CN209359749U - Digital Three-Dimensional scanning generates school uniform version type equipment - Google Patents
Digital Three-Dimensional scanning generates school uniform version type equipment Download PDFInfo
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- CN209359749U CN209359749U CN201822274399.9U CN201822274399U CN209359749U CN 209359749 U CN209359749 U CN 209359749U CN 201822274399 U CN201822274399 U CN 201822274399U CN 209359749 U CN209359749 U CN 209359749U
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Abstract
It is scanned the utility model proposes a kind of Digital Three-Dimensional and generates school uniform version type equipment, it include: 3-D scanning image-forming assembly and clothes sample making component, 3-D scanning image-forming assembly includes column, spatial digitizer is slidably fitted on column, the figure of human body is scanned by spatial digitizer, clothing making parameter measurement is rapid;It includes: pedestal that template, which makes component, and station is equipped on pedestal, portal frame is slidably fitted on station, knife rest is equipped on portal frame, is equipped with cutter on knife rest;Cutter are moved in the X direction by mobile gantry frame, drive cutter to position in the Y direction by saddle;Stomata is provided on the operation panel of station, the exhaust fan of connection stomata is provided in station, cardboard is adsorbed on station by exhaust fan, operating cavity bottom is equipped with collecting paper scrap box, the outlet of connection suction ventilator is offered on collecting paper scrap box, shredded paper is drawn onto collecting paper scrap box, prevents clast from polluting operating area.
Description
Technical field
The utility model relates to clothes making apparatus technical fields, scan more particularly, to a kind of Digital Three-Dimensional and generate school
Take version type equipment.
Background technique
The processing of clothes is particular about and cuts the garment according to the figure, and school uniform are also such.School uniform ready-made clothes is produced to first have to according to wearer
Stature determine parameter, then by beating version, cutting, production, the whole processes such as press.Traditional amount body is using the side for manually taking tape measure
It is slow to measure efficiency processed for formula.
Secondly, pattern making is that clothes are resolved into garment piece on cardboard according to the intention of designer, it is depicted as structure chart,
Then according to structure chart produce template come.Cardboard is placed on fabric after verification, is cut into according to the profile of pattern
Garment piece, ready-made clothes template production component is made after garment piece is sewed can generate shredded paper, traditional clothes in cutting
Sample making component does not focus on the collection of shredded paper, and shredded paper is splashed to the aerial easy affected environment of pollution.
Utility model content
It is scanned the utility model proposes a kind of Digital Three-Dimensional and generates school uniform version type equipment, pass through 3-D scanning image-forming assembly
After scanning human somatotype, it is input in template production component again through designer's calibration, it is fast measures efficiency processed;And template
The plate-making for making component is accurate, fast and easy, and collecting paper scrap is convenient.
The technical solution of the utility model is achieved in that
Digital Three-Dimensional scanning generates school uniform version type equipment, comprising: 3-D scanning image-forming assembly and clothes sample making group
Part, the 3-D scanning image-forming assembly includes scanning platform, and column is equipped on the scanning platform, slides peace on the column
Equipped with the spatial digitizer driven by the 6th power device, the spatial digitizer is electrically connected printer;
Template production component includes: pedestal, is equipped with station on the pedestal, along X on the station
Axis is slidably fitted with portal frame driven by the first power plant, and the portal frame includes two vertical beams, pacifies between two vertical beams
Equipped with a crossbeam;The knife rest driven by the second power device is slidably fitted on the crossbeam along Y-axis, along Z axis on the knife rest
It is slidably fitted with the cutter driven by third power device;
The station includes station ontology, and operation panel is equipped on the station ontology, is set on the operation panel
Several stomatas are equipped with, the operating cavity for being connected to the stomata is provided in the station ontology, the operating cavity is connected by gas circuit
Logical exhaust fan;The operating cavity bottom is equipped with collecting paper scrap box, and going out for connection suction ventilator is offered on the collecting paper scrap box
Mouthful.
As an improvement mode, several air ducts are provided in the operating cavity, each air duct passes through gas circuit and connects
Lead to the exhaust fan, is mounted on a solenoid valve between each air duct and the exhaust fan.
As an improvement mode, the two sides of the station are respectively arranged with first sliding rail extended along the x axis,
Two first sliding rails pass through the sliding of the 4th power device drives edge Y-axis;The two vertical beam one-to-one correspondence are installed on described in two
In first sliding rail;First power device is the motor-driven third leadscrew-nut mechanism of third.
