CN205134949U

CN205134949U - Building engineering 3D printer

Info

Publication number: CN205134949U
Application number: CN201520877747.5U
Authority: CN
Inventors: 都书鹏; 汲广超
Original assignee: Individual
Current assignee: Dalian Green Building Technology Co Ltd
Priority date: 2015-11-05
Filing date: 2015-11-05
Publication date: 2016-04-06
Anticipated expiration: 2025-11-05

Abstract

The utility model discloses a building engineering 3D printer, including beating printer head, crossbeam, slide rail dolly, horizontal slide rail, making the printer head coaster, beating printer head slide rail and hoisting device, at least four groups hoisting device's top connect into squarely through the crossbeam and hoisting device and crossbeam between sliding connection, the last sliding connection of hoisting device has just two horizontal slide rails the horizontal slide rail mutually parallel and be in same horizontal plane, two the horizontal slide rail between have through slide rail dolly sliding connection and make the printer head slide rail, have dozen printer head through beating printer head coaster sliding connection on making the printer head slide rail. The utility model discloses make the 3D printer print the restriction that the building did not receive the building height, promote significantly to the large tracts of land of 3D printer. But can reach unlimited promotions that highly move in circles with less equipment, can use a great deal of promotion field, reduce equipment cost, satisfy the promotion requirement.

Description

Construction work 3D printer

Technical field

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

Background technology

It is build by 3D printing technique the building of getting up that 3D prints building, extrude constructional materials, directly produce building, and printhead drives movement by frame supported by huge three-dimensional machinery from printhead.

But current technology generally adopts the mode of portal frame overall architecture horizontal movement to print.The printing of this device highly affects by frame height, can only print highly lower building, and the printing for higher buildings thing is just difficult to realize.

The printhead of existing 3D printer, all at 3D device interior, cannot print by design for the position exceeding printing device scope; In addition, due to the design reasons of printhead, attractive in appearance not when printing body of wall corner.

Plant equipment Hoisting System is when realizing higher lifting, and often comparatively large by transmission system volume, the puzzlement that continuance lifting track is long, overweight, affects trajectory accuracy, add installation difficulty.

3D column prints body of wall just increases base in bottom, the defect of this technical scheme is, the too high instability that can produce of column is rocked, make the feeding that the printhead in print procedure can not be stable, when printing building, have inwards or outside phenomenon at local location, make whole building in the vertical direction not perpendicular to the ground, affect the printing effect of building.

Utility model content

The utility model is solve above-mentioned not enough problem, provides a kind of construction work 3D printer.

For solving the problems of the technologies described above, the technical solution of the utility model is: construction work 3D printer, comprises printhead, crossbeam, slide rail dolly, horizontal slide rail, printhead coaster, printhead slide rail and lifting appliance; Described at least four groups, the top of lifting appliance connects into square by crossbeam and is slidably connected between lifting appliance and crossbeam; Lifting appliance slidably connects two horizontal slide rails and horizontal slide rail described in two is parallel to each other and be in same level; Slidably connect printhead slide rail by slide rail dolly between horizontal slide rail described in two, printhead slide rail slidably connects printhead by printhead coaster.

Further, printhead comprises support a and is fixed on the support b at its top, printhead feeding device is positioned at support a, and be rotationally connected by the bearing b of the bearing a bottom support a and support a upper lateral part and support a, described printhead feeding device internal fixtion is provided with spiral rotary rotating shaft, spiral rotary rotating shaft top is fixedly connected on the electric rotating machine c on support b, spiral rotary rotating shaft bottom is through the gear a be positioned at bottom printhead feeding device and bearing a, and extend to bottom support a, described gear a engages with the gear b be arranged on electric rotating machine b, described electric rotating machine b is fixed on support a outer bottom, tube connector is connected bottom printhead feeding device, described flexible pipe top is positioned at tube connector, electric rotating machine a is fixed on the fixed head of support c, described support c top is fixed on tube connector, described electric rotating machine a connects rotating disk, described rotating disk is fixed on flexible pipe by fastening devices.

Further, flexible pipe lower end connects scraper plate.

