CN105662609A - Digitized full-automatic flow line production system for concealed appliance - Google Patents

Abstract

The invention belongs to the technical field of dental appliances and especially relates to a digitized full-automatic flow line production system for a concealed appliance. The system includes a system server, a production scheduling system, a 3D printer, a thermo-compressor, a processing center and an intelligent mechanical arm. In the system, data transmission is networked, and the devices in the production process are all connected to a production scheduling professional network and required data is obtained from a uniform database, wherein the data is uniformly named and recognized in the production process, so that products satisfy user individual requirements can be produced through the individual production process. The operational process principle of the system is automatic transmission of data and work objects, so that manual/semi-automatic operations are reduced as more as possible. The system reduces labor intensity, improves production efficiency and ensures production quality.

Description

Invisible orthotic device digital full-automatic flow line production system

Technical field

The invention belongs to gear division technique with the apparatus field, particularly relate to a kind of invisible orthotic device digital full-automatic flow line production system.

Background technology

Invisible orthotic device is a kind of transparent elastic material movable correcting device by computer-aided design and manufacture, and it is a series of continuous print orthotic devices, is reached the purpose of orthodontic by continuous little scope moving teeth. Transparent appliance is enclosed within tooth and is not easily found, dismantled and assembled and comfortable wearing, thus correcting mode than other, more by the favor of people.

In recent years, oral cavity stealth orthodontic therapy technology progressively develops in China and moves to maturity. Along with orthodontist and Software Engineer's Interdisciplinary collaboration of some countries such as the U.S., China, adopt CAD/CAM technology, use advanced manufacture method, make the high molecule plastic appliance of a kind of personalization. This appliance can produce a certain size corrective force and make tooth progressively slowly move, thus the shortcoming overcoming conventional orthodontic method.

When making invisible orthotic device, first the model of tooth jaw is built by computer software, then by 3D printer, dentognathic model is printed again, going out invisible orthotic device followed by hot press hot pressing on the dentognathic model printed, the appliance finally hot pressing gone out cuts, has polished the making of hidden tooth appliance. Every the equipment making invisible orthotic device at present is all isolated operation, needing more human assistance operation just can complete the manufacturing process of whole invisible orthotic device, therefore labor intensity is big, and production efficiency is relatively low, due to the manually-operated error of some steps, it is impossible to ensure the quality produced.

Summary of the invention

The present invention provides a kind of invisible orthotic device digital full-automatic flow line production system, and this system can reduce manually/automanual operation as far as possible, to reduce labor intensity, improves production efficiency, it is ensured that the quality of production.

To achieve these goals, the present invention adopts the following technical scheme that invisible orthotic device digital full-automatic flow line production system, including system server, Production Scheduling System, 3D printer, hot press, machining center and intelligent machine mechanical arm, after described system server receives new tooth modulus evidence, send notification to Production Scheduling System, Production Scheduling System reads new tooth modulus evidence and sends printing tooth mould assignment instructions to 3D printer, after 3D printer prints, send Mission Accomplishment Report to Production Scheduling System;After Production Scheduling System receives Mission Accomplishment Report, transfer intelligent machine mechanical arm and printed tooth mould is transferred to hot press and sends the instruction of hot pressing tooth mould to hot press, after hot press completes hot pressing task, send Mission Accomplishment Report to Production Scheduling System; After Production Scheduling System receives Mission Accomplishment Report, transferring intelligent machine mechanical arm and hot pressing tooth mould good for hot pressing is transferred to machining center and sends Machining Instruction to machining center, machining center completes the making of hot pressing tooth mould after hot pressing tooth mould is processed.

Preferably, described system server, 3D printer, hot press, machining center and intelligent machine mechanical arm be wired with Production Scheduling System or radio communication.

Preferably, after tooth mould is taken out by described intelligent machine mechanical arm from 3D printer, after artificial quality inspection, it is transferred to hot press again.

Preferably, hot pressing tooth mould is cut, polishes by the gum line data that the processing tasks of described machining center provides according to Production Scheduling System for machining center.

Preferably, after described machining center completes the processing of hot pressing tooth mould, after artificial quality inspection, packaging warehouse-in.

The beneficial effects of the present invention is: the data transfer network of native system, the equipment that production process uses all is connected with production scheduling specialized network, desired data all obtains from unified data base, and carry out Uniform Name and identification in process of production, it is ensured that after personalized production procedure, producing the product consistent with user personality demand. The operational process principle of system is the automatic transmission of data and target, reduces artificial/automanual operation as far as possible, to reduce labor intensity, improves production efficiency, it is ensured that the quality of production.

Accompanying drawing explanation

Fig. 1 is the system structure schematic diagram of the present invention;

Fig. 2 is the working-flow figure of the present invention;

Detailed description of the invention

Below in conjunction with detailed description of the invention, the present invention is described in detail.

Invisible orthotic device digital full-automatic flow line production system, including system server, Production Scheduling System, 3D printer, hot press, machining center and intelligent machine mechanical arm, after described system server receives new tooth modulus evidence, send notification to Production Scheduling System, Production Scheduling System reads new tooth modulus evidence and sends printing tooth mould assignment instructions to 3D printer, after 3D printer prints, send Mission Accomplishment Report to Production Scheduling System; After Production Scheduling System receives Mission Accomplishment Report, transfer intelligent machine mechanical arm and printed tooth mould is transferred to hot press and sends the instruction of hot pressing tooth mould to hot press, after hot press completes hot pressing task, send Mission Accomplishment Report to Production Scheduling System; After Production Scheduling System receives Mission Accomplishment Report, transferring intelligent machine mechanical arm and hot pressing tooth mould good for hot pressing is transferred to machining center and sends Machining Instruction to machining center, machining center completes the making of hot pressing tooth mould after hot pressing tooth mould is processed.

