CN207232736U - A kind of long-range 3D printing system device - Google Patents
A kind of long-range 3D printing system device Download PDFInfo
- Publication number
- CN207232736U CN207232736U CN201721266995.1U CN201721266995U CN207232736U CN 207232736 U CN207232736 U CN 207232736U CN 201721266995 U CN201721266995 U CN 201721266995U CN 207232736 U CN207232736 U CN 207232736U
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- Prior art keywords
- long
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- mainframe
- belt
- remote monitoring
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Abstract
The utility model discloses a kind of long-range 3D printing system device of long-range 3D printing system engineering device technique field,The long-range 3D printing system of the utility model is carried by setting sensor unit at the scene,Camera,Remote monitoring PLC,It can realize by remote monitoring PLC collection sensor signals and pass to host computer,And by camera collection site video and pass to host computer,Host computer is handled and analyzed to the information and video of collection,And by network-feedback to long-range teaching host,Long-range teaching host can be by manually carrying out accident analysis and judgement,And provide suggestion solution method,Guide maintenance works,It can also impart knowledge to students to scene,Realize remote monitoring,Remote guide repairs,The function of remote teaching,Enrich the solution method of teaching plan and everyday problem,Gradually realize self training of technical staff,So as to reduce maintenance cost,Improve the quality of teaching.
Description
Technical field
Long-range 3D printing system engineering device technique field is the utility model is related to, is specially a kind of long-range 3D printing system dress
Put.
Background technology
3D printing technique is applied to the field such as industrial design, digital product die sinking, and a mill can be completed within a few hours
The printing of tool, has saved many products to the development time in market.The unspecial teaching of present 3D printing technique teaching
3D printing technique is instructed in region, so needing technical staff specially to visit guidance, efficiency of teaching is slow, of high cost, cause 3D to beat
Print technology popularity is slow, so needing to meet the training requirement to laser machining relevant speciality technical staff, it can be achieved that remote
Cheng Peixun.
Utility model content
The purpose of this utility model is to provide a kind of long-range 3D printing system device, to solve to carry in above-mentioned background technology
What is gone out can not realize the problem of remotely being giveed training to Laser Processing relevant speciality technology.
To achieve the above object, the utility model provides following technical solution:A kind of long-range 3D printing system device, including
Mainframe, the front surface of the mainframe are hinged with protective cover, and the intracavity bottom of the mainframe is provided with operation display panel,
Main control power supply is installed in the outer right wall of the mainframe, material hanging device is installed on rear side of the inner wall of the mainframe, institute
State and Z axis motor and belt are installed in the inner cavity of mainframe, be sequentially connected with workbench on the Z axis motor and belt, institute
The inner cavity top for stating mainframe is provided with LED illumination lamp, and y-axis motor and skin are mounted at left and right sides of the inner cavity of the mainframe
Band, is provided with X-axis motor and belt described in both sides, the Z axis motor and belt are located at X-axis motor between y-axis motor and belt
And the downside of belt, Z axis printhead is sequentially connected with the X-axis motor and belt, is provided with the top of the Z axis printhead
Passage, is provided with remote monitoring PLC in the inner cavity of the mainframe, the operation display panel respectively with X-axis motor and skin
Band, Z axis printhead and y-axis motor and belt are electrically connected, and vibrating sensor, the master are provided with the top of the workbench
The upper left and right sides is separately installed with temperature sensor and photosensitive sensor, the right side of the Z axis printhead on rear side of the inner wall of rack
Air quality sensor is installed, electrically output is connected with DC power supply switch, camera, exchange to the main control power supply respectively
Machine and enterprise's pole route, electrically output is connected with probe power and remote monitoring PLC power supplys to the DC power supply switch respectively,
Electrically output is connected with vibrating sensor, temperature sensor, photosensitive sensor and air quality biography to the probe power respectively
Sensor, electrically output is connected with remote monitoring PLC, the remote monitoring PLC electrically input respectively to the remote monitoring PLC power supplys
Vibrating sensor, temperature sensor, photosensitive sensor and air quality sensor are connected with, the camera electrically exports connection
Interchanger, the interchanger electrically export connection enterprise pole route, and the enterprise pole route is electrically at output connection field data
Host is managed, the field data processing host is electrically bi-directionally connected remote monitoring PLC, and the field data processing host is electric respectively
Property be bi-directionally connected wireless communication module and cloud service database, the wireless communication module is electrically bi-directionally connected long-range teaching master
Machine, the long-range teaching host are electrically bi-directionally connected cloud service database, and the field data processing host is electrically bi-directionally connected
Fault message storage chip.