Further, lifting appliance comprises column, also comprise the pulley trolley a and pulley trolley b that are slidably connected with column, described pulley trolley a and pulley trolley b is provided with screens device, described screens device comprises by the fixing thrust motor of bracing frame, column is provided with the screens hole of matching with thrust motor, drive a is positioned at the outer top of column, rope a walks around drive a, rope a two ends are fixedly connected with the fixed hook a of hoist engine a and pulley trolley a respectively, pulley trolley a bottom is provided with drive b, column following side is provided with drive c, rope b walks around drive b and drive c, described rope b two ends connect the fixed hook b of hoist engine b and pulley trolley b respectively, described hoist engine b is fixed on the inner bottom part of column, crossbeam is fixed on pulley trolley a, and horizontal slide rail is fixed on pulley trolley b.

Further, lifting appliance comprises column, motor, pulley trolley a, screw mandrel, screw, pulley trolley b and screens device; Pulley trolley a to be sleeved on column and to be slidably connected with column, motor is fixed on pulley trolley a, the bottom of motor is connected with screw mandrel, screw mandrel is connected with screw, screw is installed with pulley trolley b, pulley trolley b is positioned at the below of pulley trolley a, and pulley trolley a and pulley trolley b is all provided with screens device; Screens device comprises thrust motor and bracing frame, and thrust motor is fixed on bracing frame, and bracing frame is arranged on pulley trolley a and pulley trolley b respectively, and the corresponding position of column and screens device is provided with screens hole; Crossbeam is fixed on pulley trolley a, and horizontal slide rail is fixed on pulley trolley b.

Further, lifting appliance comprises column, also comprise the pulley trolley a and pulley trolley b that are slidably connected with column, described pulley trolley a and pulley trolley b is provided with screens device, described screens device comprises by the fixing thrust motor of bracing frame, column is provided with the screens hole of matching with thrust motor, described column is provided with tooth bar, motor a is fixed on pulley trolley a by motor fixing plate a, motor b is fixed on pulley trolley b by motor fixing plate b, motor a connects gear a, and motor b connects gear b, and described gear a and gear b engages with tooth bar respectively; Crossbeam is fixed on pulley trolley a, and horizontal slide rail is fixed on pulley trolley b.

Further, lifting appliance is fixed by column locking device, and column locking device comprises fixture a and fixture b, and fixture a jockey b, fixture b two ends are connected and fixed screw rod a, standing screw b respectively.

The utility model makes 3D printer print building not by the restriction of depth of building, and the spread for 3D printer is significant.When printing building or component and exceeding framework, programme-control electric rotating machine drives flexible pipe on printhead inwards or outwards action, carries out printing building or component, reach exceed framework also can the object of normal print.Meanwhile, the printhead of rotation can get circular arc corner when body of wall corner, makes the body of wall corner that prints more attractive in appearance.But can reach with less equipment the lifting that infinitely highly moves in circles, many lifting fields can be applied to, reduce equipment cost, meet and promote requirement.Screens device under program, realizes the automatic screens the locking and unlocking at assigned address, and the 3D printer assembling this screens device significantly can promote distance in vertical direction continuously by depth of building restriction and this screens device structure is simple, and site assembly is convenient.Upright of frame is connected with body of wall, improves the stability of printer column, prevent rocking of print procedure central post, guarantee the effect of whole building after printing.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment one;

Fig. 2 is the structural representation of the utility model embodiment two;

Fig. 3 is the structural representation of the utility model embodiment three;

Fig. 4 is the structural representation of printhead;

Fig. 5 is the partial enlarged view of Fig. 4;

Fig. 6 is the assembling schematic diagram of column locking device;

Fig. 7 is the assembling plan view of column locking device;

Fig. 8 is the structural representation of lifting appliance in embodiment one;

Fig. 9 is the structural representation of lifting appliance in embodiment two;

Figure 10 is the structural representation of lifting appliance in embodiment three.

