CN207172759U - A kind of vehicular builds 3D printing equipment - Google Patents
A kind of vehicular builds 3D printing equipment Download PDFInfo
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- CN207172759U CN207172759U CN201720907358.1U CN201720907358U CN207172759U CN 207172759 U CN207172759 U CN 207172759U CN 201720907358 U CN201720907358 U CN 201720907358U CN 207172759 U CN207172759 U CN 207172759U
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- telescopic
- track
- vehicular
- crossbeam
- roof beam
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Abstract
The utility model discloses a kind of vehicular to build 3D printing equipment, including mixed in transit system and a pair of vertical telescopic columns, telescopic crossbeam is installed between described vertical telescopic column, the telescopic material extrusion printhead that can be slided along telescopic crossbeam is equipped with telescopic crossbeam, and telescopic crossbeam can rotate relative to vertical telescopic column;The first slide rail is provided with described mixed in transit system, in a pair of described vertical telescopic columns, the bottom of one of vertical telescopic column is assemblied on the first described slide rail, the bottom of another vertical telescopic column is assemblied on a laterally folded track, and chassis power set are provided with the bottom of laterally folded track.The utility model uses vehicular structure and modularized design, conevying efficiency and the space of print system is improved, so as to save construction cost.
Description
Technical field
It the utility model is related to a kind of print system, and in particular to a kind of vehicular builds 3D printing equipment.
Background technology
3D is printed, also known as increases material manufacturing technology, it be one kind based on mathematical model file, with can jointing material,
Come the technology of constructed object by way of successively printing.It has become a kind of trend, is especially obtained in industrial design field
Extensive use.It is ripe day by day to be currently based on the rapid shaping technique of computer control, in the different countries and regions 3D in the whole world
Printing technique also begins to occur and paid close attention in building field.
Existing large-scale 3D printing equipment, all it is fixed frame rack and panel construction, because space is big, transport inconvenience, so as to
Influence to use.
Utility model content
For above-mentioned problems of the prior art, the purpose of this utility model is, there is provided a kind of vehicular building
3D printing equipment, transported using overall folding, improve conevying efficiency and the space of print system, be constructed into so as to save
This.
The technical solution of the utility model
In order to realize above-mentioned task, the utility model uses following technical scheme:
A kind of vehicular builds 3D printing equipment, it is characterised in that is stood including mixed in transit system and a pair of vertical telescopics
Post, telescopic crossbeam is installed between described vertical telescopic column, being equipped with telescopic crossbeam can slide along telescopic crossbeam
Dynamic telescopic material extrusion printhead, and telescopic crossbeam can rotate relative to vertical telescopic column;Described mixed in transit system
In be provided with the first slide rail, in a pair of described vertical telescopic columns, the bottom of one of vertical telescopic column is assemblied in institute
On the first slide rail stated, the bottom of another vertical telescopic column is assemblied on a laterally folded track, in laterally folded rail
The bottom in road is provided with chassis power set.
Further, described mixed in transit system includes transport vehicle, and agitating device and multiple is provided with transport vehicle
Material storage tank, material storage tank connect agitating device by tripper;It is provided with described agitating device telescopic defeated
Expects pipe, the first described slide rail are located at the side of agitating device.
Further, described laterally folded track includes the track frame of multiple movable connections, wherein adjacent track
The end face of frame is the inclined-plane to cooperate, and is provided with mounting groove in the end face of each track frame;Described adjacent track
Connected between frame by the first hydraulic means and the second hydraulic means, wherein the first hydraulic means is arranged on adjacent track frame
Side, the second hydraulic means are located in the mounting groove of adjacent track frame end face;The 3rd slide rail is provided with described track frame,
After described laterally folded track expansion, the 3rd slide rail in all track frames is located on the same line.
Further, the bottom of described track frame is provided with pin support.
