CN214354253U - Adjustable supporting component and 3D printing equipment - Google Patents

Abstract

The utility model discloses an adjustable supporting component and 3D printing apparatus relates to 3D and prints technical field. Adjustable supporting component is applied to in 3D printer in order to support Y axle support and Z axle support of 3D printer, and it includes: the adjustable fastener is arranged at least one end of the supporting rod and is used for being matched with the supporting rod to adjust the length of the adjustable supporting component; the two ends of the supporting rod are respectively and rotatably connected with the Y-axis support and the Z-axis support directly or through adjustable fasteners and used for adjusting the angle between the Y-axis support and the Z-axis support. The utility model discloses bracket component easy operation is convenient for expand adjustable supporting component's quantity according to actual need.

Description

Adjustable supporting component and 3D printing equipment

Technical Field

The utility model relates to a 3D prints technical field, specifically is to relate to an adjustable supporting component and 3D printing apparatus.

Background

The 3D printing technique is a technique for constructing an object by layer-by-layer printing using an adhesive material such as powdered metal or plastic based on a digital model file. Need be equipped with the bracket component in order to remove print platform and shower nozzle subassembly among the 3D printing apparatus, the bracing piece that is equipped with in the current bracket component is in order to support Z axle bracket component and Y axle bracket component are perpendicular in the bracket component and make the bracket component, because the bracing piece is fixed in behind the bracket component can not be adjusted, if the section bar out-of-plumb of the Z axle of installation completion back support component and Y axle direction, the bracing piece needs to be demolishd, the mounted position of adjustment bracing piece is so that Z axle bracket component and Y axle bracket component are perpendicular in the erection bracing piece back support component, because the suitable mounted position of difficult definite bracing piece, need repeat the dismouting to the bracing piece, waste time and energy.

In prior art, also have the bottom through at the bracket component and set up the spout for the bracing piece bottom can slide in the spout, the angle of Z axle support subassembly and Y axle support subassembly in the adjustment bracket component under the condition of not demolising the bracing piece, nevertheless just can realize the cooperation with the bracing piece owing to need set up the spout in the bottom of bracket component, and the structural requirement to the bracket component bottom is higher, is difficult for expanding the quantity of bracing piece according to actual need, and the use scene is restricted.

In view of the above, it is desirable to provide an adjustable support assembly and a 3D printing apparatus to solve the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

The utility model provides an adjustable supporting component and 3D printing apparatus aims at solving current bracket component dismouting process complicacy, waste time and energy and be difficult for expanding the scheduling problem.

In order to solve the technical problem, the utility model provides an adjustable supporting component is applied to in the 3D printer in order to support the Y-axis support and the Z-axis support of 3D printer, adjustable supporting component includes: a support bar; the adjustable fastening piece is arranged at least one end of the supporting rod and is used for being matched with the supporting rod to adjust the length of the adjustable supporting component; the two ends of the supporting rod are respectively and rotatably connected with the Y-axis support and the Z-axis support directly or through the adjustable fasteners and used for adjusting the angle between the Y-axis support and the Z-axis support.

In a further aspect, the adjustable fastener includes a swing bolt threadedly coupled to the end of the support rod, and a locking nut coupled to the swing bolt for locking the coupling between the support rod and the swing bolt.

In a further scheme, the two ends of the supporting rod are respectively provided with the adjustable fastening pieces, and the two ends of the supporting rod are respectively connected with the Y-axis support and the Z-axis support in a rotating mode through the adjustable fastening pieces.

In a further aspect, the swing bolt connected to one end of the support rod is a forward swing bolt, and the swing bolt connected to the other end of the support rod is a reverse swing bolt.

In a further scheme, the supporting rod comprises at least two connecting rods, and the end parts of the connecting rods are sequentially spliced to form the supporting rod.

In a further aspect, one end of the swing bolt for fixing to the Y-axis bracket and/or the Z-axis bracket is a fixing portion provided with a through hole, the other end of the swing bolt is a fixing screw, and an end of the support rod for connecting the swing bolt is provided with an internal thread matched with the fixing screw.

In a further aspect, the support rod is made of aluminum alloy.

The utility model also provides a 3D printing apparatus, including print platform and shower nozzle subassembly, wherein still including being used for removing print platform with the bracket component of shower nozzle subassembly, the bracket component includes Y axle support and Z axle support and adjustable supporting component, adjustable supporting component is as above adjustable supporting component, Y axle support with be equipped with between the Z axle support and predetermine the angle, operate adjustable supporting component's adjustable fastener can with Y axle support with angular adjustment between the Z axle support extremely predetermine the angle.

