CN104260346B - A kind of printing equipment - Google Patents

Abstract

The present invention provides a kind of printing equipment, including substrate, drives structure and rail structure, and this substrate has first surface and second surface；This driving structure has the first continuing surface and the second continuing surface, is fixedly arranged on this first surface movably；This rail structure has connecting portion and main part, and this connecting portion is slidably connected this driving structure, and this main body section is in this second surface side；Wherein, when this driving structure moves to interlock the motion of this connecting portion in the first direction, this connecting portion slides to this second continuing surface from this first continuing surface, and drives this main part to move in a second direction, meets the installation and removal demand of dieplate.

Description

A kind of printing equipment

Technical field

The present invention relates to printing equipment field, particularly relate to a kind of linkage fastening 3D printer dieplate.

Background technology

High speed development along with society, the speed of model change is more and more faster, so it is accomplished by a kind of rapid prototyping system (3D printer) at the initial stage of development of product and makes framework and the shell of product, thus testing the reasonability of product design and can function realize, finally determine whether product carries out advanced development or small quantities of volume production.Meanwhile, along with the diathesis system of education and improving constantly of living standard, the application of 3D printing technique is increasingly extensive especially.Portable 3D printer meets people's demand ready for using further, and existing 3D printer dieplate is for being fixedly installed in body, this dieplate in this structure cannot move or dismantle, the structure and the weight that cause this body cannot be adjusted according to actual needs, simultaneously, due to this dieplate and substrate install coordinates time, it is easy to get loose or relative position be improper and cause molding unsuccessfully.

Therefore, it is necessary to design a kind of novel printing equipment, to overcome drawbacks described above.

Summary of the invention

It is an object of the invention to provide a kind of printing equipment, it disclosure satisfy that the demand that dieplate mounts and dismounts.

For reaching above-mentioned purpose, the invention provides a kind of printing equipment, including

Substrate, has first surface and second surface；

Drive structure, there is the first continuing surface and the second continuing surface, be fixedly arranged on this first surface movably；And

Rail structure, has connecting portion and main part, and this connecting portion is slidably connected this driving structure, and this main body section is in this second surface side；

Wherein, when this driving structure moves to interlock the motion of this connecting portion in the first direction, this connecting portion slides to this second continuing surface from this first continuing surface, thus driving this main part to move in a second direction.

It is also preferred that the left this driving structure has multiple.

It is also preferred that the left this driving structure has chute, this connecting portion is through this chute and moves in this chute.

It is also preferred that the left this driving structure has the first inclined-plane, this first inclined-plane adjoins this first continuing surface and this second continuing surface, and this driving structure interlocks this connecting portion and slides along this first inclined-plane when moving along this first direction.

It is also preferred that the left this printing equipment also includes

Dieplate, this dieplate is placed on this main part；

When this connecting portion is in this first continuing surface, this dieplate separates with this second surface, and when this connecting portion is in this second continuing surface, this dieplate is adjacent to this second surface, and the distance of this dieplate and this second surface changes along with the movement of this main part.

It is also preferred that the left this main body section is in the peripheral edge of this dieplate.

It is also preferred that the left this printing equipment also includes

Braking parts；

This driving structure has drive rod, and this braking parts drives this drive rod to move in the first direction.

It is also preferred that the left this driving structure also includes the second drive rod, when this drive rod moves along this first direction, this second drive rod is along the adverse movement of this first direction.

It is also preferred that the left this printing equipment also includes the first actuating device；

Wherein, this braking parts is brake bar；

When this brake bar moves up third party, this brake bar drives this first actuator movement, moves in a first direction thus interlocking this drive rod.

It is also preferred that the left this driving structure also includes the second actuating device and drive link；

Wherein, when this brake bar moves up this third party, this brake bar drives this first actuator movement, this first actuating device interlocks this drive link and moves in fourth direction, this drive link drives this second actuator movement, and this second actuating device interlocks this drive rod and moves in the first direction.

Compared with prior art, printing equipment provided by the invention moves along this first direction by driving structure, to drive rail structure to move along this second direction, realize being adjacent to and separating of this dieplate and this substrate, thus meeting fastening and the dismounting of dieplate, simultaneously, rail structure is to dieplate uniform force application, make this dieplate smooth on the substrate, be not susceptible to and high uniformity, it is ensured that Forming Quality and success rate.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of a kind of printing equipment of the embodiment of the present invention；

The connecting portion that Fig. 2 is first embodiment of the invention faces diagram in the first continuing surface；

Fig. 3-1 is that the connecting portion of first embodiment of the invention is in the side view of the first continuing surface；

Fig. 3-2 is the side view that the connecting portion of first embodiment of the invention slides against the first inclined-plane；

Fig. 3-3 is that the connecting portion of first embodiment of the invention is in the side view of the second continuing surface；

Fig. 4-1 is that the connecting portion of second embodiment of the invention is in the side view of the first continuing surface；

Fig. 4-2 is the side view that the connecting portion of second embodiment of the invention slides against the first inclined-plane；

Fig. 4-3 is that the connecting portion of second embodiment of the invention is in the side view of the second continuing surface.