Wherein: 1, printhead, 2, crossbeam, 3, slide rail dolly, 4, horizontal slide rail, 5, printhead coaster, 6, printhead slide rail, 7, electric rotating machine a, 8, flexible pipe, 9, electric rotating machine b, 10, bearing a, 11, gear a, 12, gear b, 13, printhead feeding device, 14, support a, 15, bearing b, 16, support b, 17, spiral rotary rotating shaft, 18, electric rotating machine c, 19, scraper plate, 20, fastening devices, 21, support c, 22, tube connector, 23, rotating disk, 24, fixed head, 25, wall column, 26, fixture a, 27, fixture b, 28, print body of wall, 30.1, standing screw a, 30.2, standing screw b, 31, column, 32, drive a, 33, rope a, 34, pulley trolley a, 35, drive b, 36, rope b, 37, fixed hook b, 38, pulley trolley b, 39, drive c, 40, hoist engine b, 41, hoist engine a, 42, fixed hook a, 43, motor a, 43.1, motor fixing plate a, 43.2, gear a, 44, motor b, 44.1, motor fixing plate b, 44.2, gear b, 45, tooth bar, 46.1, bracing frame, 46.2, thrust motor, 47, motor c, 48, screw mandrel, 49, screw.

Detailed description of the invention

Embodiment one

As shown in Figure 1, construction work 3D printer, comprises printhead 1, crossbeam 2, slide rail dolly 3, horizontal slide rail 4, printhead coaster 5, printhead slide rail 6 and lifting appliance; The top of lifting appliance described at least four groups connects into square by crossbeam 2 and is slidably connected between lifting appliance and crossbeam 2; Lifting appliance slidably connects two horizontal slide rails 4 and horizontal slide rail 4 described in two is parallel to each other and be in same level; Slidably connect printhead slide rail 6 by slide rail dolly 3 between horizontal slide rail 4 described in two, printhead slide rail 6 slidably connects printhead 1 by printhead coaster 5.

As shown in Figure 4 and Figure 5, printhead 1 comprises support a14 and is fixed on the support b16 at its top, printhead feeding device 13 is positioned at support a14, and be rotationally connected by the bearing b15 of the bearing a10 bottom support a14 and support a14 upper lateral part and support a14, described printhead feeding device 13 internal fixtion is provided with spiral rotary rotating shaft 17, spiral rotary rotating shaft 17 top is fixedly connected on the electric rotating machine c18 on support b16, spiral rotary rotating shaft 17 bottom is through the gear a11 be positioned at bottom printhead feeding device 13 and bearing a10, and extend to bottom support a14, described gear a11 engages with the gear b12 be arranged on electric rotating machine b9, described electric rotating machine b9 is fixed on support a14 outer bottom, tube connector 22 is connected bottom printhead feeding device 13, described flexible pipe 8 top is positioned at tube connector 22, electric rotating machine a7 is fixed on the fixed head 24 of support c21, described support c21 top is fixed on tube connector 22, described electric rotating machine a7 connects rotating disk 23, described rotating disk 23 is fixed on flexible pipe 8 by fastening devices 20, flexible pipe 8 lower end connects scraper plate 19.

Support a14 and support b16 is connected to become framework and is fixed on slide rail dolly, and during printing normally in framework, electric rotating machine a7 is failure to actuate and makes printhead be in plumbness to print; When printing building or component exceeds framework, programme-control electric rotating machine a7 operates, and electric rotating machine a7 drives rotating disk 23 to rotate, thus drives flexible pipe 8 to rotate, and flexible pipe 8 is moved to beyond framework and prints.

When printing to body of wall corner, programme-control flexible pipe 8 vertically moves along arc track, circular arc body of wall is printed in body of wall corner, simultaneously, electric rotating machine b9 operates, and drives the scraper plate 19 on flexible pipe 8 and flexible pipe 8 to rotate, and the movement locus of scraper plate 19 is identical with the circular arc-shaped corner printing body of wall, the external surface of scraper plate 19 pairs of body of wall circular arc-shaped corners is repaired, and makes surface, circular arc corner more smooth attractive in appearance.

