move on the moving rail 801 through the screw rod structure 802 on the whole.

It should be noted that the processing system may use a PLC, a computer system or an ARM processor as a control center. The actual material consumption of the workpiece can adopt finished mud blocks, the weight of the mud blocks is 25 kg/block, and the material consumption of a small cup is as follows: about 150g to 350 g; material usage of the large vase (half-height): about 16kg to about 17 kg; material usage of a large vase (height of a person): about 33kg to 34kg, the actual dose of each workpiece can be set by corresponding settings. In addition, when the ceramic clay raw material is transported out of the feeding box body 2, the ceramic clay is dry and has certain toughness, and can be directly clamped by a manipulator, and then the ceramic clay raw material is subjected to a blank drawing process, so that a clay blank is wet. Therefore, a constant temperature mechanism is arranged at the blank drawing mechanism, the temperature is kept within twenty-five ℃ by adjusting the constant temperature mechanism, and the mud blank is dried. So that the mud blank can be clamped by the manipulator of the conveying device in each subsequent process after being dried, and the condition that the workpiece is deformed or damaged is avoided. Meanwhile, in order to avoid the situation that the workpiece is deformed or unstable in placement or the water content of the clay of the workpiece is influenced by too low moving speed caused by too high moving speed of the manipulator, the moving time of a finished product in each process needs to be controlled. The specific parameters of the robot movement are as follows:

1. a feeding process: get the manipulator and press from both sides out the clay raw materials, manipulator moving speed was 10mm/s this moment, consuming time: 60 s; then the clamping is carried out until the blank drawing mechanism enters and exits the blank drawing, and the moving speed of the manipulator is the moving speed: 30mm/s, time consuming: 30 s;

2. treat the dry back of accomplishing of adobe, press from both sides the manipulator clamp and get the blank and move to sculpture mechanism, press from both sides this moment and get the manipulator and stretch into the moving speed that the blank mechanism clamp got the blank and be 10mm/s, consuming time: 90 s; the moving speed to the engraving mechanism is 40mm/s, which takes time: 70 s; the speed of movement of the blank into the engraving mechanism was 10mm/s, time consuming: 60 s;

3. get the manipulator and move the blank to the glaze spraying process from the sculpture process, get the manipulator and stretch into the sculpture mechanism and get the moving speed of blank and be 10mm/s this moment, consuming time: 45 s; the moving speed of the moving mechanism to the glaze spraying mechanism is 20mm/s, and the time is consumed: 30 ss; the moving speed of the blank into the glaze spraying mechanism is 10mm/s, and the time is consumed: 45 s;

4. the clamping manipulator moves the blank to the electric kiln box from the glaze spraying process, and the moving speed of the clamping manipulator stretching into the glaze spraying mechanism to clamp the blank is 10 mm/s: time consumption: 50 s; the moving speed of the electric kiln box is 20mm/s, and the time is consumed: 30 s; the moving speed of the blank into the electric kiln box was 10mm/s, time consuming: 50 s;

5. the clamping mechanical arm moves the blank to the polishing machine from the electric kiln box, and the moving speed of the clamping mechanical arm extending into the electric kiln box to clamp the blank is 10 mm/s: time consumption: 40 s; the moving speed to the polishing machine was 20mm/s, and the time was consumed: 28 s; the moving speed of the blank into the polisher is 10mm/s, time consuming: for 30 s.

In a preferred embodiment of the present application, an operation screen 10 is disposed on the front side of the material supply box 2 of the display box 1, and a unit for inputting a blank drawing shape, a carving shape and a glaze dipping color is disposed in the operation screen 10, so as to establish a production drawing and model the production drawing, and transmit the model to a control center of a processing system, so as to control a production device to produce nixing ceramics. The front door of the storage box body is associated with the user identification unit of the processing system so as to be convenient for opening the front door to take out the manufactured nixing pottery, and an autonomous DIY operation mode can be provided for an experiencer. The operation screen 10 adopts the prior art, and the related module setting and operation method both adopt the prior art, which are not described herein again.