Further, described telescopic crossbeam includes roof beam structure, track plates and built-in two-way point that multilayer is set with successively
Level oil cylinder, the upper surface of each roof beam structure offer groove, and the cross section for making each roof beam structure is " recessed " shape structure;Described is each
The end of the groove of roof beam structure is hinged with track plates, and the second slide rail is provided with track plates;The end of described each roof beam structure is equal
It is provided with track support frame;The classification oil cylinder both ends are fixed on the top of roof beam structure two, and the flexible of crossbeam is realized by hydraulically extensible.
Further, in the roof beam structure that described multilayer is set with successively, each layer of roof beam structure can be relative to last layer roof beam structure
Slide axially;Coordinated between described roof beam structure by interior projection and internal chute.
Further, described telescopic material extrusion printhead includes material storing box, is provided with material storing box and does not connect with material storing box
Logical cunning chamber, slide and be provided with rail slider in the side wall of chamber;The lower end of described material storing box, which is passed through, is connected with telescopic multi-stage hollow pipe;
Spiral propeller is wherein provided with first order hollow pipe, spiral propeller is driven by the motor in sliding chamber;It is flexible
Formula multi-stage hollow pipe improves flexible power by two-stage hydraulic pump.
Further, blanking channel is formed between described material storing box and sliding chamber, the internal diameter of blanking channel is along close to flexible
The direction of formula multi-stage hollow pipe reduces.
Further, described chassis power set include support chassis, and the bottom of support chassis is provided with wheel, driving
Mechanism and hydraulic pressure support actuator;Support chassis is connected by rotary turnplate with the bottom of described laterally folded track.
The utility model beneficial effect:
A kind of vehicular building 3D printing equipment provided by the utility model, its is rational in infrastructure, has the advantages that:
(1)The utility model uses vehicular structure and modularized design, be easy to build 3D printing during transport, group
Dress, maintenance and operation so that 3D printing system preferably can be applied in building trade;
(2)It is in the utility model to use folding design structure so that each part can take less in transport more
Space, so as to improve the conevying efficiency of print system, and scalability is good.
Brief description of the drawings
By the detailed description made in conjunction with the following drawings, above-mentioned advantage of the present utility model will be apparent and more hold
Readily understood, these accompanying drawings are simply schematical, are not intended to limit the utility model, wherein:
Fig. 1 is overall structure diagram when the utility model is in travel position.
Fig. 2 is overall structure diagram when the utility model is in running order.
Fig. 3 is the structural representation of mating part between two track frames adjacent in laterally folded track.
Fig. 4 is structural representation of the telescopic crossbeam during expansion.
Fig. 5 is the structural representation after the expansion of telescopic crossbeam.
Fig. 6 is longitudinal schematic cross-sectional view of telescopic material extrusion printhead.
Fig. 7 is the laying structure figure of telescopic crossbeam internal classification oil cylinder.
In accompanying drawing, the part representated by each label is as follows:
1-laterally folded track, 1.1-track frame, the 1.2-the first hydraulic means, the 1.3-the second hydraulic means, 1.4-
Pin supports, 1.5-mounting groove, the 1.6-the three slide rail, 1.7-inclined-plane, 2-vertical telescopic column, 3-telescopic crossbeam,
3.1-roof beam structure, 3.2-track plates, the 3.3-the second slide rail, 3.4-interior projection, 3.5-internal chute, 3.6-track support frame,
4-telescopic material extrusion printhead, 4.1-material storing box, 4.2-rail slider, 4.3-telescopic multi-stage hollow pipe, 4.4-spiral
Propeller, 4.5-motor, 4.6-cunning chamber, 4.7-two-stage hydraulic pump, 5-mixed in transit system, 5.1-conveying pipeline, 5.2-
Material storage tank, 5.3-tripper, 5.4-agitating device, 5.5-transport vehicle, the 5.6-the first slide rail, 6-chassis power dress
Put.
Embodiment
With reference to specific embodiments and the drawings pair, a kind of vehicular building 3D printing equipment of the present utility model carries out detailed
Describe in detail bright.
