CN205210914U - 3d printer system - Google Patents

Abstract

The utility model provides a 3D printer system, including integrated circuit identification label read write line (for example wireless radio frequency identification read write line) and integrated circuit identification label (for example wireless radio frequency identification label ), integrated circuit identification label can be by the way in printing the material, thereby the integrated circuit identification label read write line on the printer is used for recognising detailed attribute information (the manufacture factory information for example of this printing material through discernment integrated circuit identification label, material information, colour information, weight information and melting point temperature information and so on) and judge whether print the material is about to exhaust and the time -out printing process, do not need the manual work to go the discernment operation, manpower and time have been practiced thrift, and a work efficiency is increased.

Description

3D printer system

Technical field

The utility model relates to printer technology field, particularly relates to a kind of 3D printer system.

Background technology

Current 3D printing technique or 3D printer progress into the daily visual field of people and come into vogue.3D printer is by starting material if plastic cement, metal, wood chip, sand etc. are in stamp pad accumulation successively, forms three-dimensional real object.But traditional 3D printer is not to starting material identification and judge whether material is about to exhaust and the function of time-out printing process, can only rely on during printing and manually go to identify that then judgement settles corresponding starting material, work efficiency is poor.

Utility model content

Based on the deficiency that above-mentioned technology exists, the utility model provides a kind of 3D printer system of increasing work efficiency.

A kind of 3D printer system, comprises printer and integrated circuit identification label;

Described printer comprises stamp pad, printing head and integrated circuit identification label read write line;

Described stamp pad, for carrying printing objects, is arranged in X-axis-Y-axis plane and also can moves in Z-direction;

Described printing head, for spraying printed material, can move in X-direction and Y direction;

Described integrated circuit identification label read write line is for activating described integrated circuit identification label, described integrated circuit identification label being read to data and write data;

Described integrated circuit identification label is subsidiary in described printed material, for storing the attribute data of described printed material.

Wherein in an embodiment, described integrated circuit identification label is wireless radio frequency identification mark, and described integrated circuit identification label read write line is wireless radio frequency identification reader-writer.

Wherein in an embodiment, described wireless radio frequency identification reader-writer comprises the first antenna, the first radio-frequency module and the first control treatment module, described first antenna is electrically connected with the first radio-frequency module, and described first radio-frequency module is electrically connected with the first control treatment module.

Wherein in an embodiment, described first radio-frequency module comprises the first radio-frequency oscillator, the first radio-frequency (RF) transmitter and the first radio frequency receiver, and described first radio-frequency (RF) transmitter and the first radio frequency receiver are electrically connected with described first radio-frequency oscillator respectively.

Wherein in an embodiment, described wireless radio frequency identification mark is passive type wireless radio frequency identification mark.

Wherein in an embodiment, described wireless radio frequency identification mark comprises the second antenna, the second radio-frequency module, the second control treatment module and memory module, described second antenna is electrically connected with the second radio-frequency module, described second radio-frequency module and memory module are electrically connected with the second control treatment module respectively, and described memory module is for storing the attribute data of described printed material.

Wherein in an embodiment, described memory module comprises permanent memory storer.

Wherein in an embodiment, described printer also comprises display device, for showing the data read from described wireless radio frequency identification mark.

Above-mentioned 3D printer system, comprise integrated circuit identification label read write line (such as wireless radio frequency identification reader-writer) and integrated circuit identification label (such as wireless radio frequency identification mark), integrated circuit identification label can incidentally in printed material, thus the integrated circuit identification label read write line on printer by recognition integrated circuit identification label in order to identify detailed attribution information (such as manufacturer's information of this printed material, material information, colouring information, weight information and melting temperature information etc.) and judge whether printed material is about to exhaust and time-out printing process, do not need manually to remove identifying operation, manpower and time are saved, improve work efficiency.

After printer identifies the details of printed material, by manufacturer's information identify be whether license manufacturer production printed material out, to be gone out this printed material by material information and colouring information identifiable design and whether be applicable to printer and print, identified by weight information (balance information) whether enough this time print procedures of surplus of this printed material, identified print temperature then Lookup protocol print temperature etc. of these printed material needs by melting temperature information, automatically can also carry out corresponding operating after identification, improve work efficiency greatly.

Accompanying drawing explanation

Fig. 1 is an embodiment 3D printer system schematic diagram.