Described system server, 3D printer, hot press, machining center and intelligent machine mechanical arm be wired with Production Scheduling System or radio communication.

This system is the production system of attaching troops to a unit of stealthy orthodontic therapy scheme aid system. Target is aid system to generate band rescue the tooth mould of step and carry out 3D printing, and hot-forming, finally cutting is polished into the stealthy orthodontic tooth crown being suitable for wearing. The data message of period and logistics are completed by LAN and automatic assembly line transporter.

As shown in Figure 1, native system mainly includes system server, Production Scheduling System, 3D printer, hot press, machining center and intelligent machine mechanical arm, wherein said system server, 3D printer, hot press, intelligent machine mechanical arm and machining center and Production Scheduling System wired or wireless communication.Wire communication, for instance LAN, it is possible to the instruction of Production Scheduling System is sent to other various pieces fast and accurately, radio communication native system then can be made to have the suitability is good, expanding type is good and easily safeguards.

The system server of this system is set to a system server or a system server group, can complete the communication with Production Scheduling System by wired or radio communication, it is achieved teleinformatic transmission. Such as, system server is arranged on the clinic of dentist, and Production Scheduling System and other each several parts are in production plant. Dentist generates model after gathering the dental information of client, and then remaining production process then transfers to production plant to complete by remote functionality.

It is illustrated in figure 2 the working-flow figure of the present invention, after system server receives new tooth modulus evidence, send notification to Production Scheduling System, Production Scheduling System reads new tooth modulus evidence, whether inspection system is idle, prints tooth mould assignment instructions if it has, then send to this 3D printer, the tooth modulus evidence that 3D printer starts after receiving print command according to Production Scheduling System provides prints, and print out task sends Mission Accomplishment Report to Production Scheduling System after completing. After Production Scheduling System receives the Mission Accomplishment Report that 3D printer sends, transfer intelligent machine mechanical arm to be taken out by printed tooth mould, it is transferred to hot press by intelligent machine mechanical arm again via after artificial quality inspection, hot press places tooth mould and hot-pressing plastic diaphragm voluntarily, automatically errorless rear execution hot pressing task is checked, after hot pressing task completes, hot press sends Mission Accomplishment Report to Production Scheduling System. After Production Scheduling System receives the Mission Accomplishment Report that hot press sends, transfer intelligent machine mechanical arm to be taken out by hot pressing tooth mould good for hot pressing, it is transferred to machining center, Production Scheduling System sends Machining Instruction to machining center, and hot pressing tooth mould is cut, polishes by the gum line that machining center provides according to Production Scheduling System. After processing tasks completes, artificial stealthy orthodontic tooth crown is carried out comparing, after quality examination, packaging warehouse-in.

In this workflow, having the step of two people's working medium inspections, first time, the tooth mould that 3D printer is printed was mainly simply checked by artificial quality inspection, mainly the size of tooth mould and surface smoothness etc. was checked. The artificial quality inspection of second time is then by manually hot pressing tooth mould being checked by aid, except the size of hot pressing tooth mould, fineness, also has the curve etc. of tooth mould, checks more fine, checks complete, meet the requirements, then pack warehouse-in. Data all acquirements from unified data base that native system is required in manufacturing process, and through twice artificial quality inspection, it is ensured that the personalization of product and quality.

Claims (5)

1. invisible orthotic device digital full-automatic flow line production system, it is characterized in that: include system server, Production Scheduling System, 3D printer, hot press, machining center and intelligent machine mechanical arm, after described system server receives new tooth modulus evidence, send notification to Production Scheduling System, Production Scheduling System reads new tooth modulus evidence and sends printing tooth mould assignment instructions to 3D printer, after 3D printer prints, send Mission Accomplishment Report to Production Scheduling System; After Production Scheduling System receives Mission Accomplishment Report, transfer intelligent machine mechanical arm and printed tooth mould is transferred to hot press and sends the instruction of hot pressing tooth mould to hot press, after hot press completes hot pressing task, send Mission Accomplishment Report to Production Scheduling System; After Production Scheduling System receives Mission Accomplishment Report, transferring intelligent machine mechanical arm and hot pressing tooth mould good for hot pressing is transferred to machining center and sends Machining Instruction to machining center, machining center completes the making of hot pressing tooth mould after hot pressing tooth mould is processed.

2. invisible orthotic device digital full-automatic flow line production system according to claim 1, it is characterised in that: described system server, 3D printer, hot press, machining center and intelligent machine mechanical arm be wired with Production Scheduling System or radio communication.

3. invisible orthotic device digital full-automatic flow line production system according to claim 1, it is characterised in that: after tooth mould is taken out by described intelligent machine mechanical arm from 3D printer, after artificial quality inspection, it is transferred to hot press again.

4. invisible orthotic device digital full-automatic flow line production system according to claim 1, it is characterised in that: hot pressing tooth mould is cut, polishes by the gum line data that the processing tasks of described machining center provides according to Production Scheduling System for machining center.

5. invisible orthotic device digital full-automatic flow line production system according to claim 1, it is characterised in that: after described machining center completes the processing of hot pressing tooth mould, after artificial quality inspection, packaging warehouse-in.