CN211899699U - Building forming machine based on self-climbing platform - Google Patents

Abstract

The utility model relates to the technical field of building, in particular to a building forming machine based on a self-climbing platform, which comprises a lifting platform, a lifting upright post device, a power device and a printing device, wherein the power device is matched with the lifting upright post device; the lifting upright post device comprises a lifting upright post and a base upright post, the lifting upright post comprises an upright post standard knot, the lifting upright post is connected with the lifting platform, and the lower end of the base upright post is fixedly arranged on the foundation and is inserted into the lifting upright post; when the lifting platform is in a static state, the lifting upright posts are in limit fit with the base upright posts; the power device acts to enable the lifting upright post to move upwards relative to the base upright post and drive the lifting platform to move upwards, a section of upright post standard section is conveyed to the lower part of the lifting upright post, and the upright post standard section is fixedly connected with the lifting upright post; the utility model discloses a building forming machine its shaping operation that can be applied to not co-altitude building.

Description

Building forming machine based on self-climbing platform

Technical Field

The utility model relates to a building technical field, concretely relates to building forming machine based on from platform that climbs.

Background

The existing building forming machine, especially the 3d printing device, can only be used for printing and forming of low-rise buildings and cannot be used for printing and forming of high-rise buildings due to the limitation of the lifting height of the printing spray head; the existing building forming machine can be used for printing and forming high-rise buildings by adopting a mode of combining a 3d printing device and a self-climbing platform, but the self-climbing platform is complex to operate and inconvenient to use.

Disclosure of Invention

An object of the utility model is to overcome prior art's defect, provide a make-up machine based on from platform that climbs, its shaping operation that can be applied to not co-altitude building.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a building forming machine based on a self-climbing platform comprises a lifting platform 1, at least one group of lifting upright post devices, at least one group of power devices 1g and a 3d printing device, wherein each group of power devices 1g is matched with one group of lifting upright post devices for use; the lifting upright post device comprises a lifting upright post 1d and a basic upright post 11d, the lifting upright post 1d comprises at least one upright post standard knot 10d, the lifting upright post 1d is connected with the lifting platform 1, and the lower end of the basic upright post 11d is fixedly arranged on the foundation 2 and inserted into the lifting upright post 1 d; when the lifting platform 1 is in a static state, the lifting upright column 1d is in limit fit with the base upright column 11 d; the power device 1g acts to enable the lifting upright post 1d to move upwards relative to the base upright post 11d and drive the lifting platform 1 to move upwards, when the distance between the lower end of the lifting upright post 1d and the foundation 2 can accommodate one upright post standard section 10d, one upright post standard section 10d is conveyed to the lower part of the lifting upright post 1d from one side of the base upright post 11d, and the upright post standard section 10d is fixedly connected with the lifting upright post 1d, so that the lifting platform 1 continues to climb; 3d printing device includes X axle track group, Y axle track 1b and prints shower nozzle 1a, and X axle track group sets up on lift platform 1, and Y axle track 1b and X axle track group cooperation and Y axle track 1b can follow the extending direction reciprocating motion of X axle track group, print shower nozzle 1a and link to each other with Y axle track 1b and can follow the extending direction reciprocating motion of Y axle track 1 b.

Preferably, the lifting device also comprises a lifting track 1f fixed on the lifting upright post 1d and a track seat 1e matched with the lifting track 1 f; the power device 1g is a hydraulic oil cylinder which comprises a piston rod and a cylinder barrel, the track seat 1e is connected with one end of the piston rod, and the track seat 1e is in limit fit with the lifting track 1 f; when the lifting platform 1 climbs, firstly, the limit matching between the lifting upright post 1d and the base upright post 11d is removed, the piston rod is ejected out, the lifting platform 1 is driven to rise through the lifting upright post 1d, then the lifting upright post 1d is in limit matching with the base upright post 11d, the limit matching between the track seat 1e and the lifting track 1f is removed, the piston rod is contracted to drive the track seat 1e to move downwards, then the track seat 1e is in limit matching with the lifting track 1f, and the lifting platform 1 can continuously climb by repeating the process.

Preferably, a plurality of stop blocks are arranged on the lifting track 1f and are uniformly distributed along the extension direction of the lifting track 1f, the distance between two adjacent stop blocks is D, and D is more than 0 and less than 300 mm; the power device 1g enables the height of the lifting platform 1 climbing each time to be D.