As shown in Figure 8, lifting appliance comprises column 31, also comprise the pulley trolley a34 and pulley trolley b38 that are slidably connected with column 31, described pulley trolley a34 and pulley trolley b38 is provided with screens device, described screens device comprises by the fixing thrust motor 46.2 of bracing frame 46.1, column 31 is provided with the screens hole of matching with thrust motor 46.2, drive a32 is positioned at the outer top of column 31, rope a33 walks around drive a32, rope a33 two ends are fixedly connected with the fixed hook a42 of hoist engine a41 and pulley trolley a34 respectively, pulley trolley a34 bottom is provided with drive b35, column 31 following side is provided with drive c39, rope b36 walks around drive b35 and drive c39, described rope b36 two ends connect the fixed hook b37 of hoist engine b40 and pulley trolley b38 respectively, described hoist engine b40 is fixed on the inner bottom part of column 31, crossbeam 2 is fixed on pulley trolley a34, and horizontal slide rail 4 is fixed on pulley trolley b38.

When pulley trolley a34 is risen to assigned address by rope a33 by programme-control hoist engine a41, thrust motor 46.2 action is also stretched in screens hole, is pinned by pulley trolley a34; Then hoist engine b40 operates, lifting tackle dolly b38 carries out print job, during arrival assigned address, pulley trolley b38 pins, pulley trolley a34 unlocks, and hoist engine a41 operates, and hoist engine b40 operates and puts rope with corresponding speed to enable pulley trolley a34 rise to the position of specifying locked, stop hoist engine a41 and hoist engine b40, allow separately hoist engine b40 lifting tackle dolly b38 rise to the position of specifying again locked, repeat above action, reach the object promoting and print.

As shown in Figure 6 and Figure 7, lifting appliance is fixed by column locking device, and column locking device comprises fixture a26 and fixture b27, and fixture a26 jockey b27, fixture b27 two ends are connected and fixed screw rod a30.1, standing screw b30.2 respectively.

Vertical columns 31 is vertically parallel to be placed on outside wall column 25, printhead prints on printhead slide rail 6, after printhead rises to desired height position, put into fixture a26, fixture b27, wall column 25 is clamped by fixture a26 and fixture b27, standing screw one end jockey b27, the other end is connected and fixed column 31, thus wall column 25 is fixed with vertical columns 31, after fixing, printhead continues to print, after printing to next predetermined altitude, continue fixing this column of assembling locking device, then continue to print, so repeatedly, print complete until print body of wall 28, final cutting standing screw, printing equipment is separated with printing body of wall 28.

Crossbeam 2 is risen to by pulley trolley a34 on the position of specifying, then by the screens device stuck position on pulley trolley a34; Pulley trolley b38 promotes printhead 1 and prints building according to programming.When horizontal slide rail 4 is close to crossbeam 2, the screens device stuck position on pulley trolley b38, the screens device of pulley trolley a34 unclamps, and continues to rise to next assigned address, then by the screens device stuck position on pulley trolley a34; Screens device on pulley trolley b38 unclamps.After completing the printing of individual layer height, column 31 and wall frame are locked mutually by column locking device and forms entirety, improve the stability of printer, then continue to print building according to program, so repeatedly mutually promoted multilayer to print, it prints the restriction and simple structure that are not highly subject to equipment.

Embodiment two

Be different from embodiment one, as shown in Fig. 2, Fig. 9, lifting appliance comprises column 31, motor c47, pulley trolley a34, screw mandrel 48, screw 49, pulley trolley b38 and screens device; Pulley trolley a34 to be sleeved on column 31 and to be slidably connected with column 31, motor c47 is fixed on pulley trolley a34, the bottom of motor c47 is connected with screw mandrel 48, screw mandrel 48 is connected with screw 49, screw 49 is installed with pulley trolley b38, pulley trolley b38 is positioned at the below of pulley trolley a34, and pulley trolley a34 and pulley trolley b38 is all provided with screens device; Screens device comprises thrust motor 46.2 and bracing frame 46.1, and thrust motor 46.2 is fixed on bracing frame 46.1, and bracing frame 46.1 is arranged on pulley trolley a34 and pulley trolley b38 respectively, and column 31 is provided with screens hole with the corresponding position of screens device; Crossbeam 2 is fixed on pulley trolley a34, and horizontal slide rail 4 is fixed on pulley trolley b38.

