CN213918778U - A3D printer for corner wall body preparation - Google Patents

Abstract

The utility model provides a 3D printer for corner wall body preparation relates to 3D and prints technical field. The 3D printer for manufacturing the corner wall comprises a right-angle wall underframe, a right-angle wall underframe and at least two hanging beam devices, wherein the right-angle wall underframe is used for positioning and supporting the hanging beam devices, the hanging beam devices are used for hoisting right-angle molds, the right-angle molds are used for positioning the right-angle walls, the right-angle wall underframe and the right-angle wall underframe are vertically arranged, the corners of the bottom of the right-angle wall underframe are respectively provided with adjustable supporting legs, the vertical supporting heights can be adjusted through the adjustable supporting legs, and a space formed by the supporting heights is used for inserting and carrying a carrying vehicle; the bottom surface of the right-angle wall underframe and the lowest supporting surface of the adjustable supporting leg are on the same horizontal plane; the right-angle wall is 3D printing. Adopt the utility model discloses a transport speed can be accelerated to the scheme.

Description

A3D printer for corner wall body preparation

Technical Field

The utility model relates to a 3D prints technical field, especially relates to a 3D printer for corner wall body preparation.

Background

At present, a 3D printer for corner wall body preparation prints on fixed work platform mostly to obtain the 3D right angle wall body of fixed position, however, in industry or building field practical application, the right angle wall body after printing often need adjust to different positions and carry out follow-up installation, not only extravagant manpower of mode according to original artifical dismantlement, still can waste the financial resources that from this produces, consequently, need can be the 3D printer for corner wall body preparation of quick adjustment 3D right angle wall body support position.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information constitutes prior art already known to a person skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at provides a 3D printer for corner wall body preparation to in solving current application, be used for the slower problem of 3D printer transport speed of corner wall body preparation.

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

the utility model provides a 3D printer for preparation of corner wall body, include: the vertical wall comprises a right-angle wall underframe, a right-angle wall stander and at least two hanging beam devices, wherein the right-angle wall stander is used for positioning and supporting the hanging beam devices, the hanging beam devices are used for hoisting right-angle molds, the right-angle molds are used for positioning the right-angle wall, the right-angle wall stander and the right-angle wall underframe are vertically arranged, the corners of the bottom of the right-angle wall underframe are respectively provided with adjustable supporting legs, the vertical supporting heights can be adjusted through the adjustable supporting legs, and a space formed by the supporting heights is used for inserting and carrying a carrying vehicle;

the bottom surface of the right-angle wall underframe and the lowest supporting surface of the adjustable supporting leg are on the same horizontal plane;

the right-angle wall is 3D printing.

Furthermore, four adjustable supporting legs are arranged and are respectively positioned at four corners of the bottom surface of the right-angle wall underframe.

Furthermore, the hanging beam device comprises a steel wire rope winding and a steel wire rope wheel, the steel wire rope winding extends out along the steel wire rope wheel to form two hanging points, and a gap is reserved between the heights of the two right-angle wall underframe;

furthermore, the four adjustable supporting legs are respectively connected with a servo motor, the height of the four adjustable supporting legs can be adjusted by each servo motor at the same time, and the height of each corresponding adjustable supporting leg can be adjusted by each servo motor independently.

Furthermore, adjustable supporting legs includes the backing plate that the level set up, with the fixed screw rod that sets up of backing plate, with screw rod threaded connection's worm gear is used for driving the worm gear is relative the hand wheel that the screw rod screw thread rises or the screw thread descends, the hand wheel passes the worm gear with servo motor connects.

Further, the right-angle wall frame comprises an upper supporting shell and a lower supporting frame positioned below the upper supporting shell; and a plurality of steel wire rope wheels are arranged in the upper supporting shell, and the steel wire rope is wound along the steel wire rope wheels and hoisted by the right-angle die through a hanging bracket.

Furthermore, a platform is arranged at the bottom of the lower support frame, a winch is arranged on the platform, and the winch is used for controlling the rotation of the steel wire rope wheel.

Furthermore, the steel wire rope is extended out along the steel wire rope wheel to form two hoisting points.

