WO2023031302A1 - Mobile 3d printer - Google Patents

Abstract

The invention relates to a mobile 3D printer which can print structures or other objects flexibly and continuously. The invention also relates to a mobile 3D printer comprising at least one vehicle trailer (1) having a rail system (2), and further comprising at least one carriage (3) which is movable on the rail system (2) and has a vertically movable crane robot (4), the crane robot (4) being rotatable or pivotable and there being a telescopic arm (5) or a cantilever (6) arranged on the crane robot (4), at least receiving means (7) for a printing device (8) and/or reinforcement device (9) being provided on the telescopic arm (5) and/or the cantilever (6).

Description

MOBILE 3D PRINTER

The invention relates to a mobile 3D printer, in particular for building materials such as concrete, which can flexibly and continuously print buildings or other objects at any location. Furthermore, a reinforcement can also be provided and/or laid with the mobile 3D printer.

The object of the invention is to create a mobile 3D printer that can flexibly and continuously print buildings or other objects

With the invention it is achieved in the specified application that a mobile 3D printer is created, wherein at least one vehicle trailer comprises a rail system and furthermore comprises at least one carriage which can be moved on the rail system and has a crane robot which can be moved vertically. In addition, the crane robot is rotatable or pivotable or rotatable or pivotable on the movable carriage. A telescopic arm or a cantilever arm is arranged on the crane robot, with at least receiving means for a pressure device and/or reinforcement device being present on the telescopic arm and/or the cantilever arm.

The vehicle trailer can be a trailer or semi-trailer or another vehicle trailer system, for example, which can be transported to the respective place of use with appropriate tractors.

Advantageously, buildings or other objects can be printed flexibly in terms of location and execution with little effort, without having to carry out complex construction measures for the 3D printer.

The 3D printer according to the invention enables scaling in the arrangement and combination of the components, so that the spatial extension of the 3D print and thus the flexibility in use is favored. Advantageous developments of the invention are presented in the dependent claims.

With the further development that at least two vehicle trailers with the rail system can be arranged parallel to one another at a distance from one another, it is achieved that the 3D printing can be carried out in parallel from two vehicle trailers, each with a mobile crane robot with a telescopic arm or a cantilever arm. In this way, you can work or print for one building or object at the same time or in parallel for different buildings or objects.

At least one supplementary vehicle trailer with the rail system can be stacked or connected to the vehicle trailer with the rail system in a longitudinal extension or on the transverse end faces of the rail system, wherein the rail system can be extended or connected across vehicle trailers and the at least one carriage that can be moved on the rail system can be moved across vehicle trailers on the The rail system of the vehicle trailer and/or the at least one supplementary vehicle trailer can be moved, can be worked or printed continuously and/or one after the other on different structures or objects or an elongated structure or object along the rail system or along the vehicle trailer and supplementary vehicle trailer without any relocation or conversion work.

Advantageously, the at least one vehicle trailer and the at least one supplementary vehicle trailer with the rail system, which are lined up or connected to one another in the longitudinal direction, further or unused vehicle trailers or supplementary vehicle trailers can be lined up or connected in the longitudinal direction or converted around one another or exchanged or interchangeable, so that the number on vehicle trailers or supplementary vehicle trailers can be reduced with the rail system for comprehensive or length-independent printing work in succession on a building or object or on different buildings or objects and thus, in particular, supplementary vehicle trailers can be saved.

The at least one supplementary vehicle trailer with the rail system has at least one carriage that can be moved on the rail system with a crane robot that can be moved vertically, the crane robot being rotatable or pivotable and a telescopic arm or a cantilever arm being arranged on the crane robot, with the telescopic arm and/or the cantilever arm being arranged at least receiving means for a pressure device and/or reinforcement device are present, work can be carried out in parallel on different structures or objects, or work can be carried out in parallel on one structure or object. In addition, the additional at least one mobile crane robot with the telescopic arm or cantilever arm of the at least one supplementary vehicle trailer can support the mobile crane robot with the telescopic arm or cantilever arm of the at least one vehicle trailer or take on auxiliary work or form a redundancy.

Since the respective telescopic arm or the respective cantilever arm on the respective crane robot can be pivoted vertically and/or horizontally, printing work can be carried out on both sides of the vehicle trailer or supplementary vehicle trailer. In addition, printing work can also be carried out at different heights.

Since the respective crane robot can be tilted, printing work can also be carried out on both sides of the vehicle trailer or supplementary vehicle trailer and at different heights. In addition, the crane robots can be stowed compactly for transport and a reduced height extension.