When screw mandrel 48 rotates forward, screw 49 drives pulley trolley b38 to promote, when rising to specified altitude assignment, screens device on pulley trolley b38 starts, and thrust motor 46.2 stretches out under program and enters screens hole, pulley trolley b38 screens is locked; Screens device on pulley trolley a34 starts, thrust motor 46.2 is retracted under program from screens hole, and pulley trolley a34 is unlocked, and motor c47 reverses, screw mandrel 48 promotes, and drive motor c47, pulley trolley a34 promote together, after being promoted to specified altitude assignment, the screens device on pulley trolley a34 starts, pulley trolley a34 screens is locked, namely complete and once promote program, so repeatedly rise to the height of needs, fulfil assignment requirement.

Embodiment three

Be different from embodiment one, as Fig. 3, shown in Figure 10, lifting appliance comprises column 31, also comprise the pulley trolley a34 and pulley trolley b38 that are slidably connected with column 31, described pulley trolley a34 and pulley trolley b38 is provided with screens device, described screens device comprises by the fixing thrust motor 46.2 of bracing frame 46.1, column 31 is provided with the screens hole of matching with thrust motor 46.2, described column 31 is provided with tooth bar 45, motor a43 is fixed on pulley trolley a34 by motor fixing plate a43.1, motor b44 is fixed on pulley trolley b38 by motor fixing plate b44.1, motor a43 connects gear a43.2, motor b44 connects gear b44.2, described gear a43.2 and gear b44.2 engages with tooth bar 45 respectively, crossbeam 2 is fixed on pulley trolley a34, and horizontal slide rail 4 is fixed on pulley trolley b38.

Pulley trolley a34 is upwards promoted along the track of tooth bar 45 by motor a43 driven gear a43.2, and when rising to indication position, thrust motor 46.2 action on screens device is also stretched in screens hole, and pinned by pulley trolley a34, motor a43 quits work; Then pulley trolley b38 is by motor b44 driven gear b44.2, track along tooth bar 45 moves upward, and when reaching assigned address, thrust motor 46.2 action of screens device is also stretched in screens hole, pin pulley trolley b38, motor b44 quits work, and meanwhile, motor a43 works on, pulley trolley a34 unlocks, and continue to move upward, repeatedly carry out above motion, reach the effect repeatedly promoted.

The above; be only the utility model preferably detailed description of the invention; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; be equal to according to the technical solution of the utility model and utility model design thereof and replace or change, all should be encompassed within protection domain of the present utility model.

Claims

1. construction work 3D printer, is characterized in that: comprise printhead (1), crossbeam (2), slide rail dolly (3), horizontal slide rail (4), printhead coaster (5), printhead slide rail (6) and lifting appliance; The top of lifting appliance described at least four groups is connected into square by crossbeam (2) and is slidably connected between lifting appliance and crossbeam (2); Lifting appliance slidably connects two horizontal slide rails (4) and horizontal slide rail (4) described in two is parallel to each other and be in same level; Slidably connect printhead slide rail (6) by slide rail dolly (3) between horizontal slide rail (4) described in two, printhead slide rail (6) slidably connects printhead (1) by printhead coaster (5).

2. construction work 3D printer according to claim 1, it is characterized in that: described printhead (1) comprises support a (14) and is fixed on the support b (16) at its top, printhead feeding device (13) is positioned at support a (14), and be rotationally connected with support a (14) by the bearing a (10) of support a (14) bottom and the bearing b (15) of support a (14) upper lateral part, described printhead feeding device (13) internal fixtion is provided with spiral rotary rotating shaft (17), spiral rotary rotating shaft (17) top is fixedly connected on the electric rotating machine c (18) on support b (16), spiral rotary rotating shaft (17) bottom is through the gear a (11) and the bearing a (10) that are positioned at printhead feeding device (13) bottom, and extend to support a (14) bottom, described gear a (11) is engaged with the gear b (12) be arranged on electric rotating machine b (9), described electric rotating machine b (9) is fixed on support a (14) outer bottom, printhead feeding device (13) bottom connects tube connector (22), flexible pipe (8) top is positioned at tube connector (22), electric rotating machine a (7) is fixed on the fixed head (24) of support c (21), described support c (21) top is fixed on tube connector (22), described electric rotating machine a (7) connects rotating disk (23), described rotating disk (23) is fixed on flexible pipe (8) by fastening devices (20).