Embodiment

For the ease of understanding the utility model, below with reference to relevant drawings, the utility model is described more fully.Preferred embodiment of the present utility model is given in accompanying drawing.But the utility model can realize in many different forms, is not limited to embodiment described herein.On the contrary, provide the object of these embodiments be make the understanding of disclosure of the present utility model more comprehensively thorough.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model understand usually.The object of the term used in instructions of the present utility model herein just in order to describe specific embodiment, is not intended to limit the utility model.Term as used herein "and/or" comprises arbitrary and all combinations of one or more relevant Listed Items.

IC-card (IntegratedCircuitCard, integrated circuit card), also claim smart card (Smartcard), smart card (Intelligentcard), microcircuit card (Microcircuitcard) or chip card etc.It is embedded by a microelectronic chip to meet in the card base of ISO7816 standard, makes card form.Communication modes between IC-card and read write line can be contact, also can be contactless.According to communication interface, IC-card is divided into Contact Type Ic Card, non-contact IC and double-interface card (simultaneously possessing contact and contactless communication interface).

Radio RF recognition technology (RFID, RadioFrequencyIdentification) be a kind of wireless communication technology, related data can be read and write by radio signals identification specific objective, and without the need to setting up machinery or optical contact between recognition system and specific objective.Wireless signal is the electromagnetic field of wireless radio frequency identification reader-writer by furnishing radio frequency, and data are sent out from the wireless radio frequency identification mark be attached to article, with automatic Identification and these article of tracking.The elect magnetic field that some label (passive type) sends from recognizer when identifying just can obtain energy, does not need battery; Also there is label itself to have power supply (active), and initiatively can send radiowave (electromagnetic field of furnishing radio frequency).

Above-mentioned IC-card technology (such as radio RF recognition technology) is incorporated among 3D printer, effectively can identifies printed material by the recognition technology of IC-card, increase work efficiency.IC-card technology can be contactless also can be contact, is described below with a kind of contactless radio RF recognition technology.

Fig. 1 is an embodiment 3D printer system schematic diagram.

A kind of 3D printer system, comprises printer 100 and wireless radio frequency identification mark (RFID label tag) 200.Printer 100 comprises stamp pad 110, printing head 120, wireless radio frequency identification reader-writer (rfid interrogator) 130 and main body rack 140.Stamp pad 110, printing head 120, wireless radio frequency identification reader-writer 130 are arranged on main body rack 140.Described 3D printer can also comprise X-axis kinematic system, Y-axis kinematic system and Z axis kinematic system, can control corresponding component respectively and move in X-direction, Y direction and Z-direction.Be appreciated that the processor or controller (not shown) that can also comprise for the treatment of or control.Stamp pad 110, for carrying printing objects, is arranged in X-axis-Y-axis plane and also can moves in Z-direction.Printing head 120, for spraying printed material, can move in X-direction and Y direction.

Wireless radio frequency identification reader-writer 130 is for activating wireless radio frequency identification mark 200, wireless radio frequency identification mark 200 being read to data and write data.Wireless radio frequency identification mark 200 is passive type wireless radio frequency identification mark, and wireless radio frequency identification mark 200 is subsidiary in printed material, for storing the attribute data of printed material.Attribute data can comprise material information, colouring information, the various details about this printed material of weight information and melting temperature information etc. of printed material.

After printer 100 identifies the details of printed material, whether identified by manufacturer's information is the manufacturer production printed material out of permitting, go out this printed material by material information and colouring information identifiable design and whether be applicable to printer printing, by weight information (balance information, can be such as the information of residuals weight recording printed material) identify whether enough this time print procedures of surplus of this printed material, print temperature then Lookup protocol print temperature etc. of this printed material needs is identified by melting temperature information, automatically corresponding operating can also be carried out after identification, improve work efficiency greatly.Such as, can judge in print procedure whether printed material is about to exhaust and time-out printing process.Wireless radio frequency identification reader-writer 130 on printer 100 can read printed material attribute and original quantity (or weight), also can read the quantity (or weight) that the products in kind that will print needs material.So in print procedure, if printed material is about to use up, printer 100 can detect thus can alarm user more conversion materials, time-out printing process.Can continue after reloading to print.In this process, printer 100 can write Data Update information to wireless radio frequency identification mark 200.Such as, after printing completes, print according to this printed material quantity (or weight) used and Data Update balance information is write to wireless radio frequency identification mark 200.