Furthermore, the hanging beam device comprises an inner clamping beam and an outer clamping beam, wherein the inner clamping beam is positioned below and the outer clamping beam are hinged at an acute angle, a tension spring, an electric cylinder pull rod and an electric cylinder sleeve are sequentially arranged between the head of the inner clamping beam and the head of the outer clamping beam from top to bottom, and the electric cylinder pull rod extends out of the electric cylinder sleeve and is connected with the tension spring; the tail of the inner clamping beam is sequentially provided with a motor, a speed reducer connected with the motor and a gear set connected with the speed reducer.

Furthermore, the outer portion of outer clamp roof beam is provided with be used for with articulated seat that interior clamp roof beam is connected.

Furthermore, an inner clamping beam upright post is arranged below the inner clamping beam, an integrally formed upright post is arranged below the outer clamping beam, the supporting bottom surface of the upright post is the same as that of the inner clamping beam upright post, and a horizontal height difference is formed between the large gears of the gear sets of the two hanging beam devices;

the hanging beam device is connected with the right-angle die through two upright posts.

The utility model has the advantages that:

the utility model provides a 3D printer for corner wall body preparation can obtain following effect:

by adopting the 3D printer for manufacturing the corner wall, the height of the vertical space between the right-angle wall underframe and the ground can be adjusted by using the supporting legs with adjustable height, and the space is used for the insertion and the carrying of a carrying vehicle, so that the carrying speed can be increased, the carrying efficiency can be improved, and the number of printed walls can be increased; in addition, the height of the adjustable supporting legs can be adjusted in a single direction, and a plurality of supporting legs can be adjusted simultaneously to achieve rapid vertical lifting.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic axial side structure diagram of a 3D printer for manufacturing a corner wall according to an embodiment of the present invention;

fig. 2 is a schematic top view of a 3D printer for manufacturing a corner wall according to an embodiment of the present invention;

fig. 3 is a schematic axial side structure view of a right-angled wall frame of a 3D printer for manufacturing a corner wall according to an embodiment of the present invention;

fig. 4 is a schematic axial side structure diagram of a hanging beam device of a 3D printer for manufacturing a corner wall according to an embodiment of the present invention;

fig. 5 is a schematic axial side structure view of an adjustable supporting leg of a hanging beam device of a 3D printer for manufacturing a corner wall according to an embodiment of the present invention;

fig. 6 is a side view schematic diagram for showing the difference in height of two hanging beam devices of the hanging beam device of the 3D printer for making the corner wall provided by the embodiment of the utility model.

Icon:

10-right-angle wall underframe;

20-right angle wall rack;

21-an upper support shell;

22-a lower support frame;

30-a hanging beam device;

31-an inner clamped beam;

32-outer clamping beam;

33-a drive motor;

34-a reducer;

35-gear set;

36-a hinged seat;

37-inner clamped beam column;

38-tension spring;

39-electric cylinder rod;

310-electric cylinder sleeve;

40-right angle mold;

printing a right-angle wall in a 50-3D mode;

60-adjustable supporting legs;

61-a backing plate;

62-screw rod;

63-worm gear;

64-a hand wheel;

65-a servo motor;

70-a winch.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Examples

As shown in fig. 1-6, for the utility model provides a 3D prints the schematic structure of right angle wall 50 phantom, combine the figure to explain utility model's 3D prints right angle wall 50 phantom, concrete structure is as follows.

As shown in fig. 1-6, the embodiment of the utility model provides a provide 50 phantoms of 3D printing right angle wall for using the concrete mould when printing right angle wall body for the 3D printer of china ink specifically includes: the vertical wall structure comprises a right-angle wall underframe 10, a right-angle wall frame 20 and at least two hanging beam devices 30, wherein in the embodiment, the number of the hanging beam devices 30 is two, the right-angle wall underframe 20 is used for positioning and supporting the hanging beam devices 30, the hanging beam devices 30 are used for hoisting right-angle molds 40, the right-angle molds 40 are used for positioning the right-angle wall, the right-angle wall frame 20 and the right-angle wall underframe 10 are vertically arranged, the corners at the bottom of the right-angle wall underframe 10 are respectively provided with adjustable supporting feet 60, the vertical supporting heights can be adjusted by the adjustable supporting feet 60, and spaces formed by the supporting heights are used for inserting and carrying trucks; the bottom surface of the right-angle wall underframe 10 and the lowest supporting surface of the adjustable supporting feet 60 are on the same horizontal plane; the right-angle wall is a 3D printed right-angle wall 50.