In a further scheme, a mounting piece is arranged on the Y-axis support and/or the Z-axis support, and the adjustable supporting component is fixed on the mounting piece through an adjustable fastener.

In a further scheme, the 3D printing equipment is provided with two groups of support assemblies.

Compared with the prior art, the utility model provides an adjustable supporting component, length through adjustable fastener and the adjustable supporting component of cooperation adjustment of bracing piece, and then the angle between adjustment Y axle support and the Z axle support, owing to need not to demolish the angle that the bracing piece can be adjusted between Y axle support and the Z axle support, easy operation, and the structural requirement to Y axle support and Z axle support is lower, is convenient for expand adjustable supporting component's quantity according to actual need.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced 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 any creative effort.

Fig. 1 is a perspective view of a 3D printing apparatus of the present invention;

fig. 2 is a side view of the 3D printing apparatus shown in fig. 1;

fig. 3 is a partial schematic structural view of the 3D printing apparatus shown in fig. 2, illustrating the structure of the adjustable fastener in the a position.

The reference numerals in the figures are explained below:

100-3D printing device; 1-a printing platform; 2-a spray head assembly; 3-a bracket assembly; 31-Y shaft support;

a 32-Z axis support; 33-an adjustable support assembly; 331-support bar; 332-an adjustable fastener;

333-swing bolt; 334-a locking nut; 335-a fixed part; 337-connecting rods; 338-mounting pieces.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the 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 present invention, directional terms such as "up", "down", "inside", "outside", etc. refer to directions of the attached drawings. Accordingly, the directional terms used are used for describing and understanding the present invention, and are not used for limiting the present invention. Further, in the drawings, structures that are similar or identical are denoted by the same reference numerals.

Please refer to fig. 1 to 2, which show a perspective view of the 3D printing apparatus 100 provided by the present invention, the 3D printing apparatus 100 includes a printing platform 1, a nozzle assembly 2 and a bracket assembly 3 for moving the printing platform 1 and the nozzle assembly 2, the bracket assembly 3 is provided with a moving track so that the nozzle assembly 2 moves relative to the printing platform 1 on the moving track to realize 3D printing.

In this embodiment, the bracket assembly 3 includes a Y-axis bracket 31 and a Z-axis bracket 32, and further includes an adjustable supporting assembly 33 for supporting the Y-axis bracket 31 and the Z-axis bracket 32, where the adjustable supporting assembly 33 includes a supporting rod 331 and an adjustable fastener 332, the adjustable fastener 332 is disposed at least one end of the supporting rod 331 and is used for cooperating with the supporting rod 331 to adjust the length of the adjustable supporting assembly 33, and two ends of the supporting rod 331 are respectively and rotatably connected to the Y-axis bracket 31 and the Z-axis bracket 32 directly or through the adjustable fastener 332 for adjusting the angle between the Y-axis bracket 31 and the Z-axis bracket 32. In the embodiment, a preset angle is set between the Y-axis bracket 31 and the Z-axis bracket 32, and the angle between the Y-axis bracket 31 and the Z-axis bracket 32 can be adjusted to the preset angle by operating the adjustable fastener 332 of the adjustable support assembly 33.

The utility model provides an adjustable supporting component, length through adjustable fastener and the adjustable supporting component of cooperation adjustment of bracing piece, and then the angle between adjustment Y axle support and the Z axle support, owing to need not to demolish the angle that the bracing piece can be adjusted between Y axle support and the Z axle support, easy operation, and it is lower to the structural requirement of Y axle support and Z axle support, is convenient for expand adjustable supporting component's quantity according to actual need.

In this embodiment, as shown in fig. 3, the adjustable fastener 332 includes a swing bolt 333 and a locking nut 334 engaged with the swing bolt 333, the locking nut 334 is installed at the end of the support rod 331, one end of the support rod 331 where the locking nut 334 is installed is a hollow structure with an internal thread, one end of the swing bolt 333 passes through the locking nut 334 and extends into the hollow structure of the support rod 331, the swing bolt 333 is threadedly coupled to the end of the support rod 331, the other end of the swing bolt 333 is fixed to the Y-axis bracket 31 and/or the Z-axis bracket 32, and the locking nut 334 is used for locking the coupling between the support rod 331 and the swing bolt, and when the support rod 331 is screwed by loosening the locking nut 334, the overall length of the swing bolt 333 and the support rod 331 can be adjusted. Based on the design of the structure, the length of the adjustable support component 33 can be adjusted through the matching of the swing bolt 333 and the locking nut 334, the operation is simple, and fine adjustment can be realized.