Preferably, the probe power is 12V probe powers, and the remote monitoring PLC power supplys are remotely supervised for 24V
Control PLC power supplys.
Preferably, radiator fan is installed, and the temperature sensor is installed on radiator fan on rear side of the mainframe
Bottom.
Preferably, External memory equipment USB data interface is installed on rear side of the mainframe.
Compared with prior art, the beneficial effects of the utility model are:The long-range 3D printing system of the utility model, which carries, to be passed through
Sensor unit, camera, remote monitoring PLC are set at the scene, and remote diagnosis platform is set in distal end, it is possible to achieve is logical
Cross remote monitoring PLC collection sensor signals and pass to host computer, and by camera collection site video and transmit
To host computer, host computer is handled and analyzed to the information and video of collection, and by network-feedback to long-range religion
Host is led, it is long-range to instruct host be by manually carrying out accident analysis and judgement, and suggestion solution method, guide maintenance work are provided
Make, can also impart knowledge to students to scene, realize remote monitoring, remote guide maintenance, the function of remote teaching, and will impart knowledge to students into cross and
Fault solution is stored in cloud service database, is enriched the solution method of teaching plan and everyday problem, is gradually realized skill
Self training of art personnel, so as to reduce maintenance cost, improves the quality of teaching.
Brief description of the drawings
Fig. 1 is the utility model structure diagram;
Fig. 2 is Tthe utility model system functional block diagram.
In figure:1 mainframe, 2 operation display panels, 3 main control power supplys, 4 material hanging devices, 5X spindle motors and belt, 6Z axis
Printhead, 7 passages, 8LED headlamps, 9 workbenches, 10Y spindle motors and belt, 11 protective covers, 12Z spindle motors and belt,
13 remote monitoring PLC, 14 vibrating sensors, 15 temperature sensors, 16 photosensitive sensors, 17 air quality sensors, 18 direct currents
Power switch, 19 probe powers, 20 remote monitoring PLC power supplys, 21 cameras, 22 interchangers, 23 enterprise's pole routes, 24 scenes
Information processing host, 25 wireless communication modules, 26 long-range teaching hosts, 27 cloud service databases, 28 fault message storage chips.
Embodiment
The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are without making creative work
All other embodiments obtained, shall fall within the protection scope of the present invention.
- 2 are please referred to Fig.1, the utility model provides a kind of technical solution:A kind of long-range 3D printing system device, including master
Rack 1, the front surface of the mainframe 1 are hinged with protective cover 11, and the intracavity bottom of the mainframe 1 is provided with operation display surface
Plate 2, main control power supply 3 is provided with the outer right wall of the mainframe 1, bridging is provided with rear side of the inner wall of the mainframe 1
Device 4, is provided with Z axis motor and belt 12 in the inner cavity of the mainframe 1, is sequentially connected on the Z axis motor and belt 12
There is workbench 9, the inner cavity top of the mainframe 1 is provided with LED illumination lamp 8, and the inner cavity left and right sides of the mainframe 1 is
Y-axis motor and belt 10 are installed, X-axis motor and belt 5, the Z axis are installed described in both sides between y-axis motor and belt 10
Motor and belt 12 are located at the downside of X-axis motor and belt 5, and Z axis printhead is sequentially connected with the X-axis motor and belt 5
6, the top of the Z axis printhead 6 is provided with passage 7, and remote monitoring PLC13, institute are provided with the inner cavity of the mainframe 1
Operation display panel 2 is stated to be electrically connected with X-axis motor and belt 5, Z axis printhead 6 and y-axis motor and belt 10 respectively, it is described
The top of workbench 9 is provided with vibrating sensor 14, and the upper left and right sides is separately installed with temperature on rear side of the inner wall of the mainframe 1
Degree sensor 15 and photosensitive sensor 16, the right side of the Z axis printhead 6 are provided with air quality sensor 17, the master control
Electrically output is connected with DC power supply switch 18, camera 21, interchanger 22 and enterprise's pole route 23 to power supply 3 processed respectively, described
Electrically output is connected with probe power 19 and remote monitoring PLC power supplys 20, the sensor electricity to DC power supply switch 18 respectively
Electrically output is connected with vibrating sensor 14, temperature sensor 15, photosensitive sensor 16 and air quality sensor respectively in source 19
17, electrically output is connected with remote monitoring PLC13 to the remote monitoring PLC power supplys 20, and the remote monitoring PLC13 difference is electrical
Input is connected with vibrating sensor 14, temperature sensor 15, photosensitive sensor 16 and air quality sensor 17, the camera
21 electrically export connection interchanger 22, and electrically output connection enterprise pole route 23 to the interchanger 22, the enterprise pole route 23
Electrically output connection field data processing host 24, the field data processing host 24 are electrically bi-directionally connected remote monitoring
PLC13, the field data processing host 24 are electrically bi-directionally connected wireless communication module 25 and cloud service database 27, institute respectively
State wireless communication module 25 and be electrically bi-directionally connected long-range teaching host 26, the long-range teaching host 26 is electrically bi-directionally connected cloud clothes
Business database 27, the field data processing host 24 are electrically bi-directionally connected fault message storage chip 28.