On the whole, a production line of nixing ceramic artware is arranged in the display box body 1, feeding and manufacturing processes are correspondingly arranged, automatic nixing ceramic production is achieved, the display box body 1 can be placed in a downtown area or a culture area of a city, the process of manufacturing the nixing ceramic is displayed through automatic production of a machine, planar propaganda is converted into more three-dimensional propaganda, and the nixing ceramic culture is promoted; through 2 feeds of feed box, the raw materials gets into the preparation district to in proper order through the process of throwing, sculpture, glaze spraying, toasting and polishing, utilize mechanized structure can simulate artificial production nixing pottery, provide the convenience for wanting to obtain the crowd who knows the nixing pottery, in order to reach the mesh of carrying forward the nixing pottery culture.

In another exemplary embodiment 2 of the application, an automatic selling system for selling nixing ceramic artware is provided, referring to fig. 8, the automatic selling system comprises a production device, a service platform configured with a server, and a client end correlated with the service platform, wherein the production device is in communication connection with the service platform through a configuration data transmission module, and the service platform is used for uploading a throwing shape, uploading a carved pattern, modifying a manufacturing drawing, purchasing the manufacturing drawing, ordering online and displaying the geographical position of each production device; the client is used for logging in the service platform by a customer to upload shapes, upload engraving drawings, modify drawings, purchase drawings, place orders on line, check the positions of the production devices and select the production devices at corresponding positions to print;

the production device of the embodiment adopts the full-automatic display device of the nixing pottery production process in the embodiment 1; the service platform builds a model of the manufacturing drawing and then transmits the modeling drawing to the production device, and feeds back the user identification code and the storage information to the client; the production device makes and stores the made product according to the making drawing, and can feed back the making state to the service platform so as to identify the user and open the storage area.

Specifically, selling equipment with a production device is placed at each place, and the selling equipment at each place is positioned through a network positioning system; then, a user logs in the service platform through a client (pc terminal or APP), acquires a specific address of the selling equipment through the client APP, inquires about state information and commodity information of the selling equipment, and can identify the specific address of each equipment in an electronic map manner, so that the user can find the selling equipment through a navigation route conveniently; uploading a drawing shape, uploading a carved pattern, modifying a production drawing, purchasing the production drawing and ordering on line through a client APP, and completing payment. After the client APP uploads the information to the service platform, the service platform collects the information and models a manufacturing drawing to be transmitted to a processing system of a production device of the vending equipment, the processing system controls the production device to produce nixing ceramics according to the manufacturing drawing, and final nixing ceramics products are stored in a storage area to wait for a user to take out the nixing ceramics products; the pickup mode can be that the two-dimensional code scans the sign indicating number or inputs the mode such as picking up the sign indicating number and contact the user identification unit in the system of processing, opens the box in storing district and obtains final product. When raw materials in the equipment are short, the selling system can send the state of the selling equipment to a service platform or an operation management terminal (pc terminal or app) through the Internet of things module and generate an early warning; the operator monitors the state of each device through the operation management mobile phone APP.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. The fully-automatic display device for the nixing pottery production process is characterized by comprising a production device and a processing system for the production device, wherein the production device comprises a feeding area, a manufacturing area, a storage area and a conveying area among the feeding area, the manufacturing area and the storage area; the material supply area is arranged at the upstream of the manufacturing area along the manufacturing process, and the storage area is arranged at the downstream of the manufacturing area along the manufacturing process;

a conveying device is arranged in the conveying area, and the conveying device comprises a moving mechanism (8) and a manipulator clamping mechanism (9) connected to the moving mechanism (8); the manipulator clamping mechanism (9) is used for clamping the clay raw materials in the feeding area and clamping products and manufacturing drawings thereof transmitted by all machines in the manufacturing area, and the moving mechanism (8) is used for sequentially moving the products in the manufacturing area according to the manufacturing procedures of the manufacturing area;