Alternatively, four adjustable support feet 60 are provided, and the four adjustable support feet 60 are respectively located at four corners of the bottom surface of the right-angle wall underframe 10.

The alternative of this embodiment is that four adjustable supporting legs 60 are connected with a servo motor 65 respectively, and each servo motor 65 can adjust the height of four adjustable supporting legs 60 simultaneously, and each servo motor 65 can also adjust the height of each corresponding adjustable supporting leg 60 alone.

The alternative of this embodiment is that the adjustable supporting foot 60 includes a base plate 61 arranged horizontally, a screw 62 fixed to the base plate 61, a worm gear 63 in threaded connection with the screw 62, and a hand wheel 64 for driving the worm gear 63 to ascend or descend in thread relative to the screw 62, and the hand wheel 64 passes through the worm gear 63 and is connected with a servo motor 65.

Alternatively to this embodiment, the right angle wall frame 20 includes an upper support case 21 and a lower support frame 22 located below the upper support case 21; a plurality of wire rope wheels are arranged in the upper supporting shell 21, and the wire rope is hoisted to the right-angle die 40 through the hanging bracket along the plurality of wire rope wheels.

An alternative to this embodiment is to provide a platform at the bottom of the lower support frame 22, and provide a hoist 70 on the platform, the hoist 70 being used to control the rotation of the wire rope wheel.

An alternative to this embodiment is that the lifting beam device comprises a wire rope reel and a wire rope pulley, the wire rope reel extending along the wire rope pulley to form two lifting points, and a space is present between the heights of the two right-angle wall underframe 10.

It should be noted that, the hoist 70 drives the motor 33 to drive the wire rope pulley to rotate, the wire rope pulley rotates to drive the wire to stretch, and the wire stretches to drive the right-angled wall to move up and down, so as to obtain the rapid printing of the wall.

In addition, the lifting steel wire rope is adopted to be lifted or lowered, and the steel wire rope has certain flexibility, so that the frame can be manufactured; the error of the upper supporting shell 21 in the installation can be released in the steel wire rope, so that the equipment is convenient to manufacture, low in cost and long in service life.

The suspension beam device 30 comprises an inner clamping beam 31 positioned below and an outer clamping beam 32 positioned above, which are hinged at an acute angle, wherein a tension spring 38, an electric cylinder pull rod 39 and an electric cylinder sleeve 310 are sequentially arranged between the head of the inner clamping beam 31 and the head of the outer clamping beam 32 from top to bottom, and the electric cylinder pull rod 39 extends out of the electric cylinder sleeve and is connected with the tension spring 38; the tail part of the inner clamping beam 31 is sequentially provided with a driving motor 33, a speed reducer 34 connected with the driving motor 33 and a gear set 35 connected with the speed reducer 34, wherein the speed reducer 34 is a worm gear 63 speed reducer 34.

It should be noted that, the advantages of the compression and clamping by the tension spring 38 are that the internal and external forces of the right-angle wall are balanced, and the forces are a pair of forces with opposite pressures; secondly, the forces of the inner and outer compression bars pressing on the die are mutually offset, so that the forces are not inward or outward.

In addition, the driving motor 33 drives the worm gear 63 speed reducer to rotate, the speed reducer drives the pinion in the gear set 35 to rotate, the pinion is meshed with the gear wheel in the gear set 35 to rotate, the beam rods and the central shaft are fixed through flat keys, and the rotation of the gear wheel drives the beam rods to rotate 90 degrees, so that the two beam rods can be quickly pushed out of the printed right-angle wall.

An alternative to this embodiment is that the outer part of the outer clamping beam 32 is provided with a hinge seat 36 for connection with the inner clamping beam 31.

An alternative of this embodiment is that an inner beam-clamping column 37 is disposed below the inner beam-clamping 31, an integrally-formed column is disposed below the outer beam-clamping 32, the bottom surface of the column is the same as that of the inner beam-clamping column 37, and a horizontal height difference is formed between the large gears of the gear sets of the two suspension beam devices 30; the hanging beam device 30 is connected with the right-angle mould 40 through two upright posts; it should be noted that the suspension beam device 30 of the present embodiment is provided with two, so that four columns are provided in total, and the four columns make the right-angle mold 40 move up and down vertically and horizontally smoothly.