It is advantageous if at least two are parallel to one another vehicle trailers or supplementary vehicle trailers arranged spaced apart next to each other with the rail system the respective telescopic arm or the respective cantilever arm on the respective crane robot on the at least one movable carriage of a vehicle trailer or supplementary vehicle trailer to the respective telescopic arm or the respective cantilever arm on the respective crane robot on the at least one movable carriage of the parallel spaced juxtaposed vehicle trailer or supplementary vehicle trailer aligned and each forms a portal.

The respective telescopic arms or the respective cantilever arms are preferably connected at a contact point for the portal.

Advantageously, the respective telescopic arms or the respective cantilever arms support each other, so that the accuracy and stability is increased. This means that higher loads can also be carried if necessary.

In addition, the pressure device and/or the reinforcement device can be shifted or moved with the respective telescopic arms between the vehicle trailers or additional vehicle trailers to the required location in order to map a large pressure area.

With the cantilevers, a continuous traversing path for the pressure device and/or reinforcement device or the receiving means for these can be provided or provided.

The cantilever arm preferably comprises or is a traverse, on which the receiving means for the pressure device and/or reinforcement device, such as fixed or movable attachments or traversing devices, can be provided.

In a further development of the cantilever arm can be extended, so that different sized distances between the Vehicle trailers or supplementary vehicle trailers can be bridged.

Alternatively or additionally, the receiving means for the printing device and/or the reinforcement device can be moved or shifted on the cantilever arm or on the traverse or on the telescopic arm, so that the area between the vehicle trailers or supplementary vehicle trailers can be comprehensively reached and printed.

The accuracy of the print is increased by the movable carriages of the at least one vehicle trailer or the at least one supplementary vehicle trailer being movable synchronously and/or without play in relation to the at least one movable carriage of the at least one vehicle trailer arranged parallel to one another at a distance from one another or of the at least one supplementary vehicle trailer.

Since the mobile carriages can be moved on the rail system by means of a spindle drive, toothed belt, gear wheels, rack, toothed rail, chain drive or another linear drive, the accuracy of the positioning of the carriages and thus the accuracy of the pressure and, in the case of parallel vehicle trailers or supplementary vehicle trailers, the accuracy of the parallel process or a stress-free movement of the carriage favors.

Preferably, the drives act or extend to all wheels of a carriage or the drives only act on the wheels of a rail of the rail system or only act on the wheels of an axle or shaft of the carriage.

Preferably, particularly in the case of toothed belts, gear wheels, toothed rack, toothed rail or chain drive, the respectively engaged drive components of the wheels of the trolley are mutually connected and/or to the toothed belt, toothed wheels, toothed rack, toothed rail or chain drive braced against each other, so that a backlash-free movement and a backlash-free drive is favored.

Preferably, mobile carriages can be moved on the rail system by means of gear wheels on a toothed rail.

Because the at least one vehicle trailer and/or the at least one supplementary vehicle trailer has supports and/or can be leveled, the stability and the accuracy of the print are increased.

Several exemplary embodiments of the invention are illustrated in the drawings and are described in more detail below. Show it:

1 shows a perspective view of a mobile 3D printer with a vehicle trailer with a rail system, with two carriages, each with a vertically movable crane robot, with a telescopic arm being present on a first crane robot and a cantilever arm on the second crane robot, FIG. 2 a mobile one 3D printer in a perspective view with two vehicle trailers arranged parallel to one another, each with a rail system, each with two carriages, each with a vertically movable crane robot, with a telescopic arm on a first crane robot and a cantilever arm on the second crane robot and the telescopic arms and the cantilever arms form a portal, Fig. 3 a side view of a mobile 3D printer with a vehicle trailer with a rail system and with extended supports, with two carriages each with a vertically movable crane robot, Fig. 4 a side view of a mobile 3D printer with two arranged parallel next to each other vehicle trailers each with a rail system, each with two carriages, each with a vertically movable crane robot, with a telescopic arm on a first crane robot and a cantilever arm on the second crane robot and the telescopic arms and the cantilever arms being prepared for a portal, 5 shows the mobile 3D printer from FIG. 4 in a top view, FIG crane robot has a telescopic arm and the second crane robot has a cantilever arm and the telescopic arms and the cantilever arms form a portal, FIG. 7 shows the mobile 3D printer from FIG. 6 in a plan view, FIG. 8 shows a mobile 3D printer in a perspective view with two parallel vehicle trailers arranged side by side, each with a rail system, each with two carriages, each with a vertically movable crane robot, with a telescopic arm on a first crane robot and a cantilever arm on the second crane robot and the telescopic arms and the cantilever arms forming a portal, and with two each in the Longitudinal extension arranged in a row supplementary driving tool trailers, Fig. 9 shows a perspective view of a mobile 3D printer that prints a structure or object with two vehicle trailers arranged parallel to one another, each with a rail system, each with two carriages each with a vertically movable crane robot, with a first crane robot having a telescopic arm and the second crane robot has a cantilever arm and the telescopic arms and the cantilever arms form a portal, FIG. 10 a mobile 3D printer prepared for transport and FIG. 11 a mobile 3D printer that prints buildings or objects in a perspective view with two parallel next to each other arranged vehicle trailers, each with a rail system, each with two carriages, each with a vertically movable crane robot, with a telescopic arm on a first crane robot and a cantilever arm on the second crane robot and the telescopic arms and the cantilever arms forming a portal, and with two each in the longitudinal extension ung lined up arranged. supplementary vehicle trailers. FIG. 1 shows a mobile 3D printer which has a vehicle trailer 1 with a rail system 2 . The vehicle trailer 1 is a semi-trailer in this exemplary embodiment. Two mobile carriages 3 each with a vertically mobile crane robot 4 are arranged in a mobile manner on the rail system 2 . The respective crane robot 4 is arranged rotatably or pivotably on the carriage 2 . A telescopic arm 5 is arranged on one of the crane robots 4 and a cantilever arm 6 is arranged on the other crane robot 4 . At least receiving means 7 for a pressure device 8 and/or reinforcement device 9 are present on the telescopic arm 5 and/or the cantilever arm 6 . The cantilever 6 includes a traverse 12.