a feeding box body (2) used for providing nixing pottery raw materials is arranged in the feeding area, and a storage mechanism, a feeding mechanism, a cutting mechanism and an extrusion mechanism used for the pottery raw materials are arranged in the feeding box body (2); the cutting mechanism can cut off the clay raw materials with relative application amount according to the size of a drawing, the feeding mechanism conveys the cut clay raw materials to a workbench of the extrusion mechanism, and the conveying device conveys the clay raw materials of the workbench of the extrusion mechanism to a manufacturing area;

the manufacturing area is sequentially provided with: the device comprises a blank drawing mechanism (3) for drawing and forming nixing pottery raw materials, an engraving mechanism (4) for engraving products after blank drawing and forming, a glaze spraying mechanism (5) for spraying glaze and engraving the products, an electric kiln box (6) for sintering the products after glaze spraying and a polishing machine (7) for polishing the products after sintering; the working tables of the throwing mechanism (3), the carving mechanism (4), the glaze spraying mechanism (5), the electric kiln box (6) and the polishing machine (7) are connected through a mechanical clamping mechanism and a moving mechanism (8); the conveying device can convey the manufacturing drawing to each machine workbench according to the manufacturing process of the manufacturing area, and convey nixing ceramic products to the storage area after printing is completed;

the storage area is arranged at the downstream of the manufacturing process of the manufacturing area, a storage box body is arranged in the storage area, a rear door which is associated with the mechanical arm clamping mechanism (9) is arranged at one end, close to the conveying area, of the storage box body, and the mechanical arm clamping mechanism (9) can take out manufactured products from the storage box through the rear door or convey the manufactured products and manufacturing drawings to the storage box; and a front door is arranged at one end, far away from the conveying area, of the storage box body and used for taking out nixing pottery products in the storage box body and manufacturing drawings.

2. The fully automatic display device for the nixing pottery production process as claimed in claim 1, wherein the moving mechanism (8) comprises moving rails (801) arranged along a straight line direction of the blank drawing mechanism (3) pointing to the polishing machine (7) and a screw structure (802) arranged between the moving rails (801); the manipulator clamping mechanism (9) comprises a clamping manipulator, an electric push rod connected with the manipulator and a rotating part for driving the clamping manipulator and the electric push rod to rotate; the rotating piece is connected to the bottom of the electric push rod; the screw rod structure (802) is connected between the moving rail (801) and the rotating part and used for driving the mechanical arm clamping mechanism (9) to move on the moving rail (801).

3. The nixing pottery production process full-automatic display device as claimed in claim 1, wherein the blank drawing mechanism (3) comprises:

the device comprises a blank drawing bench (301), wherein a blank drawing worktable (302) is arranged on the blank drawing bench (301);

the blank drawing turntable (303) is used for placing clay, the blank drawing turntable (303) is arranged on a blank drawing worktable (302), and the bottom of the blank drawing turntable (303) is connected with a first blank drawing rotating group (3031) used for driving the blank drawing turntable (303) to rotate and a first blank drawing moving group (3032) used for driving the blank drawing turntable (303) to move back and forth;

the end part of the drawing main shaft (304) is provided with a second drawing rotating group (3041) for driving the drawing main shaft (304) to rotate, and the drawing main shaft (304) and the second drawing rotating group (3041) are connected to the drawing bench (301) through a first fixing frame (3042) and are positioned above the drawing turntable (303); a second throwing moving group (3045) and a third throwing moving group (3046) which are used for driving the throwing main shaft (304) to move left and right and move up and down are arranged between the throwing rack (301) and the first fixing frame (3042);

the blank drawing mechanical arm (305) is connected to the blank drawing rack (301) through a second fixing plate (3051) and is positioned on the side of the blank drawing turntable (303); a fourth throwing moving group (3052) for driving the throwing manipulator (305) to move up and down is arranged between the throwing rack (301) and the second fixing plate (3051);

the blank drawing turntable (303), the blank drawing main shaft (304) and the blank drawing mechanical arm (305) are matched to draw blank for the clay.