As an improvement mode, the 4th sliding rail is additionally provided on the crossbeam, two vertical beams are slidably mounted on described
In 4th sliding rail, the vertical beam lock cylinder for locking the vertical beam and crossbeam position, locking when institute are installed on the vertical beam
The piston rod for stating vertical beam lock cylinder is resisted against on the crossbeam;
The both ends of the station are separately installed with one the 5th sliding rail, and two first sliding rails are slidably mounted on described in two
Between 5th sliding rail;
4th power device is the second motor-driven second leadscrew-nut mechanism, is pacified on two first sliding rails
Equipped with a nut, two nuts it is oppositely oriented;Two nuts adapt on a lead screw.
As an improvement mode, it is slidably fitted with sliding block on the crossbeam, is rotatably equipped on the sliding block by the 5th
The turntable of power device driving, is equipped with the knife rest on the turntable.
As an improvement mode, the second sliding rail compatible with the sliding block is provided on the crossbeam;Described second
Power device is the 4th motor-driven 4th leadscrew-nut mechanism;
Third sliding rail compatible with the cutter is provided on the knife rest, the third power device is cutter
Drive cylinder;
5th power device is turntable driving motor.
As an improvement mode, the 6th power device is the first leadscrew-nut mechanism of first motor driving.
Using above-mentioned technical proposal, the utility model has the following beneficial effects:
School uniform version type equipment is generated since Digital Three-Dimensional scans, comprising: 3-D scanning image-forming assembly and template system
Make component, 3-D scanning image-forming assembly includes scanning platform, and column is equipped on scanning platform, is slidably fitted on column by
The spatial digitizer of six power devices driving, spatial digitizer are electrically connected printer, and the body of human body is scanned by spatial digitizer
Type, so that shape parameter be printed by printer, clothing making parameter measurement is rapid;Template makes component packet
Include: pedestal is equipped with station on pedestal, is slidably fitted with portal frame driven by the first power plant along X-axis on station,
Portal frame includes two vertical beams, is equipped with a crossbeam between two vertical beams;It is slidably fitted on crossbeam along Y-axis and is driven by the second power device
Dynamic knife rest is slidably fitted with the cutter driven by third power device along Z axis on knife rest;Make to cut by mobile gantry frame
Knife moves in the X direction, drives cutter to position in the Y direction by saddle;Station includes station ontology, operation
Operation panel is installed on playscript with stage directions body, several stomatas are provided on operation panel, the operation of connection stomata is provided in station ontology
Chamber, operating cavity are connected to exhaust fan by gas circuit, inhale the air in operating cavity by exhaust fan, the pressure in operating cavity is caused to become
Small, for the pressure outside operating cavity greatly to which cardboard to be adsorbed on station ontology, operating cavity bottom is equipped with collecting paper scrap box,
The outlet of connection suction ventilator is offered on collecting paper scrap box, is closed exhaust fan after the completion of cutting, is taken template and offal away, cuts
Shredded paper afterwards is dropped in collecting paper scrap box by stomata, and the clast after preventing cutting is splashed to operating area.
Due to being provided with several air ducts in operating cavity, each air duct is connected to exhaust fan, each air duct and pumping by gas circuit
It is mounted on a solenoid valve between blower, corresponding solenoid valve is opened according to the size of cardboard respectively, thus the gas needed for adjusting
The inspiratory capacity in hole reduces the energy consumption of exhaust fan.
Since the two sides of station are respectively arranged with first sliding rail extended along the x axis, two first sliding rails pass through
The sliding of 4th power device drives edge Y-axis;Two vertical beams one-to-one correspondence is installed in two first sliding rails;First power device is third
Motor-driven third leadscrew-nut mechanism is slided using third leadscrew-nut mechanism driving vertical beam in the first sliding rail, to drive
Driven portal frame moves along the x-axis in the first sliding rail.
Due to being additionally provided with the 4th sliding rail on crossbeam, two vertical beams are slidably mounted in the 4th sliding rail, are installed on vertical beam useful
The piston rod of vertical beam lock cylinder is resisted against on crossbeam when the vertical beam lock cylinder of locking vertical beam and crossbeam position, locking, from
And the distance between changeable two vertical beams;Since the both ends of station are separately installed with one the 5th sliding rail, two first sliding rails are sliding
It is dynamic to be installed between two the 5th sliding rails;4th power device is the second motor-driven second leadscrew-nut mechanism, and two first is sliding
It is mounted on a nut on rail, two nuts oppositely oriented simultaneously adapts on a lead screw, and it is sliding to pass through the second motor driven two first
Rail is towards or away from movement, and so as to shorten the stroke of knife rest, template is made more rapid.