Detailed description of the invention

For making the purpose of the present invention, structure, feature and function thereof are had further understanding, hereby embodiment is coordinated to describe in detail as follows.

Shown in Fig. 3-3, disclosing the structural representation of the first embodiment of printing equipment of the present invention, this printing equipment includes substrate 1, drives structure 2, rail structure 3, dieplate 4, braking parts 5 and the first actuating device 6.

This substrate 1, has first surface 11 and second surface 12, and this first surface 11 is parallel to this second surface 12, and this first surface 11 is oppositely arranged with this second surface 12.

This driving structure 2, there is drive link the 23, second actuating device 22, drive rod the 21, first continuing surface the 211, second continuing surface 212 and the first inclined-plane 213, this first continuing surface 211 and two parts that this second continuing surface 212 is this drive rod 21 upper surface, this first continuing surface 211 is parallel to this first surface 11 and first distance, this second continuing surface 212 is parallel to this first surface 11 and second distance, this second distance with this first apart from unequal, this first distance is less than this second distance in the present embodiment.This first inclined-plane 213 adjoins this first continuing surface 211 and this second continuing surface 212, and angled respectively with this first continuing surface 211 and this second continuing surface 212.Further, this driving structure 2 has chute 214, makes this rail structure 3 through this driving structure 2, and can relative movement.

This second actuating device 22 can be gear, and engages with this drive link 23 and this drive rod 21 respectively.Wherein, when this drive link 23 moves, can driving this pinion rotation, this gear interlocks this drive rod 21 again and moves.Further, this driving structure 2 also has the second drive rod 24, while this gear interlocks this drive rod 21 D1 in the first direction motion, interlock the adverse movement along this first direction of this second drive rod 24, to drive this rail structure 3 on the position symmetrical with this drive rod 21, so that this rail structure 3 is subject to the power that this driving structure 2 uniformly drives, and now this drive rod 21 and this second drive rod 24 of this gear simultaneous linkage, reducing parts usage quantity, overall structure is optimized.Further, this first direction D1 is parallel to this first surface 11.

Further, this driving structure 2 is fixed on this first surface 11 by fixture 7, and this fixture 7 has the first end and the second end, and this first end connects this driving structure 2, and can relative sliding, this second end fixes this first surface 11 connecting this substrate 1；Alternative, this first end is fixing connects this driving structure 2, and this second end connects this first surface 11 of this substrate 1, and can relative sliding so that this driving structure 2 is fixed on this substrate 1 and can move.

With reference to shown in Fig. 2, this rail structure 3 has connecting portion 31 and main part 32, this connecting portion 31 is removably fixed on this substrate 1, namely this substrate 1 limits this connecting portion 31 degree of freedom in this substrate 1 surface direction, but can move back and forth in a second direction d 2, and this connecting portion 31 is slidably connected this driving structure 2.Preferably, this second direction D2 is perpendicular to this substrate 1 surface.Further, this connecting portion 31 through this chute 214 and in this chute 214 this drive rod 21 relative to this driving structure 2 move.Preferably, the 3rd end 311 that this connecting portion 31 is connected with this driving structure 2 has slide connecting part 313, this slide connecting part 313 coordinates slip with this first inclined-plane 213, additionally, this slide connecting part 313 limits this connecting portion 31 in this driving structure 2, that is this this slide connecting part 313 of rail structure 3 reason is fastened on the surface of this drive rod 21, will not come off because of action of gravity.This main part 32 is positioned at this second surface 12 side of this substrate 1, and accepts dieplate 4, and namely this dieplate 4 is placed on this main part 32 and moves with this main part 32.Preferably, this main part 32 is positioned at the peripheral edge of this dieplate 4, makes the uniform force application to this dieplate 4, is not susceptible to and highly consistent, it is ensured that Forming Quality.

This braking parts 5, it is possible to for driving any one force application apparatus or power unit that this drive rod 21 moves, such as motor, control switch element etc..This braking parts 5 of the present embodiment is brake bar, and this brake bar is fixed on this substrate 1, and can be installed in movably on this substrate 1 by this fixture 7 above-mentioned.This brake bar drives this first actuating device 6 action；Further, this first actuating device 6 is gear, and engages with this drive link 23 of this brake bar and this driving structure 2 respectively.Preferably, this driving structure 2 is provided with multiple, and these driving structures 2 multiple are symmetrically distributed on this substrate 1, and namely this drive link 23 has multiple, this plurality of drive link 23 of the first actuating device 6 simultaneous linkage.Certainly, this braking parts 5 can also directly drive structure 2 to move, and now, this driving structure 2 can have drive rod 21, or this driving structure 2 can have drive rod 21 and this first actuating device 6, can need design according to practical structures.