Preferably, the lifting rail 1f is an i-shaped rail; the lifting upright posts 1d and the side edges of the lifting platform 1 form a cross structure, and the lifting upright posts 1d are inserted into the side edges of the lifting platform 1; four top corners of the lifting platform 1 are respectively provided with a lifting upright post 1 d; and the adjacent two upright standard sections 10d are fixedly connected through a plurality of bolts.

Preferably, each side edge of the lifting platform 1 is of a square frame structure consisting of horizontal trusses 3; each side upside of lift platform 1 still is equipped with walking passageway 1h, and walking passageway 1h is including walking the guidance tape, walks the guidance tape and sets up in 3 upsides of horizontal truss.

Preferably, the lifting platform further comprises a protective net which is arranged on the side surface of the lifting platform 1 and fixedly connected with the lifting platform, and the upper end of the protective net is at least 0.5-1m higher than the upper side of the lifting platform 1; the protective net is a protective steel net.

Preferably, the 3d printing device further comprises a Z-axis track, the Z-axis track is perpendicular to the Y-axis track 1b, the printing nozzle 1a is arranged on the Z-axis track and can reciprocate along the extending direction of the Z-axis track, and the Z-axis track can reciprocate along the extending direction of the Y-axis track 1 b.

Preferably, the 3d printing device further comprises a feeding device connected with the printing nozzle 1a to feed the printing nozzle 1a, the feeding device comprises a dry powder bin 61 and a stirring bin 62 arranged on one side of the dry powder bin 61, the stirring bin 62 is connected with the printing nozzle 1a, a blanking port 611 for supplying dry powder is arranged at the top of the dry powder bin 61, a dry powder channel 63 is arranged between the dry powder bin 61 and the stirring bin 62, a stirring and extruding integrated shaft 64 sequentially penetrates through the dry powder bin 61, the dry powder channel 63 and the stirring bin 62, a stirring piece 65 respectively matched with the dry powder bin 61 and the stirring bin 62 and an extruding thread 66 matched with the dry powder channel 63 are arranged on the stirring and extruding integrated shaft 64, and a corresponding additive adding port and a water filling port are arranged on the stirring bin 62.

Preferably, the feeding device further comprises a second stirring bin 67, the second stirring bin 67 is perpendicular to the stirring bin 62, the middle of the second stirring bin 67 is connected with an outlet of the stirring bin 62, a second stirring shaft 68 is arranged in the second stirring bin 67, the axis of the second stirring shaft 68 is perpendicular to the axis of the stirring and extruding integral shaft 64, and the outlet of the second stirring bin 67 is provided with a screw pump 69 and is connected with the printing spray head 1a through the screw pump 69.

Preferably, the device also comprises a stand column base 2a, wherein the stand column base 2a is arranged on the foundation 2, and the lower end of a basic stand column 11d is fixedly arranged on the stand column base 2 a; the upright post base 2a is a steel base or a cement pouring base.

The utility model discloses a building forming machine based on platform that climbs certainly, its lift stand device includes lift stand and foundation column, and the lift stand includes at least a section of stand standard festival, and after the lift stand rose, the interval between its lower extreme and the ground can hold a section of stand standard festival, send a section of stand standard festival to the lift stand below from foundation column one side, make the two fixedly link to each other, can make the lift platform continue to climb, thereby make the utility model discloses a building forming machine based on platform that climbs certainly can be used for the shaping operation of the building of various heights, and the height adjustment mode of lift stand is simple, easy and simple to handle; the utility model discloses a make-up machine based on from platform that climbs, its 3d printing device includes X axle track group, Y axle track and printing shower nozzle, X axle track group sets up on lift platform, Y axle track and X axle track group cooperation, one then 3d printing device's fixed knot constructs simplyr, need not extra track bearing structure, and convenient assembling, the second makes 3d printing device can carry out the building shaping operation of bigger area, satisfies different building area's building shaping demand.

Drawings

Fig. 1 is a schematic top view of a building forming machine based on a climbing platform according to the present invention;

fig. 2 is an enlarged schematic view of a portion a of fig. 1 according to the present invention;

fig. 3 is a schematic structural diagram of one side of the building forming machine based on the climbing platform, which does not start printing operation;

fig. 4 is a schematic structural diagram of one side of the building forming machine based on the climbing platform according to the present invention, which at least shows a process of adding a standard section of the column below the lifting column after the building forming machine based on the climbing platform completes a plurality of printing operations;

fig. 5 is a schematic structural view of the horizontal truss of the present invention;

FIG. 6 is a schematic structural diagram of a standard section of the column of the present invention;

fig. 7 is a schematic structural diagram of the feeding device of the present invention.