Due to being slidably fitted with sliding block on crossbeam, it is rotatably equipped with the turntable driven by the 5th power device on sliding block, turns
Knife rest is installed on disk, after knife rest is moved to the side of crossbeam, rotation turntable prevents knife rest backlash to realize reverse cutting,
Improve the efficiency of sample making.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment
Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only
It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property
It puts, is also possible to obtain other drawings based on these drawings.
Fig. 1 is the structural schematic diagram of the utility model 3-D scanning image-forming assembly;
Fig. 2 is the structural schematic diagram that the utility model template makes component;
Fig. 3 is the top view in Fig. 2;
Fig. 4 is sectional view along A-A in Fig. 3;
Fig. 5 is the operation schematic diagram that cardboard is put into Fig. 3
Fig. 6 is the enlarged diagram in Fig. 4 at B;
Wherein: 1- 3-D scanning image-forming assembly, 2- template make component, 211- pedestal, 212- station, the gantry 3-
Frame, 4- vertical beam, 5- crossbeam, 6- knife rest, 7- cutter, 8- station ontology, 9- operation panel, 10- stomata, 11- operating cavity, 12-
Gas circuit, 13- exhaust fan, 14- scanning platform, 15- column, 16- collecting paper scrap box, 17- suction ventilator, the outlet 18-, 19- three-dimensional are swept
Retouch instrument, 20- air duct, 21- solenoid valve, the first sliding rail of 22-, 23- third motor, 24- third leadscrew-nut mechanism, the cunning of 25- the 4th
Rail, 26- vertical beam lock cylinder, the 5th sliding rail of 27-, the second motor of 28-, the second leadscrew-nut mechanism of 29-, 30- sliding block, 31- turn
Disk, 32- turntable driving motor, the second sliding rail of 33-, the 4th motor of 34-, the 4th leadscrew-nut mechanism of 35-, 36- third sliding rail,
37- cutter drive cylinder, 38- cardboard, 39- printer, 40- first motor, the first leadscrew-nut mechanism of 41-.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
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 embodiments of the present invention, those of ordinary skill in the art are without creative efforts
Every other embodiment obtained, fall within the protection scope of the utility model.
In the utility model, using the extending direction of cardboard 38 as X-axis, using the extending direction of electrostatic roller 14 as Y-axis, with vertical
Direction is Z axis.
As shown in Figure 1, the scanning of the utility model Digital Three-Dimensional generates school uniform version type equipment, comprising: 3-D scanning imaging
Component 1 and clothes sample making component 2,3-D scanning image-forming assembly 1 include scanning platform 14, are equipped on scanning platform 14 vertical
Column 15 is slidably fitted with the spatial digitizer 19 driven by the 6th power device on column 15, and spatial digitizer 19, which is electrically connected, to be taken
Print machine 39 scans the figure of human body by spatial digitizer 19, to shape parameter be printed by printer 39, clothes
Production parameter measurement rapidly, the height that prints, bust, waistline data since scanning process is there may be error, by
After designer calibrates data, then it is input in controller.Controller is preferably PLC controller.
Spatial digitizer 19 is preferably the model NanKe--3DS of Shenzhen south three-dimensional Science and Technology Ltd., section production
Photo taking type spatial digitizer;6th power device is preferably the first leadscrew-nut mechanism 41 that first motor 40 drives, and passes through silk
Thick stick nut body drive spatial digitizer 19 on column 15 vertical sliding be one of ordinary skill in the art known to,
This will not be repeated here.
As shown in Figure 2 and Figure 4, template production component 2 includes: pedestal 211, is equipped with station on pedestal 211
212, portal frame 3 driven by the first power plant is slidably fitted with along X-axis on station 212, portal frame 3 includes two vertical beams 4,
One crossbeam 5 is installed between two vertical beams 4;The knife rest 6 driven by the second power device, knife rest are slidably fitted on crossbeam 5 along Y-axis
The cutter 7 driven by third power device are slidably fitted on 6 along Z axis.
