CN219338600U - Frame split structure for industrial grade 3D printer - Google Patents

Abstract

The utility model relates to the field of 3D printing, in particular to a split type structure for an industrial grade 3D printer frame, which comprises a fixed plate, wherein four fixed plates are arranged on the fixed plate, a lower machine frame is fixedly arranged at the upper end of the lower machine frame, a marble plate is detachably connected to the upper end of the lower machine frame, an upper machine frame is connected to the upper end of the lower machine frame in a matched manner, the lower machine frame comprises a bottom frame, a bottom plate, a first support column, a first transverse support column, an adjusting plate and a reinforcing rib plate, the bottom plate is fixedly arranged at the upper end of the bottom frame, the first support column is fixedly arranged at the upper end of the bottom frame respectively, the first transverse support column is fixedly arranged at the inner ends of the first support column respectively, and the adjusting plate is detachably connected to the inner walls of the first support column and the first transverse support column; the utility model ensures flatness, facilitates adjustment of storage space, uses split connection, reduces damage of deformation of the frame profile under continuous pressure facing the printer, and reduces cost during manufacture and maintenance.

Description

Frame split structure for industrial grade 3D printer

Technical Field

The utility model relates to the field of 3D printing, in particular to a frame split type structure for an industrial 3D printer.

Background

3D printing (3 DP), also known as additive manufacturing [1], is a technology that builds objects by layer-by-layer printing using bondable materials such as powdered metal or plastic based on digital model files.

3D printing is typically implemented using a digital technology material printer. Often in the fields of mould manufacture, industrial design, etc., are used to manufacture models, and later gradually in the direct manufacture of some products, parts have been printed using this technique. The technology has application in jewelry, footwear, industrial design, construction, engineering and construction (AEC), automotive, aerospace, dental and medical industries, education, geographic information systems, civil engineering, firearms, and other fields.

At present, a plurality of frames for industrial 3D printers exist on the market, the frames are fixedly connected in an integrated mode, frame profiles are easy to deform under the continuous pressure of the printers, flatness cannot be guaranteed, and when the frames are integrally manufactured and maintained, cost is increased, and storage space is inconvenient to adjust.

Disclosure of Invention

In view of this, the present utility model provides a split structure for an industrial grade 3D printer frame, which solves the above-mentioned problems of the prior art.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a split type structure for an industrial grade 3D printer frame, which comprises four fixing plates, wherein lower machine frames are fixedly arranged at the upper ends of the fixing plates, marble plates are detachably connected to the upper ends of the lower machine frames, and upper machine frames are connected to the upper ends of the lower machine frames in a matched mode.

In the above-mentioned split type structure for industrial grade 3D printer frame, as the preferred scheme, the lower frame includes underframe, bottom plate, first pillar, first cross-strut, regulating plate and deep floor, underframe upper end fixed mounting has the bottom plate, underframe upper end fixed mounting has first pillar respectively, first pillar inner fixed mounting has first cross-strut respectively, first pillar and first cross-strut inner wall can be dismantled and be connected with the regulating plate, first cross-strut upper end inboard fixed mounting has deep floor, deep floor upper end fixed mounting has the plane board respectively.

In the above-mentioned split type structure for industrial grade 3D printer frame, as an optimal scheme, the plane board up end is the whole plane of planer type milling to the round hole has been seted up on the surface.

In the above-mentioned split structure for an industrial 3D printer frame, as a preferred solution, the surface of the adjusting plate is provided with a connecting hole.

In the above-mentioned split type structure for an industrial grade 3D printer frame, as an optimal scheme, the inner end of the first pillar and the upper end of the first cross pillar are respectively provided with a through round hole.

In the above-mentioned split type structure for industrial grade 3D printer frame, as the preferred scheme, the upper frame includes second pillar, connecting plate, spacing post and second cross pillar, the second pillar is equipped with four and outer end fixed mounting has the second cross pillar, the second pillar is inboard to be dismantled and be connected with spacing post, spacing post lower extreme is dismantled respectively and is connected with the connecting plate.

In the above-mentioned split type structure for industrial grade 3D printer frame, as the preferred scheme, run through the round hole is seted up respectively to second pillar and spacing post outer end.

In the above-mentioned split type structure for an industrial grade 3D printer frame, as a preferred scheme, the connecting holes are respectively provided at the outer ends of the connecting plates.

In the above-mentioned split structure for an industrial grade 3D printer frame, as a preferred scheme, the connecting holes are respectively provided at the upper ends of the marble plates.

The utility model provides a frame split structure for an industrial 3D printer, which has the following beneficial effects:

the utility model provides a split type structure for an industrial grade 3D printer frame, which is characterized in that a first transverse strut is provided with a reinforcing rib plate and a plurality of plane plates, so that marble plates are supported conveniently, a round hole is formed in the upper end surface of each plane plate and is connected and fixed with a connecting hole in each marble plate in a concentric manner, flatness is guaranteed, during adjustment, a worker manually removes a connecting plate from a second strut, the second strut in the upper frame is inserted into the first strut, the adjusting plate is connected with the first strut, the second strut and the lower part of the first transverse strut through external bolts, the worker manually adjusts the position of the adjusting plate in the first strut, and drives the first transverse strut to move and adjust.