The embodiment recorded herein is specific embodiment of the present utility model, of the present utility model for illustrating
Design, is explanatory and exemplary, should not be construed as the limit to the utility model embodiment and the scope of the utility model
System.In addition to the embodiment recorded herein, those skilled in the art can also be based on the application claims and specification institute is public
The content opened includes doing using the embodiment to recording herein using obvious other technical schemes, these technical schemes
Go out the technical scheme of any obvious substitutions and modifications.
The accompanying drawing of this specification is schematic diagram, aids in illustrating design of the present utility model, it is schematically indicated each several part
Shape and its correlation.It note that for the ease of clearly showing the structure of each part of the utility model embodiment, phase
Same reference marker is used to represent identical part.
As shown in Figures 1 to 7, the utility model discloses a kind of vehicular to build 3D printing equipment, including mixed in transit
System 5 and a pair of vertical telescopic columns 2, telescopic crossbeam 3, telescopic crossbeam 3 are installed between described vertical telescopic column 2
On be equipped with the telescopic material extrusion printhead 4 that can be slided along telescopic crossbeam 3, and telescopic crossbeam 3 can be relative to vertical telescopic
Column 2 rotates;It is provided with the first slide rail 5.6 in described mixed in transit system 5, in a pair of described vertical telescopic columns 2, its
In the bottom of a vertical telescopic column 2 be assemblied on the first described slide rail 5.6, the bottom of another vertical telescopic column 2
It is assemblied on a laterally folded track 1, chassis power set 6 is installed in the bottom of laterally folded track 1.
In this programme, laterally folded track 1 includes the track frame 1.1 of multiple movable connections, wherein adjacent track frame
1.1 end face is the inclined-plane 1.7 to cooperate, and the inclined-plane 1.7 of mutual cooperation refers to that the end face of adjacent track frame 1.1 can be mutually
Split, it is generally aligned in the same plane the upper surface of track frame 1.1;As shown in figure 3, it is provided with the end face of each track frame 1.1
Mounting groove 1.5;Connected between described adjacent track frame 1.1 by the first hydraulic means 1.2 and the second hydraulic means 1.3,
Wherein the first hydraulic means 1.2 is arranged on the side of adjacent track frame 1.1, and the second hydraulic means 1.3 is located at adjacent track
In the mounting groove 1.5 of the end face of frame 1.1;The 3rd slide rail 1.6 is provided with described track frame 1.1, when described laterally folded rail
After road 1 deploys, the 3rd slide rail 1.6 in all track frames 1.1 is located on the same line.Here expansion refers to by
One hydraulic means 1.2 and the second hydraulic means 1.3 cause all track frames 1.1 to be located on the same line, now each track
The mutual split in end of the 3rd slide rail 1.6 on frame 1.1.In the example that Fig. 2 and Fig. 3 are provided, each laterally folded track 1 by
5 sections of track frames 1.1 are formed, and after laterally folded track 1 is packed up, folded portion is located at the both sides of vertical telescopic column 2, such as Fig. 1
It is shown.The bottom of track frame 1.1 is provided with pin support 1.4, for the whole laterally folded track 1 of Auxiliary support.
Laterally folded track 1 sets one, for supporting one of vertical telescopic column 2;And another vertical telescopic
The bottom of column 2 is assemblied on the first slide rail 5.6 of mixed in transit system 5, what the bottom of vertical telescopic column 2 can be after deployment
Moved on the 3rd slide rail 1.6 and the first slide rail 5.6 of laterally folded track 1, so as to drive telescopic crossbeam 3 and it is telescopic squeeze
Material printhead 4 moves.
The outer cross section of vertical telescopic column 2 is elliptic cylinder, realizes that column stretches step by step by column internal hydraulic system, is adjusted
The height of whole telescopic crossbeam 3.The bottom of vertical telescopic column 2 is assemblied in described the first slide rail 5.6 and the 3rd slide rail 1.6
On, under drive device, such as the driving of motor, it can be moved along two described slide rails, to drive telescopic material extrusion to print
First 4 adjustment position;And during telescopic material extrusion printhead 4 is laterally adjusted, it can also be adjusted by vertical telescopic column 2
The height of printhead, lengthwise position of the printhead on telescopic crossbeam 3 can be also adjusted, so that printhead can be located at space
Central diverse location, to complete 3D printing process.