Realize the process that this dieplate 4 and this substrate 1 move to, from released state, the state of being adjacent to during below in conjunction with this brake bar stress of Fig. 1 to Fig. 3-3 couples to be described further.As shown in figure 3-1, this slide connecting part 313 of this connecting portion 31 is positioned on this first continuing surface 211 of this drive rod 21, conflict the first inwall 214a of this chute 214 in this connecting portion 31 side, opposite side is conflicted this first inclined-plane 213 by this slide connecting part 313, now slide connecting part 313 and this first inclined-plane 213 geo-stationary, without interaction force, under free state will not there is relative movement with this first continuing surface 211 in this connecting portion 31, to keep the released state of this dieplate 4 and this substrate 1.When needs fasten this dieplate 4 on this substrate 1 time, this brake bar that exerts a force moves (as shown in Figure 1) along third direction D3, this brake bar drives this first actuating device 6 to move, it is mobile at fourth direction D4 (as shown in Figure 1) that this first actuating device 6 interlocks this drive link 23, this drive link 23 drives this second actuating device 22 to move, this second actuating device 22 interlocks this drive rod 21 and moves along this first direction D1, now, this first inclined-plane 213 compresses this slide connecting part 313, this connecting portion 31 is driven to move along this second direction D2, this slide connecting part 313 this drive rod 21 relative moves to this first inclined-plane 213 from this first continuing surface 211, so that the distance between this dieplate 4 and this substrate 1 reduces.Preferably, this third direction D3 is parallel to this first plane 11, and this fourth direction D4 is parallel to this first plane 11.

As shown in figure 3-2, this slide connecting part 313 coordinates slip with this first inclined-plane 213 relatively along this second direction D2, this connecting portion 31 drives this main part 32 to move along this second direction D2, now, this main part 32 drives this dieplate 4 near this second surface 12 of this substrate 1, so that the distance between this dieplate 4 and this substrate 1 reduces.Further, this slide connecting part 313 has sliding face, and this sliding face is parallel to this first inclined-plane 213, and coordinates slip, makes whole driving structure more laborsaving.When this drive rod 21 continues to move along this first direction D1, this connecting portion 31 moves along chute 214 this drive rod 21 relative in this chute 214, this the second continuing surface 212 is slided to from this first inclined-plane 213, when this connecting portion 31 conflicts the second inwall 214b of this chute 214, this drive rod 21 stops mobile, and this second inwall 214b is positioned at this second continuing surface 212 place.As shown in Fig. 3-3, now, this connecting portion 31 is undertaken on this second continuing surface 212, and this dieplate 4 is adjacent to this second surface 12, and under free state, this connecting portion 31, with this second continuing surface 212, relative movement will not occur, to keep the tightening state of this dieplate 4.

When needing this such as fastened shown in Fig. 3-3 dieplate 4 is dismantled, this brake bar that exerts a force moves along the rightabout of this third direction D3, this brake bar drives this first actuating device 6 to move, this first actuating device 6 interlocks this drive link 23 and moves at the rightabout of this fourth direction D4, this drive link 23 drives this second actuating device 22 to move, this second actuating device 22 interlocks this drive rod 21 and moves along the rightabout of this first direction D1, now, this slide connecting part 313 slides to this first inclined-plane 213 from this second continuing surface 212, and this first inclined-plane 213 slides relatively, this connecting portion 31 moves along the rightabout of this second direction D2.Now, this main part 32 drives this dieplate 4 away from this second surface 12 of this substrate 1.This drive rod 21 continues to move along the rightabout of this first direction D1, this connecting portion 31 moves along chute this drive rod 21 relatively in this chute 214, this the first continuing surface 211 is slided to from this first inclined-plane 213, when this connecting portion 31 conflicts this first inwall 214a of this chute 214, this drive rod 21 stops mobile, and this first inwall 214a is positioned at this first continuing surface 211 place.As shown in figure 3-1, now, this connecting portion 31 is undertaken on this first continuing surface 211, this dieplate 4 separates with this second surface 12, under free state will not there is relative movement with this first continuing surface 211 in this connecting portion 31, to keep the released state of this dieplate 4 and this substrate 1, it is simple to dismantle this dieplate.