In this embodiment, one end of the swing bolt 333 for fixing to the Y-axis bracket 31 and/or the Z-axis bracket 32 is a fixing part 335 provided with a through hole, a screw passes through the through hole on the fixing part 335 to be fixed to the Y-axis bracket 31 and/or the Z-axis bracket 32, the other end of the swing bolt 333 is a fixing screw, an outer surface of the fixing screw for mounting to one end of the lock nut 334 is provided with a fixing thread (not shown), the fixing thread on the fixing screw engages with an inner surface thread (not shown) of the lock nut 334, and when the swing bolt 333 rotates relative to the lock nut 334, the position of the swing bolt 333 relative to the lock nut 334 changes, thereby lengthening or shortening the length of the adjustable fastener 332.

In one embodiment, the two ends of the supporting rod 331 are each provided with an adjustable fastener 332, and the two ends of the supporting rod 331 are rotatably connected to the Y-axis bracket 31 and the Z-axis bracket 32 through the adjustable fasteners 332, respectively. In this embodiment, the swing bolt 333 connected to one end of the support bar 331 is a forward swing bolt, and the swing bolt 333 connected to the other end of the support bar 331 is a reverse swing bolt. When the support bar 331 is rotated in one direction, the swing bolts 333 at both ends of the support bar 331 move in a direction away from the support bar 331, the adjustable support component 33 becomes longer, when the support bar 331 is rotated in the other direction, the swing bolts 333 at both ends of the support bar 331 move in a direction toward the support bar 331, the adjustable support component 33 becomes shorter, and the angle between the Y-axis bracket 31 and the Z-axis bracket 32 is adjusted by adjusting the change of the length of the adjustable support component 33.

In another embodiment, one end of the supporting rod 331 is fixed to one of the Y-axis bracket 31 or the Z-axis bracket 32 by an adjustable fastener 332, and the other end of the supporting rod 331 is rotatably connected to the other of the Y-axis bracket 31 or the Z-axis bracket 32, when the supporting rod 331 is rotated, the length of the adjustable fastener 332 and the supporting rod 331 is changed, so as to adjust the angle between the Y-axis bracket 31 and the Z-axis bracket 32.

In this embodiment, the supporting rod 331 includes at least two connecting rods 337, and the ends of the connecting rods 337 are sequentially inserted to form the supporting rod 331. Based on the design of this structure, peg graft in order forming bracing piece 331 through a plurality of connecting rods 337, based on the design of this structure, a plurality of connecting rods 337 are convenient for transport, and can be according to actual need, increase and decrease the length of bracing piece 331 according to the requirement of different bracket component 3, and the application scene is more extensive. In this embodiment, the supporting rod 331 is made of aluminum alloy, so that the cost is low.

In another embodiment, one end of the supporting rod 331 is fixed to one of the Y-axis bracket 31 or the Z-axis bracket 32 by an adjustable fastener 332, and the other end is directly fixed to the other of the Y-axis bracket 31 or the Z-axis bracket 32, for example, the supporting rod 331 is fixed to the Y-axis bracket 31 by an adjustable fastener 332, the other end of the supporting rod 331 is fixed to the Z-axis bracket 32 by a screw, the supporting rod 331 includes two connecting rods 337, the two connecting rods 337 are inserted, the adjustable fastener 332 is provided at one end of one of the connecting rods 337 for fixing to the Y-axis bracket 31 or the Z-axis bracket 32, the supporting rod 331 includes two connecting rods 337, the two connecting rods 337 are inserted, the adjustable fastener 332 is provided with the end of the connecting rod 337 fixed to the Y-axis bracket 31, when the connecting rod 337 provided with the adjustable fastener 332 is rotated, the connecting rod 337 provided with the adjustable fastener 332 is rotated relative to the adjacent connecting rod 337, and the length of the connecting rod 337 provided with the adjustable fastener 332 and the adjustable fastener 332 is varied.

In the 3D printing apparatus 100 shown in fig. 1 to 2 in the present embodiment, the preset angle between the Y-axis support and the Z-axis support is 90 °, and if the angle between the Y-axis support 31 and the Z-axis support 32 is less than 90 °, the adjustable support member 33 is rotated to adjust the angle between the Y-axis support 31 and the Z-axis support 32 to the preset angle. The Y-axis frame, the Z-axis frame and the adjustable support assembly 33 form a triangular structure, so that the support assembly 3 is more stable.

