CN206277653U - 3D printing equipment mesh-plate structure - Google Patents

Abstract

A kind of 3D printing equipment mesh-plate structure, including web plate, frame support, center bearing bracket, lateral frame, the web plate surface is provided with through hole, the center bearing bracket two ends are vertically fixed in frame support, the lateral frame both ends horizontal is fixed in frame support, and the lateral frame is connected on center bearing bracket, and the web plate is connected to frame rack upper surface, the center bearing bracket and lateral frame upper surface and web plate rear-face contact, the center bearing bracket is discontinuous narrow hypotenuse structure with lateral frame upper surface.The utility model mesh-plate structure includes web plate and frame support, center bearing bracket and lateral frame are fixed with frame support, wherein, center bearing bracket and lateral frame use discontinuous narrow hypotenuse structure with the contact surface at the web plate back side, the contact area with web plate is reduced, is gap between narrow hypotenuse structure, be conducive to liquid resinous flowing, the deadweight of whole mesh-plate structure is also mitigated simultaneously, reduces the load of printing device motor.

Description

3D printing equipment mesh-plate structure

Technical field

The utility model is related to printing device field, espespecially a kind of 3D printing equipment mesh-plate structure.

Background technology

Web plate is the workbench in 3D printing technique, and web plate can move up and down in liquid resin in process, So being accomplished by resin can be smooth by web plate, will not cause big fluctuation and buildup of resin.The support of existing web plate bottom Support is broadside structure, is unfavorable for the flowing of resin, and whole mesh-plate structure, from great, the load of device power machine is big.

Utility model content

To solve the above problems, the utility model provides a kind of 3D printing equipment for being conducive to resin flowing, reducing deadweight Mesh-plate structure.

To achieve the above object, the technical solution adopted in the utility model is：A kind of 3D printing equipment mesh-plate structure, including Web plate, frame support, center bearing bracket, lateral frame, the web plate surface are provided with through hole, and the center bearing bracket two ends are vertically fixed on In frame support, the lateral frame both ends horizontal is fixed in frame support, and the lateral frame is connected on center bearing bracket, described Web plate is connected to frame rack upper surface, the center bearing bracket and lateral frame upper surface and web plate rear-face contact, the center branch Frame is discontinuous narrow hypotenuse structure with lateral frame upper surface.

Specifically, the frame support includes top framework, left side framework, following framework, the right framework, the upper side frame Frame, left side framework, following framework, the head and the tail fixation of the right framework are welded into rectangular shaped rim support.

Specifically, gap is provided between the narrow hypotenuse structure, the narrow hypotenuse spacing structure is evenly provided on center Support and lateral frame upper surface.

Specifically, the through hole is arranged in web plate surface in matrix-style.

Specifically, the web plate, frame support, center bearing bracket, lateral frame are made by stainless steel material, the center branch Frame, lateral frame are with frame support by being welded and fixed.

The beneficial effects of the utility model are：The utility model mesh-plate structure includes web plate and frame support, frame branch Center bearing bracket and lateral frame are fixed with frame, web plate is connected in frame support and is connect with the upper surface of center bearing bracket and lateral frame Touch, wherein, center bearing bracket and lateral frame use discontinuous narrow hypotenuse structure with the contact surface at the web plate back side, reduce and web plate Contact area, between narrow hypotenuse structure be gap, be conducive to liquid resinous flowing, while also mitigating whole mesh-plate structure Deadweight, reduce printing device motor load.

Brief description of the drawings

Fig. 1 is stereogram of the present utility model.

Fig. 2 is the stereogram of the utility model frame support.

Fig. 3 is front view of the present utility model.

Fig. 4 is side view of the present utility model.

Fig. 5 is top view of the present utility model.

Fig. 6 is upward view of the present utility model.

Fig. 7 is the front view of the utility model frame support.

Fig. 8 is the side view of the utility model frame support.

Drawing reference numeral explanation：1. web plate；11. through holes；2. frame support；21. top frameworks；211. upper Positioning holes；22. Left side framework；23. following frameworks；231. lower Positioning holes；232. rectangular recess；24. the right frameworks；25. grooves；3. center branch Frame；4. lateral frame；5. narrow hypotenuse structure；6. gap.

Specific embodiment

Refer to shown in Fig. 1-8, the utility model is on a kind of 3D printing equipment mesh-plate structure, including web plate 1, frame branch Frame 2, center bearing bracket 3, lateral frame 4, the surface of the web plate 1 are provided with through hole 11, and the two ends of the center bearing bracket 3 are vertically fixed on frame In support 2, the both ends horizontal of the lateral frame 4 is fixed in frame support 2, and the lateral frame 4 is connected on center bearing bracket 3, institute State web plate 1 and be connected to the upper surface of frame support 2, the center bearing bracket 3 and the upper surface of lateral frame 4 and the rear-face contact of web plate 1, it is described Center bearing bracket 3 is discontinuous narrow hypotenuse structure 5 with the upper surface of lateral frame 4.