Wherein:The probe power 19 is 12V probe powers, and the remote monitoring PLC power supplys 20 are long-range for 24V
PLC power supplys are monitored, multiple sensors and the work of remote monitoring PLC13 is fully driven, avoids operating voltage unstable, the master
The rear side of rack 1 is provided with radiator fan, and the temperature sensor 15 is installed on the bottom of radiator fan, and the convenient 3D that detects is beaten
Heat dissipation effect is detected during print, the rear side of the mainframe 1 is provided with External memory equipment USB data interface, realizes 3D
Modeling data controls the work of 3D printer.
Operation principle:The utility model controls X-axis motor and belt 5, y-axis motor and belt 10 by main control power supply 3
3D printing is realized with Z axis printhead 6, is then all recorded process by camera 21, is then passed by vibrating
Sensor 14 detects the stability of workbench 9, and heat dissipation data during work are detected by temperature sensor 15, pass through light sensor
Device 16 detects whether electric wire occurs that breakage causes electric spark occur to cause security risk, is detected by air quality sensor 17
Whether dust output during printing is normal, after these data handle the processing of host 24 by remote monitoring PLC13 and field data,
It is sent to by wireless communication module 25 on long-range teaching host 26, then teacher is by remotely instructing host 26 to observe these numbers
According to the institute to field data processing host 24 end instructed how handling failure situation, in processing procedure, camera 21
By the situation of chance failure, teacher instruct process and it is final how solution to the problem is all recorded, by by video
Signal is converted to electric signal and is delivered to from interchanger 22 and enterprise's pole route 23 in field data processing host 24, at field data
Video is carried out physical storage by reason host 24 in fault message storage chip 28, and video is uploaded to cloud service database 27
In preserved, can be by being consulted from cloud service database 27 when there is student's study in the later stage, and teacher can be assisted
Understand other people process experience, conveniently improve the quality of teaching, gradually realize technical staff self training so that reduce maintenance into
This, improves the quality of teaching, the utility model by the ray machine electric-control system of long-range 3D printing system by making open maintenance
Training platform, can meet the fostering requirement of assembling one line technology personnel of maintenance, the needs of fusion production and technical training, set
The requirement of the assembling and setting hands-on of long-range 3D printing system, it is finally comprehensive at this using modularization, open mentality of designing
Close the high in the clouds monitoring that long-range 3D printing system is realized on experience system, the processing of big data, numerical control module, assembling, maintenance, behaviour
Make, processing training.
While there has been shown and described that the embodiment of the utility model, for the ordinary skill in the art,
It is appreciated that these embodiments can be carried out with a variety of changes in the case where not departing from the principle of the utility model and spirit, repaiied
Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.