4. The nixing pottery production process fully-automatic display device as claimed in claim 1, wherein the engraving mechanism (4) comprises:

the carving bench (401), the carving bench (401) is provided with a carving workbench (4011);

the rotary engraving knife (402), the rotary engraving knife (402) is connected with the engraving rack (401) through a third lifting plate (4023), and a first engraving moving group (4021) and a second engraving moving group (4024) which are used for driving the rotary engraving knife (402) to move left and right and move up and down are arranged between the engraving rack (401) and the third lifting plate (4023);

a crawler transport group (403), the crawler transport group (403) being disposed on an engraving table (4011);

an engraving turntable (404) with an engraving station, which is used for placing the pulled clay pottery; the engraving turntable (404) is connected to a crawler (4031) of the crawler conveying group (403) and can move along with the rotation of the crawler (4031), and a first workpiece clamping group (405) and a second workpiece clamping group (406) for positioning the pulled clay pottery are arranged on an engraving station of the engraving turntable (404); the first workpiece clamping group (405) is arranged on an engraving station of the engraving rotary table (404), the second workpiece clamping group (406) is connected to the engraving rack (401) through a third fixing plate (4061), and a third engraving moving group (4063) used for driving the second workpiece clamping group (406) to move up and down is connected between the third fixing plate (4061) and the engraving rack (401).

5. The fully-automatic display device for nixing pottery production process as claimed in claim 1, wherein the glaze spraying mechanism (5) comprises:

the glaze spraying device comprises a glaze spraying bench (501), wherein a glaze spraying worktable (5011) is arranged on the glaze spraying bench (501);

the glaze spraying rotary table (502) is connected to the glaze spraying workbench (5011), and the bottom of the glaze spraying rotary table (502) is provided with a first glaze spraying rotary group for driving the glaze spraying rotary table (502) to rotate; a first glaze spraying moving group (5021) for driving the glaze spraying turntable (502) to move back and forth is arranged between the glaze spraying worktable (5011) and the glaze spraying bench (501);

the glaze spraying assembly (503) is used for spraying glaze on the workpiece; the glaze spraying component (503) comprises a glaze storage device (5031) with an opening provided with a valve, a shunt pipe (5032) with a through hole and a glaze spraying head (5033) connected with the end part of the shunt pipe (5032); the glaze storage device (5031) is fixed on the glaze spraying bench (501) and positioned above the glaze spraying turntable (502) so that the glaze spraying head (5033) faces the glaze spraying turntable (502).

6. The fully automatic display device for the nixing pottery production process as claimed in claim 1, characterized in that an electronic tag is arranged in the feed box body (2), and the electronic tag can be used for matching the information of the type and the specification of the stored raw materials and the material amount used each time with the feed box body (2).

7. The fully automatic display device for the nixing pottery production process as claimed in claim 1, wherein an operation screen (10) is arranged on the side of the display box body (1), an input pulling-blank shape unit, an engraving shape unit and a glaze-dipping color unit are arranged in the operation screen (10), and the operation screen (10) is further provided with a user identification unit of a processing system associated with the front door of the storage box body.

8. An automatic selling system of nixing pottery products is used for selling nixing pottery artware and is characterized by comprising a production device, a service platform configured with a server and a client end which is mutually associated with the service platform, wherein the production device is in communication connection with the service platform through a configuration data transmission module, and the client end is used for logging in the service platform by a client and uploading a manufacturing drawing;

the production device is a fully automatic display device for nixing pottery production process as set forth in any one of claims 1-7; the service platform transmits the manufacturing drawing to a production device and feeds back a user identification code and storage information to the client; the production device is used for manufacturing according to the manufacturing drawing and storing the manufactured product, and the manufactured state can be fed back to the service platform to identify the user and open the storage area.

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