Furthermore, the vehicle trailer includes 1 supports 13 that are extended and can be leveled.

The mobile carriages 3 can be moved on the rail system 2 by means of gear wheels on a toothed rail.

A mobile 3D printer is shown in FIGS. 2 and 3 as well as in FIGS. 6 and 7, which has two vehicle trailers 1 arranged parallel and at a distance from one another, each with a rail system 2 . Two movable carriages 3 each with a vertically movable crane robot 4 are movably arranged on the rail system 2 . The respective crane robots 4 are arranged on the carriage 2 such that they can be rotated or pivoted. A telescopic arm 5 is arranged on each of the crane robots 4 and a cantilever arm 6 is arranged on each of the other crane robots 4 . At least receiving means 7 for a pressure device 8 and/or reinforcement device 9 are present on the telescopic arm 5 and/or the cantilever arm 6 . The cantilever 6 includes a traverse 12.

In the case of the two vehicle trailers 1 arranged parallel to one another and spaced apart from one another with the rail system 2 the respective telescopic arm 5 and the respective cantilever arm 6 of the respective crane robot 4, the respective mobile carriage 3 of one vehicle trailer 1, are aligned with the respective telescopic arm 5 and the respective cantilever arm 6 on the respective crane robot 4 on the respective mobile carriage 3 of the parallel, spaced, side-by-side vehicle trailer 1 . The respective telescopic arms 5 and the respective cantilever arms 6 are pivoted relative to one another with the respective rotatable or pivotable crane robots 4 .

As shown in Figures 3 and 7, the respective mobile carriages 3 are aligned next to one another on the rail system of the respective vehicle trailer 1, so that the telescopic arms 5 and cantilever arms 6 aligned with one another are also aligned and each, as in shown in Figures 2 and 6, form a portal 11.

An extension 14 is arranged between the cantilever arms 6, which connects the two cantilever arms 6 and completes the traverse 12 so that the pressure device 8 and/or reinforcement device 9 can be used over the width between the vehicle trailers 1 via the receiving means 7.

As shown in Figures 2, 6 and 7, the respective telescopic arms 5 are connected to one another at their ends and carry the pressure device 8 and a reinforcement device 9 via the receiving means 7.

However, it is also provided that the respective telescopic arms 5 have the receiving means 7 for the pressure device 8 and/or reinforcement device 9 at their ends and are not connected. This is shown in FIG. 8, for example.

In this exemplary embodiment, too, the vehicle trailers 1 include supports 13 that are extended. The vehicle trailers 1 can be leveled. The mobile carriages 3 can be moved on the rail system 2 by means of gear wheels on a toothed rail. Preferably, the respective mobile carriages 3 with the telescopic arm 5 and the cantilever arm 6 of one vehicle trailer 1 can be moved synchronously and without play to the mobile carriage 3 with the telescopic arm 5 and the cantilever arm 6 of the second or other vehicle trailer 1 arranged next to one another at a parallel distance. For this purpose, the gears are arranged on a carriage 3 on the toothed rail in such a way that they are clamped to the toothed rail and therefore have no play.