Claims (4)
1. a kind of long-range 3D printing system device, including mainframe (1), it is characterised in that:The front surface hinge of the mainframe (1)
Protective cover (11) is connected to, the intracavity bottom of the mainframe (1) is provided with operation display panel (2), the right side of the mainframe (1)
Main control power supply (3) is installed on the outer wall of side, material hanging device (4), the host are installed on rear side of the inner wall of the mainframe (1)
Z axis motor and belt (12) are installed, being sequentially connected with work on the Z axis motor and belt (12) puts down in the inner cavity of frame (1)
Platform (9), the inner cavity top of the mainframe (1) are provided with LED illumination lamp (8), and the inner cavity left and right sides of the mainframe (1) is
Y-axis motor and belt (10) are installed, X-axis motor and belt (5) are installed between y-axis motor described in both sides and belt (10),
The Z axis motor and belt (12) are located at the downside of X-axis motor and belt (5), the company of transmission on the X-axis motor and belt (5)
Z axis printhead (6) is connected to, passage (7) is installed at the top of the Z axis printhead (6), in the inner cavity of the mainframe (1)
Remote monitoring PLC (13) is installed, the operation display panel (2) respectively with X-axis motor and belt (5), Z axis printhead (6)
It is electrically connected with y-axis motor and belt (10), vibrating sensor (14), the master is installed at the top of the workbench (9)
The upper left and right sides is separately installed with temperature sensor (15) and photosensitive sensor (16) on rear side of the inner wall of rack (1), and the Z axis is beaten
Air quality sensor (17) is installed, electrically output is connected with direct current to the main control power supply (3) respectively on the right side of print head (6)
Power switch (18), camera (21), interchanger (22) and enterprise's pole route (23), the DC power supply switch (18) are electric respectively
Property output be connected with probe power (19) and remote monitoring PLC power supplys (20), the probe power (19) is electrical defeated respectively
Go out to be connected with vibrating sensor (14), temperature sensor (15), photosensitive sensor (16) and air quality sensor (17), it is described
Electrically output is connected with remote monitoring PLC (13) to remote monitoring PLC power supplys (20), and the remote monitoring PLC (13) is electrical respectively
Input is connected with vibrating sensor (14), temperature sensor (15), photosensitive sensor (16) and air quality sensor (17), institute
Camera (21) electrically output connection interchanger (22) is stated, the interchanger (22) electrically exports connection enterprise pole route (23),
Electrically output connection field data handles host (24), field data processing host (24) electricity to the enterprise pole route (23)
Property be bi-directionally connected remote monitoring PLC (13), the field data processing host (24) is electrically bi-directionally connected wireless telecommunications mould respectively
Block (25) and cloud service database (27), the wireless communication module (25) are electrically bi-directionally connected long-range teaching host (26), institute
State long-range teaching host (26) and be electrically bi-directionally connected cloud service database (27), the field data processing host (24) is electrically double
To connecting fault information storage chip (28).
A kind of 2. long-range 3D printing system device according to claim 1, it is characterised in that:The probe power (19)
For 12V probe powers, and the remote monitoring PLC power supplys (20) are 24V remote monitoring PLC power supplys.
A kind of 3. long-range 3D printing system device according to claim 1, it is characterised in that:After the mainframe (1)
Side is provided with radiator fan, and the temperature sensor (15) is installed on the bottom of radiator fan.
A kind of 4. long-range 3D printing system device according to claim 1, it is characterised in that:After the mainframe (1)
Side is provided with External memory equipment USB data interface.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721266995.1U CN207232736U (en) | 2017-09-29 | 2017-09-29 | A kind of long-range 3D printing system device |
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CN201721266995.1U CN207232736U (en) | 2017-09-29 | 2017-09-29 | A kind of long-range 3D printing system device |
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Publication Number | Publication Date |
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CN207232736U true CN207232736U (en) | 2018-04-13 |
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ID=61849979
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CN201721266995.1U Expired - Fee Related CN207232736U (en) | 2017-09-29 | 2017-09-29 | A kind of long-range 3D printing system device |
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CN (1) | CN207232736U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113397194A (en) * | 2021-06-30 | 2021-09-17 | 界首市好味来食品有限公司 | Remote DIY dessert manufacturing platform based on 5G technology |
-
2017
- 2017-09-29 CN CN201721266995.1U patent/CN207232736U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113397194A (en) * | 2021-06-30 | 2021-09-17 | 界首市好味来食品有限公司 | Remote DIY dessert manufacturing platform based on 5G technology |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180413 Termination date: 20200929 |
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CF01 | Termination of patent right due to non-payment of annual fee |