Compared with prior art, the utility model mesh-plate structure includes web plate 1 and frame support 2, fixed in frame support 2 There are center bearing bracket 3 and lateral frame 4, web plate 1 is connected in frame support 2 and is connect with the upper surface of center bearing bracket 3 and lateral frame 4 Touch, wherein, center bearing bracket 3 and lateral frame 4 use discontinuous narrow hypotenuse structure 5 with the contact surface at the back side of web plate 1, reduce and The contact area of web plate 1, is conducive to liquid resinous flowing, while also mitigating the deadweight of the structure of whole web plate 1, reduces printing The load of equipment motor.

Specifically, the frame support 2 includes top framework 21, left side framework 22, following framework 23, the right framework 24, The top framework 21, left side framework 22, following framework 23, the head and the tail fixation of the right framework 24 are welded into rectangular shaped rim support 2, institute State top framework 21, the two ends of following framework 23 and be all provided with fluted 25, the position of the groove 25 is corresponding with the side of web plate 1.

Using such scheme, the dismounting of web plate 1 and frame support 2 is conducive to by groove 25.

Specifically, gap 6 is provided between the narrow hypotenuse structure 5, during the narrow hypotenuse structure 5 is arranged on evenly and at intervals Cardiac skeleton 3 and the upper surface of lateral frame 4.

Using such scheme, liquid resinous flowing is conducive to by narrow hypotenuse structure 5 and gap 6.

Specifically, the through hole 11 is arranged in the surface of web plate 1 in matrix-style.

The web plate 1, frame support 2, center bearing bracket 3, lateral frame 4 are made by stainless steel material, the center bearing bracket 3rd, lateral frame 4 passes through to be welded and fixed with frame support 2.

The utility model is further described below by specific embodiment.

Web plate 1 that this specific embodiment is made up of stainless steel material, frame support 2, the center being fixed in frame support 2 Support 3 and lateral frame 4 are constituted, and wherein the both sides of top framework 21 are provided with upper Positioning holes 211, and the both sides of following framework 23 are provided with lower positioning Hole 231, rectangular recess 232, web plate 1 are perforated plate construction, and the two ends vertical welding of center bearing bracket 3 is fixed in frame support 2, horizontal The both ends horizontal of support 4 is weldingly fixed in frame support 2, and lateral frame 4 is connected on center bearing bracket 3, and web plate 1 is connected to frame branch The upper surface of frame 2, center bearing bracket 3 and the upper surface of lateral frame 4 and the rear-face contact of web plate 1, center bearing bracket 3 is with the upper surface of lateral frame 4 Discontinuous narrow hypotenuse structure 5, reduces the contact area with web plate 1, and in process, web plate 1 is understood in liquid resin Lower motion, due to narrow hypotenuse structure 5 on center bearing bracket 3 and lateral frame 4 and its between gap 6 so that the unimpeded stream of liquid resin It is dynamic, big fluctuation and buildup of resin will not be caused, and also the structure can reduce the deadweight of whole mesh-plate structure, be conducive to mitigating The load of equipment motor.

Embodiment of above is only that preferred embodiment of the present utility model is described, not to the utility model Scope be defined, on the premise of the utility model design spirit is not departed from, this area ordinary skill technical staff to this Various modifications and improvement that the technical scheme of utility model is made, all should fall into the guarantor that claims of the present utility model determine In the range of shield.

Claims (5)

1. a kind of 3D printing equipment mesh-plate structure, it is characterised in that：Including web plate, frame support, center bearing bracket, lateral frame, institute State web plate surface and be provided with through hole, the center bearing bracket two ends are vertically fixed in frame support, the lateral frame both ends horizontal is consolidated Be scheduled in frame support, the lateral frame is connected on center bearing bracket, the web plate is connected to frame rack upper surface, it is described in Cardiac skeleton and lateral frame upper surface and web plate rear-face contact, the center bearing bracket is discontinuous narrow hypotenuse with lateral frame upper surface Structure.

2. a kind of 3D printing equipment mesh-plate structure according to claim 1, it is characterised in that：The frame support includes upper Frame, left side framework, following framework, the right framework, the top framework, left side framework, following framework, the right framework are from beginning to end Fixation is welded into rectangular shaped rim support.

3. a kind of 3D printing equipment mesh-plate structure according to claim 1, it is characterised in that：Between the narrow hypotenuse structure Gap is provided with, the narrow hypotenuse spacing structure is evenly provided on center bearing bracket and lateral frame upper surface.

4. a kind of 3D printing equipment mesh-plate structure according to claim 1, it is characterised in that：The through hole is in matrix-style It is arranged in web plate surface.

5. a kind of 3D printing equipment mesh-plate structure according to claim 1, it is characterised in that：The web plate, frame support, Center bearing bracket, lateral frame are made by stainless steel material, and the center bearing bracket, lateral frame are solid by welding with frame support It is fixed.