Detailed Description

The following further describes a concrete implementation of the building forming machine based on the self-climbing platform according to the present invention, with reference to the embodiments shown in fig. 1 to 7. The utility model discloses a make-up machine based on platform that climbs certainly is not limited to the description of following embodiment.

The utility model discloses a building forming machine based on self-climbing platform, it includes lift platform 1, at least a set of lift stand device, at least a set of power device 1g and 3d printing device, each set of power device 1g all uses with a set of lift stand device cooperation; the lifting upright post device comprises a lifting upright post 1d and a basic upright post 11d, the lifting upright post 1d comprises at least one upright post standard knot 10d, the lifting upright post 1d is connected with the lifting platform 1, and the lower end of the basic upright post 11d is fixedly arranged on the foundation 2 and inserted into the lifting upright post 1 d; when the lifting platform 1 is in a static state, the lifting upright column 1d is in limit fit with the base upright column 11 d; the power device 1 acts to enable the lifting upright post 1d to move upwards relative to the base upright post 11d and drive the lifting platform 1 to move upwards, when the distance between the lifting upright post 1d and the foundation 2 can accommodate one upright post standard section 10d, one upright post standard section 10d is conveyed to the lower part of the lifting upright post 1d from one side of the base upright post 11d, and the upright post standard section 10d is fixedly connected with the lifting upright post 1d, so that the lifting platform 1 continues to climb; 3d printing device includes X axle track group, Y axle track 1b and prints shower nozzle 1a, and X axle track group sets up on lift platform 1, and Y axle track 1b and X axle track group cooperation and Y axle track 1b can follow the extending direction reciprocating motion of X axle track group, print shower nozzle 1a and link to each other with Y axle track 1b and can follow the extending direction reciprocating motion of Y axle track 1 b.

The utility model discloses a building forming machine based on self-climbing platform, its lift stand device includes lift stand 1d and foundation column 11d, lift stand 1d includes at least a section of stand standard festival 10d, after lift stand 1d rose, when the interval between its lower extreme and ground 2 can hold a section of stand standard festival 10d, send a section of stand standard festival 10d to the lift stand 1d below from foundation column 11d one side, make the two fixedly link to each other, can make lift platform 1 continue to climb, thereby make the utility model discloses a building forming machine based on self-climbing platform can be used for the shaping operation of the building of various heights, and the height control mode of lift stand 1d is simple, easy and simple to handle; the utility model discloses a make-up machine based on from platform that climbs, its 3d printing device includes X axle track group, Y axle track 1b and printing shower nozzle 1a, X axle track group sets up on lift platform 1, Y axle track 1b and X axle track group cooperation, one 3d printing device's fixed knot constructs simplyr, need not extra track bearing structure, high convenience for assembly, the second makes 3d printing device can carry out the building shaping operation of bigger area, satisfy different building area's building shaping demand.

As shown in fig. 1-4, it is an embodiment of the building forming machine of the self-climbing platform of the present invention.

As shown in fig. 1-4, the building forming machine based on the self-climbing platform of the present invention comprises a lifting platform 1, at least one set of lifting column devices, at least one set of power device 1g and a 3d printing device, wherein each set of power device 1g is used in cooperation with one set of lifting column devices; the lifting upright post device comprises a lifting upright post 1d and a base upright post 11d, the lifting upright post 1d comprises at least one upright post standard knot, the lifting upright post 1d is connected with the lifting platform 1, and the lower end of the base upright post 11d is fixedly arranged on the foundation 2 and inserted into the lifting upright post 1 d; when the lifting platform 1 is in a static state, the lifting upright column 1d is in limit fit with the base upright column 11 d; the power device 1g acts to enable the lifting upright post 1d to move upwards relative to the base upright post 11d and drive the lifting platform 1 to move upwards, when the distance between the lower end of the lifting upright post 1d and the foundation 2 can accommodate one upright post standard section 10d, one upright post standard section 10d is conveyed to the lower part of the lifting upright post 1d from one side of the base upright post 11d, and the upright post standard section 10d is fixedly connected with the lifting upright post 1d, so that the lifting platform 1 continues to climb; lifting platform 1 is square frame shape structure, and 3d printing device includes X axle track group, Y axle track 1b and prints shower nozzle 1a, and X axle track group sets up on lifting platform 1, and Y axle track 1b cooperates with X axle track group, and Y axle track 1b can follow the extending direction reciprocating motion of X axle track group, prints shower nozzle 1a and links to each other with Y axle track 1b and can follow the extending direction reciprocating motion of Y axle track 1 b.