As shown in Figure 4 and Figure 5, telescopic crossbeam 3 includes roof beam structure 3.1, track plates 3.2 that multilayer is set with successively and built-in double
To classification oil cylinder 3.7, suit here refers to be located at another layer using nested form, one layer of roof beam structure 3.1 between roof beam structure 3.1
It is internal;The upper surface of each roof beam structure 3.1 offers groove, and the cross section for making each roof beam structure 3.1 is " recessed " shape structure;Described
The end of the groove of each roof beam structure 3.1 is hinged with track plates 3.2, and the second slide rail 3.3 is provided with track plates 3.2;Described
The end of each roof beam structure 3.1 is provided with track support frame 3.6;Classification oil cylinder 3.7 both ends are fixed on 3.1 liang of tops of roof beam structure
End, the flexible of crossbeam is realized by hydraulically extensible.Specifically, in the roof beam structure 3.1 that described multilayer is set with successively, each layer of roof beam structure
3.1 can slide axially relative to last layer roof beam structure 3.1;Pass through interior projection 3.4 and internal chute between described roof beam structure 3.1
3.5 are coordinated, as shown in figure 4, interior projection 3.4 is located on the inwall of outer layer roof beam structure 3.1, and in the outer wall of internal layer roof beam structure 3.1
On offer the internal chute 3.5 coordinated with interior projection 3.4, can be with relative displacement between such two layers of roof beam structure 3.1.
Fig. 5 is the deployed configuration schematic diagram of telescopic crossbeam 3, and expansion process is as shown in Figure 4.When telescopic crossbeam 3 deploys
When, first track plates 3.2 are rotated relative to roof beam structure 3.1, then extract the roof beam structure 3.1 of inside out step by step, will after roof beam structure 3.1 is extracted out
Track plates 3.2 on each roof beam structure 3.1 are put down, and the end of track plates 3.2 is supported on the end of 3.2 place roof beam structure of track plates 3.1
On the track support frame 3.6 that portion is set, make track plates 3.2 parallel with roof beam structure 3.1, the docking of all ends of track plates 3.2 and position
In same plane, such printhead can be slided smoothly in orbit.Telescopic crossbeam 3 is internally provided with hydraulic system, is
The flexible offer power of crossbeam;As shown in fig. 7, in the present embodiment, hydraulic system specifically using classification oil cylinder 3.7, is classified oil cylinder
3.7 are arranged on the inside of telescopic crossbeam 3, and the both ends for being classified the both ends of oil cylinder 3.7 and crossbeam are fixed, by being classified oil cylinder 3.7
It is flexible, realize the change of crossbeam entirety length.In this programme, the driving part for being classified oil cylinder 3.7 is located at two in middle part, expansion link
End, this both ends are thin, middle thick cylinder structure, the characteristics of can making up small crossbeam interlude section, insufficient rigidity.
As shown in fig. 6, telescopic material extrusion printhead 4 includes material storing box 4.1, it is provided with and material storing box 4.1 in material storing box 4.1
Disconnected sliding chamber 4.6, slide and be provided with rail slider 4.2 in the side wall of chamber 4.6;When printhead is installed, make to slide chamber 4.6 and pass through to stretch
Contracting formula crossbeam 3, and rail slider 4.2 is coordinated with the second described slide rail 3.3;The lower end of described material storing box 4.1, which is passed through, to be connected with
Telescopic multi-stage hollow pipe 4.3;Wherein in the first order(The one-level being connected with material storing box 4.1)Screw propulsion is provided with hollow pipe
Device 4.4, spiral propeller 4.4 are driven by the motor 4.5 in sliding chamber 4.6;Telescopic multi-stage hollow pipe 4.3 is by two-stage liquid
Press pump 4.7 improves flexible power, and one of two-stage hydraulic pump 4.7 is embedded on telescopic material extrusion printhead 4, another two-stage
Hydraulic pump 4.7 is placed on telescopic material extrusion printhead 4.