3. construction work 3D printer according to claim 2, is characterized in that: described flexible pipe (8) lower end connects scraper plate (19).

4. construction work 3D printer according to claim 1, it is characterized in that: described lifting appliance comprises column (31), also comprise the pulley trolley a (34) and pulley trolley b (38) that are slidably connected with column (31), described pulley trolley a (34) and pulley trolley b (38) are provided with screens device, described screens device comprises by the fixing thrust motor (46.2) of bracing frame (46.1), column (31) is provided with the screens hole of matching with thrust motor (46.2), drive a (32) is positioned at column (31) outer top, rope a (33) walks around drive a (32), rope a (33) two ends are fixedly connected with the fixed hook a (42) of hoist engine a (41) and pulley trolley a (34) respectively, pulley trolley a (34) bottom is provided with drive b (35), column (31) following side is provided with drive c (39), rope b (36) walks around drive b (35) and drive c (39), described rope b (36) two ends connect the fixed hook b (37) of hoist engine b (40) and pulley trolley b (38) respectively, described hoist engine b (40) is fixed on the inner bottom part of column (31), crossbeam (2) is fixed on pulley trolley a (34), and horizontal slide rail (4) is fixed on pulley trolley b (38).

5. construction work 3D printer according to claim 1, is characterized in that: described lifting appliance comprises column (31), motor c (47), pulley trolley a (34), screw mandrel (48), screw (49), pulley trolley b (38) and screens device; Pulley trolley a (34) is sleeved on column (31) and goes up and be slidably connected with column (31), motor c (47) is fixed on pulley trolley a (34), the bottom of motor c (47) is connected with screw mandrel (48), screw mandrel (48) is connected with screw (49), screw (49) is installed with pulley trolley b (38), pulley trolley b (38) is positioned at the below of pulley trolley a (34), and pulley trolley a (34) and pulley trolley b (38) is all provided with screens device; Screens device comprises thrust motor (46.2) and bracing frame (46.1), thrust motor (46.2) is fixed on bracing frame (46.1), bracing frame (46.1) is arranged on pulley trolley a (34) and pulley trolley b (38) respectively, and column (31) is provided with screens hole with the corresponding position of screens device; Crossbeam (2) is fixed on pulley trolley a (34), and horizontal slide rail (4) is fixed on pulley trolley b (38).

6. construction work 3D printer according to claim 1, it is characterized in that: described lifting appliance comprises column (31), also comprise the pulley trolley a (34) and pulley trolley b (38) that are slidably connected with column (31), described pulley trolley a (34) and pulley trolley b (38) are provided with screens device, described screens device comprises by the fixing thrust motor (46.2) of bracing frame (46.1), column (31) is provided with the screens hole of matching with thrust motor (46.2), described column (31) is provided with tooth bar (45), motor a (43) is fixed on pulley trolley a (34) by motor fixing plate a (43.1), motor b (44) is fixed on pulley trolley b (38) by motor fixing plate b (44.1), motor a (43) connects gear a (43.2), motor b (44) connects gear b (44.2), described gear a (43.2) and gear b (44.2) engage with tooth bar (45) respectively, crossbeam (2) is fixed on pulley trolley a (34), and horizontal slide rail (4) is fixed on pulley trolley b (38).

7. the construction work 3D printer according to claim 4 or 5 or 6, it is characterized in that: described lifting appliance is fixed by column locking device, column locking device comprises fixture a (26) and fixture b (27), fixture a (26) jockey b (27), fixture b (27) two ends are connected and fixed screw rod a (30.1), standing screw b (30.2) respectively.