By adopting the 50-dimensional model of the 3D printed right-angle wall in the embodiment and applying the supporting legs with adjustable heights, the height of a vertical space between the right-angle wall underframe 10 and the ground can be adjusted, and the space is used for inserting and carrying a carrying vehicle, so that the carrying speed can be increased, the carrying efficiency can be improved, and the number of printed walls can be increased; in addition, the adjustable supporting legs 60 can be height-adjusted in a single direction, or a plurality of supporting legs can be height-adjusted at the same time, so that vertical lifting can be performed quickly.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (10)

1. A3D printer for manufacturing a corner wall body is characterized by comprising a right-angle wall underframe, a right-angle wall underframe and at least two hanging beam devices, wherein the right-angle wall underframe is used for positioning and supporting the hanging beam devices, the hanging beam devices are used for hanging right-angle molds, the right-angle molds are used for positioning the right-angle wall, the right-angle wall underframe and the right-angle wall underframe are vertically arranged, the bottom corners of the right-angle wall underframe are respectively provided with adjustable supporting legs, the vertical supporting heights can be adjusted through the adjustable supporting legs, and a space formed by the supporting heights is used for inserting and carrying a carrying vehicle;

the bottom surface of the right-angle wall underframe and the lowest supporting surface of the adjustable supporting leg are on the same horizontal plane;

the right-angle wall is 3D printing.

2. The 3D printer for manufacturing the corner wall according to claim 1, wherein four adjustable supporting legs are provided, and the four adjustable supporting legs are respectively located at four corners of the bottom surface of the right-angle wall underframe.

3. The 3D printer for corner wall fabrication of claim 2, wherein the hanging beam device comprises a steel wire rope and a steel wire rope wheel, the steel wire rope extends along the steel wire rope wheel to form two hanging points, and a space exists between the two right-angle wall chassis.

4. The 3D printer for manufacturing the corner wall according to claim 3, wherein the adjustable supporting legs comprise a base plate arranged horizontally, a screw rod fixedly arranged on the base plate, a worm gear connected with the screw rod in a threaded manner, and a hand wheel used for driving the worm gear to ascend relative to the screw rod in a threaded manner or to descend in a threaded manner, and the hand wheel penetrates through the worm gear and is connected with the servo motor.

5. The 3D printer for corner walling according to claim 1, wherein the right angle wall frame includes an upper support shell and a lower support frame located below the upper support shell; and a plurality of steel wire rope wheels are arranged in the upper supporting shell, and the steel wire rope is wound along the steel wire rope wheels and hoisted by the right-angle die through a hanging bracket.

6. The 3D printer for manufacturing the corner wall according to claim 5, wherein a platform is arranged at the bottom of the lower support frame, and a winch is arranged on the platform and used for controlling the rotation of the wire rope wheel.

7. The 3D printer for corner wall fabrication of claim 5, wherein the wire rope wrap extends along the wire rope pulley forming two hanging points.

8. The 3D printer for manufacturing the corner wall according to claim 1, wherein the hanging beam device comprises an inner clamping beam and an outer clamping beam, the inner clamping beam is located below and the outer clamping beam are located above, the inner clamping beam and the outer clamping beam are hinged at an acute angle, a tension spring, an electric cylinder pull rod and an electric cylinder sleeve are sequentially arranged between the head of the inner clamping beam and the head of the outer clamping beam from top to bottom, and the electric cylinder pull rod extends out of the electric cylinder sleeve to be connected with the tension spring; the tail part of the inner clamping beam is sequentially provided with a motor, a speed reducer connected with the motor and a gear set connected with the speed reducer;

and a vertical height difference is arranged between the large gears of the gear sets of the two hanging beam devices.

9. The 3D printer for corner wall fabrication of claim 8, wherein the outer portion of the outer clamping beam is provided with a hinged seat for connection with the inner clamping beam.

10. The 3D printer for manufacturing the corner wall according to claim 8, wherein an inner clamping beam upright column is arranged below the inner clamping beam, an integrally formed upright column is arranged below the outer clamping beam, the supporting bottom surface of the upright column is the same as that of the inner clamping beam upright column, and the vertical surfaces of the two upright columns are the same;

the hanging beam device is connected with the right-angle die through two upright posts.

Images