Station 212 includes station ontology 8, operation panel 9 is equipped on station ontology 8, if being provided on operation panel 9
Dry gas hole 10, the operating cavity 11 of connection stomata 10 is provided in station ontology 8, and operating cavity 11 is connected to exhaust fan by gas circuit 12
13;11 bottom of operating cavity is equipped with collecting paper scrap box 16, and the outlet 18 of connection suction ventilator 17 is offered on collecting paper scrap box 16, leads to
The air that exhaust fan 13 is inhaled in operating cavity 11 is crossed after the completion of cutting, to close so that cardboard 38 is adsorbed on station ontology 8
Exhaust fan 13 takes template and offal away, and the shredded paper after cutting is dropped in collecting paper scrap box 16 by stomata 10, prevents from cutting
Clast after cutting is splashed to operating area.
As shown in figure 4, being provided with several air ducts 20 in operating cavity 11, each air duct 20 is connected to exhaust fan by gas circuit 12
13, a solenoid valve 21 is mounted between each air duct 20 and exhaust fan 13.
As shown in Figure 2 and Figure 4, the two sides of station 212 are respectively arranged with first sliding rail 22 extended along the x axis,
Two first sliding rails 22 are slided by the 4th power device drives edge Y-axis;Two vertical beams 4 one-to-one correspondence is installed on two first sliding rails 22
It is interior;First power device is the third leadscrew-nut mechanism 24 that third motor 23 drives.
Vertical beam 4 is driven to slide in the first sliding rail 22 as one of ordinary skill in the art institute by leadscrew-nut mechanism
Well known, this will not be repeated here.
As shown in Fig. 2, being provided with the 4th sliding rail 25 on crossbeam 5, two vertical beams 4 are slidably mounted in the 4th sliding rail 25, vertical beam 4
On vertical beam lock cylinder 26 for locking 5 position of vertical beam 4 and crossbeam is installed, the piston rod of vertical beam lock cylinder supports when locking
It is against on crossbeam 5.
As shown in Figure 3 and Figure 5, the both ends of station 212 are separately installed with one the 5th sliding rail 27, and two first sliding rails 22 are sliding
It is dynamic to be installed between two the 5th sliding rails 27.
4th power device is the second leadscrew-nut mechanism 29 of the second motor 28 driving.
As shown in fig. 6, being slidably fitted with sliding block 30 on crossbeam 5, it is rotatably equipped on sliding block 30 and is driven by the 5th power device
Dynamic turntable 31, the 5th power device are preferably turntable driving motor 32, and knife rest 6 is equipped on turntable 31.
Second sliding rail 33 compatible with sliding block 30 is provided on crossbeam 5;Second power device is the driving of the 4th motor 34
The 4th leadscrew-nut mechanism 35.
It drives sliding block 30 to slide on the second sliding rail 33 by the 4th leadscrew-nut mechanism 35 and passes through third feed screw nut
Mechanism 24 drives the principle that move in the first sliding rail 22 of vertical beam 4 identical, for known to one of ordinary skill in the art,
This will not be repeated here.
Third sliding rail 36 compatible with cutter 7 is provided on knife rest 6, third power device is preferably cutter driving
Cylinder 37.
As shown in Figure 1 and Figure 5, when the utility model is used, human body station passes through spatial digitizer on scanning platform 14
The figure of 19 scanning human bodies, to shape parameter be printed by printer 39, height, bust, the waistline printed
Data are after designer calibrates, then are input in PLC controller.
The former material cardboard 38 for making template is placed on operation panel 9, the size of the cardboard 38 cut as needed, is opened
Corresponding solenoid valve 21, so that the stomata 10 of appropriate area be selected to carry out air-breathing.Then height, bust, waistline data are inputted
Into controller, the distance between two first sliding rails 22 are adjusted by the 4th power device, make between two first sliding rails 22 away from
From the size for adapting to cardboard 38, convenient for shortening the stroke of cutter 7.Driving electrostatic roller 14 to rotate while opening exhaust fan 13 makes paper
Plate 38 is attached on operation panel 9 under the action of suction;Then cutter 7 are moved in the X direction by mobile gantry frame 3, led to
Crossing saddle 6 drives cutter 7 to position cut in the Y direction.
Shredded paper after cutting is drawn into operating cavity 11 and is fallen in collecting paper scrap box 16 by stomata 10, opens suction ventilator
17, for shredded paper to be sucked out by outlet 18, the clast after preventing cutting is splashed to operating area.
6th power device driving spatial digitizer 19 moves up and down, and the portal frame 3 of the first power device driving is moved along X-axis
Dynamic, the second power device driving knife rest 6 moves on crossbeam 5, and the cutter 7 of third power device driving are vertically mobile real
It now cuts, the 4th power device drives two first sliding rails 22 to slide along Y-axis, and the 5th power device drives turntable 31 to rotate, vertical beam
Lock cylinder is used to lock the relative position of vertical beam 4 and crossbeam 5, and above-mentioned driving method passes through PLC controller control, PLC control
Device processed controls the movement of motor or cylinder to realize possessed function in the present embodiment, is the affiliated ordinary skill people in this field
Known to member.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this
Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model
Protection scope within.