It should be noted that the number of groups of the power device 1g may be less than that of the lifting column device, as long as the power provided by the power device 1g is enough to satisfy the normal climbing of the lifting platform 1. Preferably, the utility model discloses a building forming machine based on platform of climbing certainly, its power device 1 g's group number is the same with the group number of lift stand device, and every group lift stand device all cooperates with a set of power device 1g promptly.

Preferably, as shown in fig. 1, the lifting column 1d of the lifting column device and the side of the lifting platform 1 form a cross structure, the lifting column 1d is inserted into the side of the lifting platform 1 and fixedly connected therewith, and four top corners of the lifting platform 1 are respectively provided with one lifting column 1 d. Furthermore, at least one lifting upright post 1d is inserted in the middle of each side edge of the lifting platform 1.

Specifically, as shown in the direction of fig. 1, the building forming machine based on the self-climbing platform of the present invention comprises 6 sets of lifting column devices and 6 sets of power devices 1g, each lifting column 1d of each lifting column device is used with one set of power device 1g, each of four corners of the lifting platform 1 is provided with a lifting column 1d, each of a pair of sides of the lifting platform 1 is provided with a lifting column 1d, preferably, each of a pair of long sides of the lifting platform 1 is provided with a lifting column 1d to improve the stability of the lifting platform 1, the X-axis track set of the 3d printing device comprises two X-axis tracks 1c, the two X-axis tracks 1c are respectively arranged on the upper sides of a pair of long sides of the lifting platform 1, the two ends of the Y-axis track 1b are respectively arranged on the upper sides of the two X-axis tracks 1c, which is favorable for reducing the length of the Y-axis track 1b, the stability of the 3d printing device is improved. It should be noted that, the utility model discloses a building forming machine based on platform of climbing certainly, its lift stand 1 d's number is not limited to only 6, and lift stand 1 d's number is changed according to lift platform 1's specification, that is to say, if lift platform 1's side length compares in the utility model discloses longer or shorter, can corresponding increase or reduce lift stand 1 d's number to guarantee lift platform 1's stability, and control cost.

It should be noted that the utility model discloses a building forming machine based on from platform of climbing can also only include a set of lift stand device and a set of power device, lift platform 1 and lift stand device's lift stand 1d vertical cross setting, and lift stand 1d puts from lift platform 1's central point and passes. The form saves the using amount of the lifting upright posts 1d, and is more suitable for the situation that the lifting platform 1 has smaller specification (namely, smaller length and width).

Preferably, as shown in fig. 1 to 4, the building forming machine based on the self-climbing platform of the present invention further includes a lifting rail 1f fixed on the lifting column 1d and a rail seat 1e in rail fit with the lifting rail 1 f; the power device 1g is a hydraulic oil cylinder which comprises a piston rod and a cylinder barrel, the track seat 1e is connected with one end of the piston rod, and the track seat 1e is in limit fit with the lifting track 1 f; when the lifting platform 1 climbs, firstly, the limit matching between the lifting upright post 1d and the base upright post 11d is removed, the piston rod is ejected out, the lifting platform 1 is driven to rise through the lifting upright post 1d, then the lifting upright post 1d is in limit matching with the base upright post 11d, the limit matching between the track seat 1e and the lifting track 1f is removed, the piston rod is contracted to drive the track seat 1e to move downwards, then the track seat 1e is in limit matching with the lifting track 1f, and the lifting platform can continuously climb by repeating the process. Furthermore, a plurality of stop blocks are arranged on the lifting track 1f and are uniformly distributed along the extension direction of the lifting track 1f, the distance between two adjacent stop blocks is D, and D is more than 0 and less than 300 mm; the power device 1g enables the lifting platform 1 to climb to a height D each time. Further, D is 255 mm. Further, the lifting track 1f is an i-shaped track, preferably, as shown in fig. 2, the lifting track 1f is an i-shaped steel, the i-shaped steel includes a connecting wall and a track wall, the connecting wall and the lifting column 1d are arranged oppositely, the connecting wall is fixedly connected with the lifting column 1d, and the track wall is matched with the track seat 1 e. Preferably, as shown in fig. 2, the track seat 1e includes a connecting portion and two clamping arms, the two clamping arms are oppositely disposed on one side of the connecting portion, and the connecting portion and the two clamping arms enclose a T-shaped slot to be matched with the track wall of the i-steel.