Blanking channel is formed between material storing box 4.1 and sliding chamber 4.6, the internal diameter of blanking channel is hollow along close telescopic multi-stage
The direction of pipe 4.3 reduces;Printed material is entered in first order hollow pipe by the lower end of material storing box 4.1, in spiral propeller 4.4
Printed material is extruded downwards under effect.Drive device is installed on telescopic material extrusion printhead 4, to drive printhead flexible
Moved on formula crossbeam 3.
As depicted in figs. 1 and 2, chassis power set 6 include support chassis, and the bottom of support chassis is provided with wheel, driven
Motivation structure and hydraulic pressure support actuator;Support chassis is connected by rotary turnplate with the bottom of described laterally folded track 1.
Chassis power set 6 are arranged on the lower end in the laterally folded stage casing of track 1, described rotary turnplate are controlled by console, with reality
Show rotation of the chassis power set 6 relative to laterally folded track 1, so as to realize deflecting function;Wheel passes through drive mechanism, example
Such as diesel engine drives, to realize the movement of chassis power set 6.After all stretching structures determine to position, pass through hydraulic pressure
Actuator is supported, whole system is lifted, makes wheel lift, is fixed with the superstructure to chassis power set 6;It is and another
The structure of outer side, then after being fixed in the position of mixed in transit system 5, its position is also relatively fixed.
As depicted in figs. 1 and 2, the mixed in transit system 5 in the utility model, it is collection printed material production-transport-movement
The integrated system that conveying-printing is integrated.In transport, all parts can be integrated in mixed in transit system 5 present apparatus, such as be schemed
Shown in 1.And when in use, then one of vertical telescopic column 2 and the laterally folded track 1 of its underpart, chassis power set 6
Deng, rotating with by way of hydraulically extensible, unloaded from mixed in transit system 5, chassis power set 6 is located at ground, and
Deploy laterally folded track 1 so that two vertical telescopic columns 2 can move up in the first slide rail 5.6 and the 3rd slide rail 1.6 respectively
It is dynamic, now by mixed in transit system 5 and the synchronizing moving of chassis power set 6, package unit can be made to be moved along Print direction;
At the same time, mixed in transit system 5 also takes on the task to telescopic material extrusion printhead 4 conveying printed material.
Mixed in transit system 5 includes transport vehicle 5.5, is provided with agitating device 5.4 on transport vehicle 5.5 and multiple materials are deposited
Storage tank 5.2, material storage tank 5.2 connect agitating device 5.4 by tripper 5.3;It is provided with and stretches on described agitating device 5.4
The conveying pipeline 5.1 of contracting formula, the first described slide rail 5.6 are located at the side of agitating device 5.4.Material storage tank 5.2 it is individual several
Depending on species according to printed material raw material, different raw material are transported to agitating device 5.4 by tripper 5.3 according to set proportion
In, by mixing and stirring for agitating device 5.4, under the driving of pump, the printed material after mixing and stirring is entered in conveying pipeline 5.1, lead to
Cross conveying pipeline 5.1 to be added in printhead, to realize portable stock.The first slide rail 5.6 is provided with transport vehicle 5.5, such as
Shown in Fig. 1;Movable connected mode, such as vertical telescopic is used to stand between the top of vertical telescopic column 2 and telescopic crossbeam 3
The top of post 2 is provided with disk, and the circular groove coordinated with disk is offered on telescopic crossbeam 3;I.e. telescopic crossbeam 3 can be with
Rotated relative to vertical telescopic column 2, i.e. the direction of rotation a indicated in Fig. 2, postrotational structure is as shown in Figure 1.So in addition
Laterally folded track 1, vertical telescopic column 2 and the chassis power set 6 of side can rotate to the rear end of transport vehicle 5.5, so
Afterwards by shrinking the vertical telescopic column 2 of the side, laterally folded track 1, the part of chassis power set 6 is set to eventually arrive at transport vehicle
On 5.5, state as shown in Figure 1 is formed, thus largely facilitates the transport and use of whole device.