The working state schematic representation of another embodiment of printing equipment of the present invention is disclosed with reference to Fig. 4-1 to Fig. 4-3.It is distinctive in that with above-described embodiment, as shown in Fig. 4-1, in the present embodiment, this connecting portion 31 ' is undertaken on this first continuing surface 211 ', this dieplate 4 ' separates with this second surface 12 ', under free state will not there is relative movement with this first continuing surface 211 ' in this connecting portion 31 ', to keep the released state of this dieplate 4 ' and this second surface 12 '.When this drive rod 21 ' D1 ' in the first direction is mobile, should need to fasten this dieplate 4 ' when this substrate 1 ' is upper, drive this drive rod 21 ' mobile along this first direction D1 ', now, this first inclined-plane 213 ' compresses this slide connecting part 313 ', driving this connecting portion 31 ' mobile along this second direction D2 ', this slide connecting part 313 ' this drive rod 21 ' relatively moves to this first inclined-plane 213 ' (as shown in the Fig. 4-2) from this first continuing surface 211 '；Continue to drive this drive rod 21 ' to continue along this first direction D1 ' mobile, this connecting portion 31 ' slides to this second continuing surface 212 ' from this first inclined-plane 213 ', as shown in Fig. 4-3, now, this connecting portion 31 ' is undertaken on this second continuing surface 212 ', this dieplate 4 ' is adjacent to this second surface 12 ', completes and this dieplate 4 ' is fastened.To sum up, when the present embodiment realizes the fastener cycle of this dieplate 4 ', the moving direction of this drive rod 21 ' is just contrary with first embodiment, and the unloading process being implemented as template 4 ' in the present embodiment is also such, therefore does not repeat them here.

In sum, move along this first direction by controlling driving structure, to drive rail structure to move along this second direction, it is implemented as being adjacent to or separating of template and substrate, meeting the demand to dieplate fastening or dismounting in practical operation, and rail structure is to dieplate uniform force application, makes the dieplate opposing substrate will not run-off the straight and high uniformity, improve print quality and success rate, molding failure will not be produced.

The present invention is been described by by above-mentioned related embodiment, but above-described embodiment is only the example implementing the present invention.It must be noted that, the embodiment disclosed is not limiting as the scope of the present invention.On the contrary, the change made without departing from the spirit and scope of the present invention and retouching, all belong to the scope of patent protection of the present invention.

Claims (10)

1. a printing equipment, it is characterised in that include

Substrate, has first surface and second surface；

Drive structure, there is the first continuing surface and the second continuing surface, be fixedly arranged on this first surface movably；And

Rail structure, has connecting portion and main part, and this connecting portion is slidably connected this driving structure, and this main body section is in this second surface side；

Wherein, when this driving structure moves to interlock the motion of this connecting portion in the first direction, this connecting portion slides to this second continuing surface from this first continuing surface, thus driving this main part to move in a second direction.

2. printing equipment as claimed in claim 1, it is characterised in that this driving structure has multiple.

3. printing equipment as claimed in claim 1, it is characterised in that this driving structure has chute, and this connecting portion is through this chute and moves in this chute.

4. printing equipment as claimed in claim 1, it is characterised in that this driving structure has the first inclined-plane, and this first inclined-plane adjoins this first continuing surface and this second continuing surface, and this driving structure interlocks this connecting portion and slides along this first inclined-plane when moving along this first direction.

5. printing equipment as claimed in claim 1, it is characterised in that also include

Dieplate, this dieplate is placed on this main part；

When this connecting portion is in this first continuing surface, this dieplate separates with this second surface, and when this connecting portion is in this second continuing surface, this dieplate is adjacent to this second surface, and the distance of this dieplate and this second surface changes along with the movement of this main part.

6. printing equipment as claimed in claim 5, it is characterised in that this main body section is in the peripheral edge of this dieplate.

7. printing equipment as claimed in claim 1, it is characterised in that also include

Braking parts；

This driving structure has drive rod, and this braking parts drives this drive rod to move in the first direction.

8. printing equipment as claimed in claim 7, it is characterised in that this driving structure also includes the second drive rod, when this drive rod moves along this first direction, this second drive rod is along the adverse movement of this first direction.

9. printing equipment as claimed in claim 7, it is characterised in that also include the first actuating device；

Wherein, this braking parts is brake bar；

When this brake bar moves up third party, this brake bar drives this first actuator movement, moves in a first direction thus interlocking this drive rod.

10. printing equipment as claimed in claim 9, it is characterised in that this driving structure also includes the second actuating device and drive link；

Wherein, when this brake bar moves up this third party, this brake bar drives this first actuator movement, this first actuating device interlocks this drive link and moves in fourth direction, this drive link drives this second actuator movement, and this second actuating device interlocks this drive rod and moves in the first direction.