Specifically, as shown in fig. 3 and 4, the power device 1g is a hydraulic cylinder, the hydraulic cylinder includes a piston rod and a cylinder, one end of the piston rod is connected with the rail seat 1e, and when the lifting platform 1 is in a climbing state, the rail seat 1e is in limit fit with the lifting upright post 1 d; when the lifting platform 1 climbs, firstly, the limit matching between the lifting upright post 1D and the base upright post 11D is removed, the piston rod is ejected out, the lifting platform 1 is driven to climb by the rail seat 1e and the lifting upright post 1D, when the ejection length of the piston rod is D, the hydraulic oil cylinder stops working, the limit matching between the lifting upright post 1D and the base upright post 11D is removed, the limit matching between the rail seat 1e and the lifting track 1f is removed, the piston rod is contracted to drive the rail seat 1e to move downwards relative to the lifting track 1f, then the rail seat 1e is in limit matching with the lifting track 1f, so that the sequential climbing of the lifting platform 1 is completed, and the lifting platform 1 can continuously climb by repeating the processes. Furthermore, the limit matching of the lifting upright post 1d and the basic upright post 11d and the limit matching of the rail seat 1e and the lifting rail 1f are realized through the matching of a pin shaft and a pin hole or the matching of a bolt and a nut; and in the climbing process of the lifting platform 1, all power devices 1g act synchronously. As shown in fig. 3 and 4, when the distance between the lower end of the lifting upright post 1d and the foundation 2 can accommodate one upright post standard knot 10d, the lifting platform 1 cannot climb further at this time, and one upright post standard knot 10d can be sent to the lower part of the lifting upright post 1d from one side of the base upright post 11d, and the two are fixedly connected, which is equivalent to extending the length of the lifting upright post 1d, so that the lifting platform 1 can climb continuously.

It should be noted that the rail seat 1e is matched with the rail of the lifting rail 1f, which means that the rail seat 1e cannot be separated from the lifting rail 1f, but can move back and forth along the extending direction of the lifting rail 1 f; the limiting fit of the rail seat 1e and the lifting rail 1f means that the rail seat 1e cannot move relative to the lifting rail 1 f; the limit matching of the lifting upright post 1d and the basic upright post 11d means that the lifting upright post 1d and the basic upright post 11d can not move relatively.

Preferably, as shown in fig. 6, the standard upright post joint 10d is a hollow square column structure, one side of which can be opened so as to be sleeved outside the base upright post 11d from below the lifting upright post 1 d; after the standard upright post section 10d is sleeved outside the base upright post 11d, the openable side surface can be fixed again through bolts or rivets.

Preferably, as shown in fig. 1 and 3, each side of the lifting platform 1 is a square column structure surrounded by a horizontal truss 3; each side upside of lift platform 1 still is equipped with walking passageway 1h, and the walking passageway is including walking the guidance tape, walks the guidance tape and sets up the side upside at lift platform 1. Walk the passageway and be convenient for constructor real-time supervision on lift platform 1 the utility model discloses a building forming machine's operating condition based on from the platform that climbs is convenient for constructor to overhaul and maintain building forming machine moreover.

Preferably, the utility model discloses a building forming machine based on platform of climbing certainly still includes the protection network that sets up in 1 side of lift platform rather than fixed linking to each other, and the protection network upper end is higher than 1 upside 0.5-1m of lift platform at least, and the protection network is the protection steel mesh. The protection net forms a square space surrounding the lifting platform 1, guarantees personal safety of constructors, prevents objects on the lifting platform 1 from falling, and is favorable for improving safety of a construction site.