Figures 4 and 5 show, similar to Figures 2 and 3, also for a mobile 3D printer, two vehicle trailers 1 arranged parallel and spaced apart from one another, each with a rail system 2 and carriages 3 movable thereon, each with a vertically movable crane robot 4.

In contrast to the exemplary embodiment according to FIGS. 2 and 3, in the exemplary embodiment according to FIGS. 4 and 5, the vertically movable crane robots 4 are not extended and only the cantilever arms 6 are aligned with one another and are not connected. The cantilever arms 6 have the receiving means 7 for the pressure device 8 and/or the reinforcement device 9 . The cantilevers 6 are a traverse 12. The distance between the cantilevers 6 can be closed by means of an extension, not shown. At least one of the cantilever arms 6 or both can be extended in this way.

In this exemplary embodiment, the vehicle trailers 1 also include supports 13 which are extended. The vehicle trailers 1 are level.

In the exemplary embodiment according to FIG rail system 2, with two supplementary vehicle trailers 10 being lined up or connected to rail system 2 on both vehicle trailers 1 with rail system 2 in a longitudinal extension, rail system 2 being extended or connected across vehicle trailers, so that the at least one can be moved on rail system 2 Carriage 3 can be moved across vehicle trailers on the rail system 2 of the vehicle trailer 1 and/or the at least one supplementary vehicle trailer 10 .

Two movable carriages 3 each with a vertically movable crane robot 4 are movably arranged on the rail system 2 . The respective crane robots 4 are arranged on the carriage 2 such that they can be rotated or pivoted. A telescopic arm 5 is arranged on each of the crane robots 4 and a cantilever arm 6 is arranged on each of the other crane robots 4 . At least receiving means 7 for a pressure device 8 and/or reinforcement device 9 are present on the telescopic arm 5 and/or the cantilever arm 6 . The cantilever 6 includes a traverse 12.

As already mentioned above, the respective telescopic arms 5 are not connected at their ends and have a receiving means 7 (not shown) for the pressure device 8 and/or reinforcement device 9 .

The vehicle trailer 1 and the supplementary vehicle trailer 10 each include supports 13 which are extended. The vehicle trailer 1 and the supplementary vehicle trailer 10 are each leveled.

The exemplary embodiment according to FIG. 9 shows a mobile 3D printer with two vehicle trailers 1 arranged parallel and at a distance from one another, each with a rail system 2, the structure of which has already been described above in the exemplary embodiments according to FIGS. In addition to or deviating from these 9 shows that a building 15 is shown between the two vehicle trailers 1, which is printed by the mobile 3D printer and thus erected. For this purpose, the concrete to be printed is printed at the appropriate points by means of the printing device 8 on the receiving means 7 and the reinforcement is placed or arranged on the receiving means 7 by means of the reinforcing device 9 .

In this way, not only buildings can be printed individually, but also several buildings 15 in succession. According to the exemplary embodiment in Figure 11, a mobile 3D printer is provided for this purpose, the structure of which has already been described above in the exemplary embodiment according to Figure 8, has two vehicle trailers 1 arranged parallel and at a distance from one another, each with a rail system 2, with both vehicle trailers 1 having the Rail system 2 two supplementary vehicle trailers 10 are lined up or connected to the rail system 2 in a longitudinal extension. In addition to or deviating from these explanations, Figure 1 shows that two structures 15 are shown between the two vehicle trailers 1 and supplementary vehicle trailer 10, with one structure 15 being printed in one section first and the second structure 15 being printed by the mobile 3D printer and is built with it. For this purpose, the concrete to be printed is printed at the appropriate points by means of the printing device 8 on the receiving means 7 and the reinforcement is placed or arranged on the receiving means 7 by means of the reinforcing device 9 .

FIG. 10 shows a mobile 3D printer, which has a vehicle trailer 1 with a rail system 2, the structure of which is described in particular in FIG. Two mobile carriages 3 each with a vertically mobile crane robot 4 are arranged in a mobile manner on the rail system 2 . For transport purposes, both crane robots 4 are moved far apart on the vehicle trailer 1 and also rotated in the direction of the respective other crane robot 4 . The cantilever 6 on one of the crane robots 4 is thus between the Carriage 3 pivoted. The telescopic arm 5 is fully retracted.

Both crane robots 4 are also inclined in the direction of the respective other crane robot 4, as a result of which the overall height can be reduced.

In the exemplary embodiments according to FIGS. 2 to 11, the vehicle trailer 1 is a semi-trailer. Other vehicle trailer variants are possible and expressly included.