The course of work of the present utility model is as follows:
S1, this equipment is moved to specified location by mixed in transit system 5, relative to being assemblied on the first slide rail 5.6
The rotary and telescopic crossbeam 3 of vertical telescopic column 2, the vertical telescopic column 2, laterally folded track 1 and chassis of opposite side are moved
Power apparatus 6 etc. is partially moved on ground.
S2, telescopic crossbeam 3 is elongated to designated length, close every grade of track plates 3.2, printhead can be in spliced rail
Smooth sliding on road.
S3, deploy laterally folded track 1, then by the hydraulic pressure support actuator, whole system lifted, wheel from
Ground;Pin support 1.4 is opened simultaneously, and is supported in ground, realizes the final fixation to printing equipment.
S4, vertical telescopic column 2 is set to be elongated to specified altitude assignment.
S5, printed material is produced by mixed in transit system 5, transported, will be printed by telescopic conveying pipeline 5.1
Material is transported in the telescopic material extrusion printhead 4, starts to print.
S6, after printing, vertical telescopic column 2 is first shunk, laterally folded track 1 is received afterwards, finally in telescopic crossbeam 3
While rotation, telescopic crossbeam 3 is shunk, finally reaches the part such as laterally folded track 1, chassis power set 6
On transport vehicle 5.5, packing up for whole equipment is completed.
The utility model is not limited to above-mentioned embodiment, and anyone can draw other under enlightenment of the present utility model
Various forms of products, however, make any change in its shape or structure, it is every with identical or similar to the present application
Technical scheme, all fall within the scope of protection of the utility model.
Claims (9)
1. a kind of vehicular builds 3D printing equipment, it is characterised in that including mixed in transit system(5)Stood with a pair of vertical telescopics
Post(2), described vertical telescopic column(2)Between telescopic crossbeam is installed(3), telescopic crossbeam(3)On be equipped with can edge
Telescopic crossbeam(3)The telescopic material extrusion printhead slided(4), and telescopic crossbeam(3)Can be relative to vertical telescopic column(2)
Rotation;Described mixed in transit system(5)In be provided with the first slide rail(5.6), described a pair of vertical telescopic columns(2)In,
One of vertical telescopic column(2)Bottom be assemblied in the first described slide rail(5.6)On, another vertical telescopic column
(2)Bottom be assemblied in a laterally folded track(1)On, in laterally folded track(1)Bottom power dress in chassis is installed
Put(6).
2. vehicular as claimed in claim 1 builds 3D printing equipment, it is characterised in that described mixed in transit system(5)
Including transport vehicle(5.5), transport vehicle(5.5)On be provided with agitating device(5.4)And multiple material storage tanks(5.2), material
Storage box(5.2)Pass through tripper(5.3)Connect agitating device(5.4);Described agitating device(5.4)On be provided with it is telescopic
Conveying pipeline(5.1), described the first slide rail(5.6)Positioned at agitating device(5.4)Side.
3. vehicular as claimed in claim 1 builds 3D printing equipment, it is characterised in that described laterally folded track(1)
Include the track frame of multiple movable connections(1.1), wherein adjacent track frame(1.1)End face for cooperate inclined-plane
(1.7), and in each track frame(1.1)End face in be provided with mounting groove(1.5);Described adjacent track frame(1.1)It
Between pass through the first hydraulic means(1.2)With the second hydraulic means(1.3)Connection, wherein the first hydraulic means(1.2)Installed in phase
Adjacent track frame(1.1)Side, the second hydraulic means(1.3)Positioned at adjacent track frame(1.1)The mounting groove of end face(1.5)
In;Described track frame(1.1)On be provided with the 3rd slide rail(1.6), when described laterally folded track(1)After expansion, own
Track frame(1.1)On the 3rd slide rail(1.6)It is located on the same line.
4. vehicular as claimed in claim 3 builds 3D printing equipment, it is characterised in that described track frame(1.1)Bottom
Portion is provided with pin support(1.4).