Preferably, the 3d printing device further comprises a Z-axis track, the Z-axis track is perpendicular to the Y-axis track 1b, the printing nozzle 1a is arranged on the Z-axis track and can reciprocate along the extending direction of the Z-axis track, and the Z-axis track can reciprocate along the extending direction of the Y-axis track 1 b. The accurate adjustment of printing shower nozzle 1a height can be realized to the Z axle track, is favorable to improving the accurate nature of building shaping operation, improves the shaping quality of building.

Preferably, as shown in fig. 3, the utility model discloses a building forming machine based on platform of climbing certainly still includes stand base 2a, and stand base 2a sets up on ground 2, and basic stand 11d lower extreme sets up on stand base 2, is favorable to increasing basic stand 11 d's stability. Further, the lifting upright post 2a is a steel base or a cement pouring base.

Preferably, as shown in fig. 3-4, the 3d printing device further comprises a supply device connected to the print head 1a for supplying the print head. It should be noted that the feeding device can be arranged on a Y-axis track of the 3d printing device, so that the feeding distance of the printing nozzle 1a is shortened, and the occurrence of blockage of a feeding pipeline can be remarkably reduced or avoided; the feeding device can also be arranged on the lifting platform 1, and is beneficial to reducing errors generated by vibration of the printing spray head 1 a.

Fig. 7 shows an embodiment of the feeding device.

The feeding device comprises a dry powder bin 61 and a stirring bin 62 arranged on one side of the dry powder bin 61, the stirring bin 62 is connected with the printing spray head 1a, a blanking port 611 used for supplying dry powder is arranged at the top of the dry powder bin 61, a dry powder channel 63 is arranged between the dry powder bin 61 and the stirring bin 62, a stirring piece 65 matched with the dry powder bin 61 and the stirring bin 62 is arranged on a stirring and extruding integrated shaft 64, an extruding thread matched with the dry powder channel 63 is arranged, and a corresponding additive adding port and a water injection port are arranged on the stirring bin 62.

Preferably, the feeding device further comprises a second stirring bin 67, the second stirring bin 67 is perpendicular to the stirring bin 62, the middle of the second stirring bin 67 is connected with the outlet of the stirring bin 62, a second stirring shaft 68 is arranged in the middle of the second stirring bin 67, the axis of the second stirring shaft 68 is perpendicular to the axis of the stirring and extruding integral shaft 64, and the outlet of the second stirring bin 67 is provided with a screw pump 69 and is connected with the printing spray head 1a through the screw pump 69.

It should be noted that the 3d printing device further comprises a first power device for driving the Y-axis track 1b to reciprocate along the X-axis track 1c, a second power device for driving the Z-axis track to reciprocate along the Y-axis track 1b, a third power device for driving the printing nozzle 1a to reciprocate along the Z-axis track, and a control system for controlling the first power device, the second power device and the third power device to work. The utility model discloses a building forming machine based on from platform of climbing still includes the total control system who is used for controlling multiunit power device work, guarantees each power device synchronization action of organizing, is favorable to improving the stability of lift platform 1 process of climbing.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (10)

1. A building forming machine based on a self-climbing platform is characterized by comprising a lifting platform (1), at least one group of lifting upright post devices, at least one group of power devices (1g) and a 3d printing device, wherein each group of power devices (1g) is matched with one group of lifting upright post devices for use; the lifting upright post device comprises a lifting upright post (1d) and a base upright post (11d), the lifting upright post (1d) comprises at least one upright post standard section (10d), the lifting upright post (1d) is connected with the lifting platform (1), and the lower end of the base upright post (11d) is fixedly arranged on the foundation (2) and inserted into the lifting upright post (1 d); when the lifting platform (1) is in a static state, the lifting upright column (1d) is in limit fit with the basic upright column (11 d); the power device (1g) acts to enable the lifting upright post (1d) to move upwards relative to the base upright post (11d) and drive the lifting platform (1) to move upwards, when the distance between the lower end of the lifting upright post (1d) and the foundation (2) can accommodate one section of upright post standard section (10d), one section of upright post standard section (10d) is conveyed to the position below the lifting upright post (1d) from one side of the base upright post (11d), and the upright post standard section (10d) is fixedly connected with the lifting upright post (1d), so that the lifting platform (1) continues to climb; 3d printing device includes X axle track group, Y axle track (1b) and prints shower nozzle (1a), and X axle track group sets up on lift platform (1), and Y axle track (1b) and X axle track group cooperation and Y axle track (1b) can follow the extending direction reciprocating motion of X axle track group, print shower nozzle (1a) and link to each other with Y axle track (1b) and can follow the extending direction reciprocating motion of Y axle track (1 b).