Drawings

Fig. 1 is a schematic structural diagram of an integral frame split structure for an industrial 3D printer according to an embodiment of the present utility model;

FIG. 2 is an enlarged schematic view of the structure of the frame split type structure of the industrial 3D printer in FIG. 1A according to the embodiment of the present utility model;

fig. 3 is a schematic structural view of an overall connection of an upper frame for an industrial 3D printer frame split structure according to an embodiment of the present utility model;

fig. 4 is a schematic structural view of a marble plate for an industrial 3D printer frame split structure according to an embodiment of the present utility model;

fig. 5 is a schematic structural diagram of an adjusting plate in a lower frame for an industrial 3D printer frame split structure according to an embodiment of the present utility model;

fig. 6 is a schematic structural diagram of a connecting plate in a middle and upper machine frame for an industrial grade 3D printer frame split structure according to an embodiment of the present utility model.

Reference numerals illustrate:

1. a fixing plate; 2. a lower machine frame; 201. a bottom frame; 202. a bottom plate; 203. a first support column; 204. a first cross brace; 205. an adjusting plate; 206. reinforcing rib plates; 207. a planar plate; 3. a marble plate; 4. a machine frame; 401. a second support; 402. a connecting plate; 403. a limit column; 404. and a second cross brace.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, fig. 1 is a schematic structural view of an integral structure of a frame split structure of an industrial grade 3D printer provided by an embodiment of the present utility model, fig. 2 is an enlarged schematic structural view of a frame split structure of an industrial grade 3D printer provided by an embodiment of the present utility model at fig. 1A, fig. 3 is a schematic structural view of an integral connection of an upper frame for a frame split structure of an industrial grade 3D printer provided by an embodiment of the present utility model in a bottom view, and fig. 4 is a schematic structural view of a marble plate for a frame split structure of an industrial grade 3D printer provided by an embodiment of the present utility model.

In the above-mentioned split structure for an industrial 3D printer frame, as a preferred solution, please refer to fig. 1, 2, 3 and 5, fig. 1 is a schematic structural diagram of the whole split structure for an industrial 3D printer frame provided by the embodiment of the present utility model, fig. 2 is an enlarged schematic structural diagram of the split structure 1A for an industrial 3D printer frame provided by the embodiment of the present utility model, fig. 3 is a schematic structural diagram of the whole connection of the upper frame for an industrial 3D printer frame split structure provided by the embodiment of the present utility model in a bottom view, the lower frame 2 includes a bottom frame 201, a bottom plate 202, a first support 203, a first cross support 204, an adjusting plate 205 and a reinforcing plate 206, the bottom frame 201 is fixedly provided with the bottom plate 202 at an upper end, the first support 203 is fixedly provided with the first cross support 204 at an inner end, the first support 203 and an inner wall of the first cross support 204 are detachably connected with the adjusting plate 205, the reinforcing plate 206 is fixedly provided with the reinforcing plate 206 at an upper end of the first cross support 204, and the reinforcing plate 207 is fixedly provided with the reinforcing plate 207 at an upper end of the bottom frame 201.

In the above-mentioned split structure for an industrial 3D printer frame, as a preferred solution, the upper end surface of the plane plate 207 is the whole plane of the planer type milling process, and a circular hole is formed on the surface.

In the above-mentioned split structure for an industrial 3D printer frame, as a preferred solution, the surface of the adjusting plate 205 is provided with a connecting hole.

In the above-mentioned split structure for an industrial 3D printer frame, as a preferred solution, the inner end of the first pillar 203 and the upper end of the first cross pillar 204 are respectively provided with a through circular hole.

In the above-mentioned split structure for an industrial 3D printer frame, as a preferred solution, please refer to fig. 1, 2 and 6, fig. 1 is a schematic structural diagram of an integral split structure for an industrial 3D printer frame provided by an embodiment of the present utility model, fig. 2 is an enlarged schematic structural diagram of an industrial 3D printer frame split structure 1A provided by an embodiment of the present utility model, fig. 6 is a schematic structural diagram of a connecting plate in an upper machine frame for an industrial 3D printer frame split structure provided by an embodiment of the present utility model, an upper machine frame 4 includes a second post 401, a connecting plate 402, a limiting post 403 and a second cross post 404, the second post 401 is provided with four second cross posts 404 fixedly mounted at outer ends, the inner ends of the second post 401 are detachably connected with the limiting post 403, and the lower ends of the limiting post 403 are detachably connected with the connecting plate 402 respectively.

In the above-mentioned split structure for an industrial 3D printer frame, as a preferred solution, the outer ends of the second support post 401 and the limiting post 403 are respectively provided with a through circular hole.