5. vehicular as claimed in claim 1 builds 3D printing equipment, it is characterised in that described telescopic crossbeam(3)Bag
Include the roof beam structure that multilayer is set with successively(3.1), track plates(3.2)With built-in two-way classification oil cylinder(3.7), each roof beam structure(3.1)
Upper surface offer groove, make each roof beam structure(3.1)Cross section be " recessed " shape structure;Described each roof beam structure(3.1)
The end of groove be hinged with track plates(3.2), track plates(3.2)On be provided with the second slide rail(3.3);Described each beam
Frame(3.1)End be provided with track support frame(3.6);The classification oil cylinder(3.7)Both ends are fixed on roof beam structure(3.1)Two tops
End, the flexible of crossbeam is realized by hydraulically extensible.
6. vehicular as claimed in claim 5 builds 3D printing equipment, it is characterised in that the beam that described multilayer is set with successively
Frame(3.1)In, each layer of roof beam structure(3.1)Can be relative to last layer roof beam structure(3.1)Slide axially;Described roof beam structure
(3.1)Between pass through interior projection(3.4)And internal chute(3.5)Coordinated.
7. vehicular as claimed in claim 1 builds 3D printing equipment, it is characterised in that described telescopic material extrusion printhead
(4)Including material storing box(4.1), material storing box(4.1)In be provided with and material storing box(4.1)Disconnected sliding chamber(4.6), sliding chamber
(4.6)Side wall on be provided with rail slider(4.2);Described material storing box(4.1)Lower end pass through that to be connected with telescopic multi-stage hollow
Pipe(4.3);Wherein spiral propeller is provided with first order hollow pipe(4.4), spiral propeller(4.4)By installed in sliding chamber
(4.6)In motor(4.5)Driving;Telescopic multi-stage hollow pipe(4.3)By two-stage hydraulic pump(4.7)Improve flexible power.
8. vehicular as claimed in claim 7 builds 3D printing equipment, it is characterised in that described material storing box(4.1)With cunning
Chamber(4.6)Between form blanking channel, the internal diameter of blanking channel is along close to telescopic multi-stage hollow pipe(4.3)Direction reduce.
9. vehicular as claimed in claim 1 builds 3D printing equipment, it is characterised in that described chassis power set(6)
Including support chassis, the bottom of support chassis is provided with wheel, drive mechanism and hydraulic pressure support actuator;Support chassis passes through
Rotary turnplate and described laterally folded track(1)Bottom connection.
Priority Applications (1)
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CN201720907358.1U CN207172759U (en) | 2017-07-25 | 2017-07-25 | A kind of vehicular builds 3D printing equipment |
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CN201720907358.1U CN207172759U (en) | 2017-07-25 | 2017-07-25 | A kind of vehicular builds 3D printing equipment |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107443735A (en) * | 2017-07-25 | 2017-12-08 | 中国建筑股份有限公司 | A kind of vehicular builds 3D printing equipment |
CN111169018A (en) * | 2018-11-13 | 2020-05-19 | 清华大学 | 3D printing equipment, 3D printing system and 3D printing method |
CN111958751A (en) * | 2020-08-24 | 2020-11-20 | 芜湖匠铸三维科技有限公司 | Movable additive building equipment and using method thereof |
-
2017
- 2017-07-25 CN CN201720907358.1U patent/CN207172759U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107443735A (en) * | 2017-07-25 | 2017-12-08 | 中国建筑股份有限公司 | A kind of vehicular builds 3D printing equipment |
CN107443735B (en) * | 2017-07-25 | 2023-05-12 | 中国建筑股份有限公司 | Vehicle-mounted building 3D printing equipment |
CN111169018A (en) * | 2018-11-13 | 2020-05-19 | 清华大学 | 3D printing equipment, 3D printing system and 3D printing method |
CN111169018B (en) * | 2018-11-13 | 2021-03-19 | 清华大学 | 3D printing equipment, 3D printing system and 3D printing method |
CN111958751A (en) * | 2020-08-24 | 2020-11-20 | 芜湖匠铸三维科技有限公司 | Movable additive building equipment and using method thereof |
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