2. The self-climbing platform based building forming machine according to claim 1, wherein: the lifting device also comprises a lifting track (1f) fixed on the lifting upright post (1d) and a track seat (1e) matched with the lifting track (1 f); the power device (1g) is a hydraulic oil cylinder which comprises a piston rod and a cylinder barrel, the track seat (1e) is connected with one end of the piston rod, and the track seat (1e) is in limit fit with the lifting track (1 f).

3. The self-climbing platform based building forming machine according to claim 2, wherein: a plurality of stop blocks are arranged on the lifting track (1f), the stop blocks are uniformly distributed along the extension direction of the lifting track (1f), the distance between every two adjacent stop blocks is D, and D is more than 0 and less than 300 mm; the power device (1g) enables the height of the lifting platform (1) climbing each time to be D.

4. The self-climbing platform based building forming machine according to claim 2, wherein: the lifting track (1f) is an I-shaped track; the lifting upright posts (1d) and the side edges of the lifting platform (1) form a cross structure, and the lifting upright posts (1d) are inserted into the side edges of the lifting platform (1); four top corners of the lifting platform (1) are respectively provided with a lifting upright post (1 d); two adjacent standard sections (10d) of the upright post are fixedly connected through a plurality of bolts.

5. The self-climbing platform based building forming machine according to claim 1, wherein: each side edge of the lifting platform (1) is of a square frame structure consisting of horizontal trusses (3); each side upside of lift platform (1) still is equipped with walking passageway (1h), and walking passageway (1h) is including walking the guidance tape, walks the guidance tape and sets up in horizontal truss (3) upside.

6. The self-climbing platform based building forming machine according to claim 1, wherein: the lifting platform is characterized by further comprising a protective net which is arranged on the side face of the lifting platform (1) and fixedly connected with the lifting platform, and the upper end of the protective net is at least 0.5-1m higher than the upper side of the lifting platform (1); the protective net is a protective steel net.

7. The self-climbing platform based building forming machine according to claim 1, wherein: the 3d printing device further comprises a Z-axis track, the Z-axis track is vertically crossed with the Y-axis track (1b), the printing spray head (1a) is arranged on the Z-axis track and can reciprocate along the extension direction of the Z-axis track, and the Z-axis track can reciprocate along the extension direction of the Y-axis track (1 b).

8. The self-climbing platform based building forming machine according to claim 1, wherein: the 3d printing device further comprises a feeding device which is connected with the printing spray head (1a) to supply materials, the feeding device comprises a dry powder bin (61) and a stirring bin (62) arranged on one side of the dry powder bin (61), the stirring bin (62) is connected with the printing spray head (1a), a blanking port (611) for supplying dry powder is formed in the top of the dry powder bin (61), a dry powder channel (63) is formed between the dry powder bin (61) and the stirring bin (62), a stirring and extruding integrated shaft (64) sequentially penetrates through the dry powder bin (61), the dry powder channel (63) and the stirring bin (62), a stirring piece (65) which is respectively matched with the dry powder bin (61) and the stirring bin (62) is arranged on the stirring and extruding integrated shaft (64), an extruding thread (66) which is matched with the dry powder channel (63) is arranged, and a corresponding additive adding port and a water filling port are formed in the stirring bin (62).

9. The self-climbing platform based building forming machine according to claim 8, wherein: the feeding device further comprises a second stirring bin (67), the second stirring bin (67) is perpendicular to the stirring bin (62), the middle of the second stirring bin (67) is connected with an outlet of the stirring bin (62), a second stirring shaft (68) is arranged in the second stirring bin (67), the axis of the second stirring shaft (68) is perpendicular to the axis of the stirring and extruding integral shaft (64), and the outlet of the second stirring bin (67) is provided with a screw pump (69) and is connected with the printing spray head (1a) through the screw pump (69).

10. The self-climbing platform based building forming machine according to claim 1, wherein: the foundation is characterized by further comprising a stand column base (2a), wherein the stand column base (2a) is arranged on the foundation (2), and the lower end of the foundation stand column (11d) is fixedly arranged on the stand column base (2 a); the upright post base (2a) is a steel base or a cement pouring base.

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