Wireless radio frequency identification reader-writer 130 comprises the first antenna, the first radio-frequency module and the first control treatment module, and the first antenna is electrically connected with the first radio-frequency module, and the first radio-frequency module is electrically connected with the first control treatment module.First radio-frequency module comprises the first radio-frequency oscillator, the first radio-frequency (RF) transmitter and the first radio frequency receiver, and the first radio-frequency (RF) transmitter and the first radio frequency receiver are electrically connected with the first radio-frequency oscillator respectively.First radio-frequency module generally includes coupling element, and the first radio-frequency module is generated electromagnetic wave and sent by the first antenna.First control treatment module generally includes process chip, for controlling the first antenna and the first radio-frequency module.

Wireless radio frequency identification mark 200 is corresponding with wireless radio frequency identification reader-writer 130, comprise the second antenna, the second radio-frequency module, the second control treatment module and memory module, second antenna is electrically connected with the second radio-frequency module, second radio-frequency module and memory module are electrically connected with the second control treatment module respectively, and memory module is for storing the attribute data of described printed material.Second radio-frequency module also generally includes coupling element (such as LC resonant circuit), and the second radio-frequency module receives electromagnetic wave produce electric energy by the second antenna, using as power supply for wireless radio frequency identification mark 200 is powered.Second control treatment module also generally includes process chip, for controlling the second antenna and the second radio-frequency module.Memory module comprises permanent memory storer, such as electric erasing type programmable read only memory (EEPROM, ElectricallyErasableProgrammableReadOnlyMemory).

Because wireless radio frequency identification mark 200 does not have internal power supply, the electromagnetic wave produce power laggard row cutting of the second radio-frequency module by receiving of its inside, these electromagnetic waves are sent by wireless radio frequency identification reader-writer 130.When label receives the electromagnetic wave signal of sufficient intensity, data can be sent to wireless radio frequency identification reader-writer 130.

Printer 100 also comprises display device (not shown), for showing the data read from wireless radio frequency identification mark 200.Such as, material information, colouring information, weight information and melting temperature information etc. can be shown, facilitate user to obtain the details of printed material intuitively.

Above-mentioned 3D printer system, comprise integrated circuit identification label read write line (such as wireless radio frequency identification reader-writer) and integrated circuit identification label (such as wireless radio frequency identification mark), integrated circuit identification label can incidentally in printed material, thus the integrated circuit identification label read write line on printer by recognition integrated circuit identification label in order to identify detailed attribution information (such as manufacturer's information of this printed material, material information, colouring information, weight information and melting temperature information etc.) and judge whether printed material is about to exhaust and time-out printing process, do not need manually to remove identifying operation, manpower and time are saved, improve work efficiency.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.

Claims (8)

1. a 3D printer system, is characterized in that, comprises printer and integrated circuit identification label;

Described printer comprises stamp pad, printing head and integrated circuit identification label read write line;

Described stamp pad, for carrying printing objects, is arranged in X-axis-Y-axis plane and also can moves in Z-direction;

Described printing head, for spraying printed material, can move in X-direction and Y direction;

Described integrated circuit identification label read write line is for activating described integrated circuit identification label, described integrated circuit identification label being read to data and write data;

Described integrated circuit identification label is subsidiary in described printed material, for storing the attribute data of described printed material.

2. 3D printer system according to claim 1, is characterized in that, described integrated circuit identification label is wireless radio frequency identification mark, and described integrated circuit identification label read write line is wireless radio frequency identification reader-writer.

3. 3D printer system according to claim 2, it is characterized in that, described wireless radio frequency identification reader-writer comprises the first antenna, the first radio-frequency module and the first control treatment module, described first antenna is electrically connected with the first radio-frequency module, and described first radio-frequency module is electrically connected with the first control treatment module.

4. 3D printer system according to claim 3, it is characterized in that, described first radio-frequency module comprises the first radio-frequency oscillator, the first radio-frequency (RF) transmitter and the first radio frequency receiver, and described first radio-frequency (RF) transmitter and the first radio frequency receiver are electrically connected with described first radio-frequency oscillator respectively.

5. 3D printer system according to claim 2, is characterized in that, described wireless radio frequency identification mark is passive type wireless radio frequency identification mark.

6. 3D printer system according to claim 5, it is characterized in that, described wireless radio frequency identification mark comprises the second antenna, the second radio-frequency module, the second control treatment module and memory module, described second antenna is electrically connected with the second radio-frequency module, described second radio-frequency module and memory module are electrically connected with the second control treatment module respectively, and described memory module is for storing the attribute data of described printed material.

7. 3D printer system according to claim 6, is characterized in that, described memory module comprises permanent memory storer.

8. 3D printer system according to claim 2, is characterized in that, described printer also comprises display device, for showing the data read from described wireless radio frequency identification mark.