In the above-mentioned split structure for an industrial 3D printer frame, as a preferred solution, the outer ends of the connection plates 402 are respectively provided with connection holes.

In the above-mentioned split structure for an industrial 3D printer frame, as a preferred solution, the upper ends of the marble plates 3 are respectively provided with a connecting hole.

The specific embodiment of the utility model provides a split type structure for an industrial grade 3D printer frame, a fixing plate 1 is convenient for supporting the whole lower machine frame 2, a bottom frame 201 and a bottom plate 202 form a plane to conveniently support objects stored in the lower machine frame 2, a first support 203 and a first cross support 204 form a lower rectangular frame, meanwhile, the first cross support 204 is convenient for supporting a marble plate 3 through a reinforcing rib plate 206 and a plurality of plane plates 207, meanwhile, a round hole is formed on the upper end surface of the plane plate 207 and is concentrically connected and fixed with a connecting hole on the marble plate 3, flatness is ensured, a second support 401 and a second cross support 404 in an upper machine frame 4 form an upper rectangular frame, a connecting plate 402 is convenient for connecting a limit post 403 on the second support 401 through an external bolt, so that the limit post 403 carries out auxiliary limit treatment on the marble plate 3, during adjustment, a worker manually removes the connecting plate 402 from the second support column 401, the second support column 401 in the upper machine frame 4 is inserted into the first support column 203, the adjusting plate 205 is connected with the first support column 203, the second support column 401 and the first transverse support column 204 through external bolts, the worker manually adjusts the position of the adjusting plate 205 on the first support column 203, so as to drive the first transverse support column 204 to move and adjust, because of the penetrating round holes at the inner ends of the first support column 203 and the second support column 401, and meanwhile, the worker manually connects the connecting plate 402 from the second support column 401, the connecting plate 402 is convenient to drive the limit column 403 and the marble plate 3 to move and adjust, the storage space of the upper machine frame 2 and the lower machine frame 4 is convenient to adjust, the frame profile reduces damage caused by deformation under the continuous pressure facing the printer through split connection, and during manufacturing and maintenance, the cost is low.

Finally, it is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

The foregoing has outlined rather broadly the more detailed description of the utility model in order that the detailed description of the utility model that follows may be better understood, and in order that the present principles and embodiments may be better understood; meanwhile, as those skilled in the art will vary in the specific embodiments and application scope according to the idea of the present utility model, the present disclosure should not be construed as limiting the present utility model in summary.

Claims (9)

1. Be used for split type structure of industrial grade 3D printer frame, a serial communication port, including fixed plate (1), fixed plate (1) are equipped with four and upper end fixed mounting has lower machine frame (2), lower machine frame (2) upper end can be dismantled and be connected with marble board (3), lower machine frame (2) upper end cooperation is connected with machine frame (4).

2. The split type structure for the industrial-grade 3D printer frame according to claim 1, wherein the lower machine frame (2) comprises a bottom frame (201), a bottom plate (202), a first support (203), a first cross support (204), an adjusting plate (205) and a reinforcing rib plate (206), the bottom plate (202) is fixedly arranged at the upper end of the bottom frame (201), the first support (203) is fixedly arranged at the upper end of the bottom frame (201), the first cross support (204) is fixedly arranged at the inner end of the first support (203), the adjusting plate (205) is detachably connected to the inner wall of the first support (203) and the inner wall of the first cross support (204), the reinforcing rib plate (206) is fixedly arranged at the inner side of the upper end of the first cross support (204), and the plane plate (207) is fixedly arranged at the upper end of the reinforcing rib plate (206).

3. The frame split structure for the industrial grade 3D printer according to claim 2, wherein the upper end surfaces of the plane plates (207) are all the whole plane of the planer type milling process, and round holes are formed in the surfaces of the plane plates.

4. The frame split structure for an industrial grade 3D printer according to claim 2, wherein the surface of the adjusting plate (205) is provided with a connecting hole.

5. The frame split structure for the industrial grade 3D printer according to claim 2, wherein the inner end of the first pillar (203) and the upper end of the first cross pillar (204) are respectively provided with a through round hole.

6. The frame split type structure for the industrial grade 3D printer according to claim 1, wherein the upper frame (4) comprises a second strut (401), a connecting plate (402), limiting posts (403) and a second cross strut (404), the second strut (401) is provided with four second cross struts (404) fixedly arranged at the outer ends, the limiting posts (403) are detachably connected at the inner ends of the second strut (401), and the connecting plates (402) are detachably connected at the lower ends of the limiting posts (403) respectively.

7. The frame split structure for the industrial grade 3D printer according to claim 6, wherein the outer ends of the second support column (401) and the limit column (403) are respectively provided with a through round hole.

8. The frame split structure for the industrial grade 3D printer of claim 6, wherein the outer ends of the connection plates (402) are respectively provided with connection holes.

9. The frame split structure for the industrial grade 3D printer according to claim 1, wherein the marble plates (3) are respectively provided with connecting holes at the upper ends thereof.

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