In this embodiment, the Y-axis bracket 31 and/or the Z-axis bracket 32 are provided with a mounting plate 338, and the adjustable support assembly 33 is fixed to the mounting plate 338 by the adjustable fastener 332. The stability of the mounting of the adjustable support assembly 33 to the carriage assembly 3 is increased based on the design of the mounting tabs 338.

In one embodiment, the 3D printing apparatus 100 includes two or more sets of the bracket assemblies 3. In this embodiment, the number of the rack assemblies 3 is two sets of rack assemblies 3, and the printing platform is disposed between the two Z-axis racks. Based on the design of this structure, the robustness of the 3D printing apparatus 100 is further enhanced.

The utility model provides an adjustable brace subassembly and 3D printing apparatus, the length of adjustable brace subassembly is adjusted through the cooperation of adjustable fastener and bracing piece, and then the angle between adjustment Y axle support and the Z axle support, owing to need not to demolish the bracing piece and can adjust the angle between Y axle support and the Z axle support, easy operation, and it is lower to the structural requirement of Y axle support and Z axle support, be convenient for expand adjustable brace subassembly's quantity according to actual need.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of various equivalent modifications or replacements within the technical scope of the present invention, and these modifications or replacements should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. An adjustable support assembly for use in a 3D printer to support a Y-axis support (31) and a Z-axis support (32) of the 3D printer, the adjustable support assembly (33) comprising:

a support bar (331); and

the adjustable fastener (332) is arranged at least one end of the supporting rod (331) and is used for being matched with the supporting rod (331) to adjust the length of the adjustable supporting component (33);

wherein, both ends of the supporting rod (331) are respectively and rotatably connected with the Y-axis bracket (31) and the Z-axis bracket (32) directly or through the adjustable fastener (332) for adjusting the angle between the Y-axis bracket (31) and the Z-axis bracket (32).

2. The adjustable support assembly of claim 1, wherein: the adjustable fastener (332) comprises an eyelet bolt (333) and a locking nut (334) matched with the eyelet bolt (333), the eyelet bolt (333) is in threaded connection with the end of the supporting rod (331), and the locking nut (334) is used for locking the connection between the supporting rod (331) and the eyelet bolt.

3. The adjustable support assembly of claim 2, wherein: the two ends of the supporting rod (331) are respectively provided with the adjustable fastening piece (332), and the two ends of the supporting rod (331) are respectively connected with the Y-axis support (31) and the Z-axis support (32) in a rotating mode through the adjustable fastening pieces (332).

4. The adjustable support assembly of claim 3, wherein: the swing bolt (333) connected to one end of the support bar (331) is a forward-rotation swing bolt, and the swing bolt (333) connected to the other end of the support bar (331) is a reverse-rotation swing bolt.

5. The adjustable support assembly of claim 4, wherein: the support rod (331) comprises at least two connecting rods (337), and the ends of the connecting rods (337) are sequentially spliced to form the support rod (331).

6. The adjustable support assembly of claim 2, wherein: one end of the swing bolt (333) used for being fixed to the Y-axis support (31) and/or the Z-axis support (32) is a fixing part (335) provided with a through hole, the other end of the swing bolt (333) is a fixing screw rod, and the end of the support rod (331) used for being connected with the swing bolt (333) is provided with an internal thread matched with the fixing screw rod.

7. The adjustable support assembly of claim 1, wherein: the support rod (331) is made of aluminum alloy.

8. A 3D printing apparatus comprising a printing platform (1) and a nozzle assembly (2), characterized by further comprising a carriage assembly (3) for moving the printing platform (1) and the nozzle assembly (2), the carriage assembly (3) comprising a Y-axis carriage (31) and a Z-axis carriage (32) and an adjustable support assembly (33), the adjustable support assembly (33) being the adjustable support assembly (33) according to any one of claims 1-7, a preset angle being provided between the Y-axis carriage (31) and the Z-axis carriage (32), an adjustable fastener (332) operating the adjustable support assembly (33) being capable of adjusting the angle between the Y-axis carriage (31) and the Z-axis carriage (32) to the preset angle.

9. The 3D printing device according to claim 8, characterized in that: and a mounting piece (338) is arranged on the Y-axis support (31) and/or the Z-axis support (32), and the adjustable supporting component (33) is fixed on the mounting piece (338) through an adjustable fastener (332).

10. The 3D printing device according to claim 8, characterized in that: the 3D printing equipment is provided with two groups of bracket assemblies (3).

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