Claims (7)
1. Digital Three-Dimensional scanning generates school uniform version type equipment characterized by comprising 3-D scanning image-forming assembly and clothes sample
Plate makes component, and the 3-D scanning image-forming assembly includes scanning platform, and column, the column are equipped on the scanning platform
On be slidably fitted with the spatial digitizer driven by the 6th power device, the spatial digitizer is electrically connected printer;
The template production component includes pedestal, and station is equipped on the pedestal, is slided on the station along X-axis
Portal frame driven by the first power plant is installed, the portal frame includes two vertical beams, is equipped with one between two vertical beams
Crossbeam;The knife rest driven by the second power device is slidably fitted on the crossbeam along Y-axis, slides and pacifies along Z axis on the knife rest
Equipped with the cutter driven by third power device;
The station includes station ontology, and operation panel is equipped on the station ontology, is provided on the operation panel
Several stomatas, the operating cavity for being connected to the stomata is provided in the station ontology, and the operating cavity passes through gas circuit connection and takes out
Blower;
The operating cavity bottom is equipped with collecting paper scrap box, and the outlet of connection suction ventilator is offered on the collecting paper scrap box.
2. Digital Three-Dimensional scanning as described in claim 1 generates school uniform version type equipment, which is characterized in that in the operating cavity
Several air ducts are provided with, each air duct passes through gas circuit and is connected to the exhaust fan, each air duct and the exhaust fan
Between be mounted on a solenoid valve.
3. Digital Three-Dimensional scanning as described in claim 1 generates school uniform version type equipment, which is characterized in that the station
Two sides are respectively arranged with first sliding rail extended along the x axis, and two first sliding rails pass through the driving of the 4th power device
It is slided along Y-axis;The two vertical beam one-to-one correspondence are installed in two first sliding rails;First power device is third motor
The third leadscrew-nut mechanism of driving.
4. Digital Three-Dimensional scanning as claimed in claim 3 generates school uniform version type equipment, which is characterized in that set on the crossbeam
It is equipped with the 4th sliding rail, two vertical beams are slidably mounted in the 4th sliding rail, are equipped on the vertical beam described for locking
The vertical beam lock cylinder of vertical beam and crossbeam position, when locking the piston rod of the vertical beam lock cylinder be resisted against on the crossbeam;
The both ends of the station are separately installed with one the 5th sliding rail, and two first sliding rails are slidably mounted on two the described 5th
Between sliding rail;
4th power device is the second motor-driven second leadscrew-nut mechanism, is mounted on two first sliding rails
One nut, two nuts it is oppositely oriented;Two nuts adapt on a lead screw.
5. Digital Three-Dimensional scanning as described in claim 1 generates school uniform version type equipment, which is characterized in that sliding on the crossbeam
It is dynamic that sliding block is installed, it is rotatably equipped with the turntable driven by the 5th power device on the sliding block, is installed on the turntable
State knife rest.
6. Digital Three-Dimensional scanning as claimed in claim 5 generates school uniform version type equipment, which is characterized in that set on the crossbeam
It is equipped with the second sliding rail compatible with the sliding block;Second power device is the 4th motor-driven 4th feed screw nut machine
Structure;
Third sliding rail compatible with the cutter is provided on the knife rest, the third power device is cutter driving
Cylinder;
5th power device is turntable driving motor.
7. Digital Three-Dimensional scanning as described in claim 1 generates school uniform version type equipment, which is characterized in that the 6th power
Device is the first leadscrew-nut mechanism of first motor driving.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201822274399.9U CN209359749U (en) | 2018-12-31 | 2018-12-31 | Digital Three-Dimensional scanning generates school uniform version type equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201822274399.9U CN209359749U (en) | 2018-12-31 | 2018-12-31 | Digital Three-Dimensional scanning generates school uniform version type equipment |
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Publication Number | Publication Date |
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CN209359749U true CN209359749U (en) | 2019-09-10 |
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ID=67828821
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CN201822274399.9U Active CN209359749U (en) | 2018-12-31 | 2018-12-31 | Digital Three-Dimensional scanning generates school uniform version type equipment |
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2018
- 2018-12-31 CN CN201822274399.9U patent/CN209359749U/en active Active
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