Compilation of the reference numbers

1 - vehicle trailer

2 - rail system 3 - trolley

4 - crane robot

5 - telescopic arm

6 - cantilever

7 - receiving means 8 - pressure device

9 - arming device

10 - Supplementary vehicle trailer

11 - Portal

12 - traverse 13 - support

14 - extension

15 - structure

Claims

patent claims

1. Mobile 3D printer, comprising at least one vehicle trailer (1) with a rail system (2), further comprising at least one carriage (3) movable on the rail system (2) with a vertically movable crane robot (4), wherein the crane robot

(4) can be rotated or pivoted and a telescopic arm (5) or a cantilever arm (6) is arranged on the crane robot (4), with at least receiving means (7) on the telescopic arm (5) and/or the cantilever arm (6) for a Pressure device (8) and / or reinforcement device (9) are present.

2. Mobile 3D printer according to claim 1, d a d u r c h g e k e n n z e i c h n e t that at least two vehicle trailers (1) with the rail system (2) can be arranged parallel to one another at a distance from one another.

3. Mobile 3D printer according to one of claims 1 and 2, d a d u r c h g e k e n n z e i c h n e t that at least one supplementary vehicle trailer (10) with the rail system (2) can be stacked or connected to the vehicle trailer (1) with the rail system (2) in a longitudinal extension, wherein the rail system (2) can be extended or connected across vehicle trailers and the at least one carriage (3) that can be moved on the rail system (2) can be moved across vehicle trailers on the rail system (2) of the vehicle trailer (1) and/or the at least one supplementary vehicle trailer (10). .

4. Mobile 3D printer according to one of the preceding claims, characterized in that the at least one vehicle trailer (1) and the at least one supplementary vehicle trailer (10) with the rail system (2), which are lined up or connected to one another in the longitudinal extent, further or unused vehicle trailers (1) or supplementary vehicle trailers (10) can be stacked or connected or converted or interchangeable or interchangeable in the longitudinal extent.

5. Mobile 3D printer according to one of the preceding claims, d a d u r c h g e k e n n z e i c h n e t that the at least one supplementary vehicle trailer (10) with the rail system (2) has at least one on the rail system

(2) has a movable carriage (3) with a vertically movable crane robot (4), the crane robot (4) being rotatable or pivotable and the crane robot (4) having a telescopic arm

(5) or a cantilever arm (6) is arranged, with at least receiving means (7) for a pressure device (8) and/or reinforcement device (9) being present on the telescopic arm (5) and/or the cantilever arm (6).

6. Mobile 3D printer according to one of the preceding claims, d a d u r c h g e k e n n z e i c h n e t that the respective telescopic arm (5) or the respective cantilever arm

(6) can be swiveled on the respective crane robot (4) and/or that the respective crane robot (4) can be tilted.

7. Mobile 3D printer according to one of the preceding claims, d a d u r c h g e k e n n z e i c h n e t that with at least two vehicle trailers (1) or supplementary vehicle trailers (10) arranged parallel to one another at a distance from one another with the rail system (2), the respective telescopic arm (5) or the respective cantilever arm (6 ) on the respective crane robot (4) on the at least one movable carriage (3) of a vehicle trailer (1) or supplementary vehicle trailer (10) on the respective telescopic arm (5) or the respective cantilever arm (6) on the respective crane robot (4) on the at least one mobile carriage

(3) of the vehicle trailer (1) or supplementary vehicle trailer (10) arranged parallel and spaced apart next to one another and forming a portal (11) in each case.

8. Mobile 3D printer according to one of the preceding claims, characterized in that the cantilever (6) is extendable and / or a traverse

(12) comprises or is and/or that the receiving means (7) for the pressure device (8) and/or the reinforcement device

(9) are movable or displaceable on the cantilever arm (6) or on the traverse (12) or on the telescopic arm (5).

9. Mobile 3D printer according to one of the preceding claims, d a d u r c h g e k e n n z e i c h n e t that the movable carriages (3) of the at least one vehicle trailer (1) or of the at least one supplementary vehicle trailer (10) to the at least one movable carriage (3) of the parallel spaced apart side by side at least one vehicle trailer

(1) or the at least one supplementary vehicle trailer (10) can be moved synchronously and/or without play.

10. Mobile 3D printer according to one of the preceding claims, d a d u r c h g e k e n n z e i c h n e t that the movable carriage (3) can be moved on the rail system (2) by means of a spindle drive, toothed belt, gear wheels, toothed rail, toothed rack, chain drive or another linear drive.

11. Mobile 3D printer according to one of the preceding claims, d a d u r c h g e k e n n z e i c h n e t that the at least one vehicle trailer (1) and/or the at least one supplementary vehicle trailer (10) has supports (13) and/or can be leveled.