CN105856574A - Cutting device for 3D printing end products - Google Patents

Abstract

The invention discloses a cutting device for 3D printing end products. The cutting device comprises a conveying platform, a cutting device and a control mechanism, wherein the conveying platform comprises a conveying part; the conveying part comprises a plurality of rolling shafts extending along front and back; the rolling shafts are arranged in parallel from left to right; the cutting device comprises a first adjusting frame, a second adjusting frame and a metal heating wire; the metal heating wire is overhead arranged above the conveying part through the first adjusting frame and the second adjusting frame; the control mechanism comprises a control panel, a heating part and a driving device. The cutting device for 3D printing end products is used for automatically separating and cutting the 3D printing end products and the metal plates adhered to the 3D printing end products and has the advantages of convenience, labor-saving and time-saving effects and capability of increasing working efficiency. Meanwhile, the 3D printing end products cut by the cutting device can be prevented from being damaged and deformed; the construction for an ultra-thick supporting bottom is not required in the 3D printing process; the 3D printing supplies are greatly saved; the cutting device provided by the invention is used for cutting the 3D printing end products.

Description

A kind of 3D Printout extracts device

Technical field

The present invention relates to finished product and extract device field, extract device particularly to a kind of 3D printout.

Background technology

Fused glass pellet (FDM Fused Deposition Modeling) is the one that 3D prints in rapid shaping technique, the method uses filamentary material (paraffin, metal, plastics, low-melting alloy silk) it is raw material, utilize Electric heating that silk material is heated to slightly above fusion temperature (about high 1 DEG C than fusing point), under control of the computer, shower nozzle makees x-y plane motion, melted material is coated on the table, a layer cross section of workpiece is formed after cooling, after one layer shapes, shower nozzle brings Forward highly, carry out next layer of coating, the most successively pile up and form 3 D workpiece.Supporting material bottom finished product can be bonded together with the metallic plate of workbench, it is not easy to is taken off by printed finished product.The general method that finished product takes off employing is by heating metal base plate, after making to melt slightly with the supporting material of base plate bonded part, manually takes off the most one by one with hand.Time and effort consuming in this way, it is difficult to control time and the temperature of heating, heat inadequate finished product to be difficult to take off, the most do not notice that superheated easily makes finished product melt breaking-up and causes damage, the finished product printed is typically the most accurate parts, is taken off by staff external force and easily makes some fine positions damage or deformation.Therefore prior art haves much room for improvement and develops.

Summary of the invention

The technical problem to be solved in the present invention is: for above-mentioned the deficiencies in the prior art, it is provided that a kind of 3D printout extracts device.

nullThe present invention solves the solution of its technical problem: a kind of 3D printout extracts device，It includes transfer station、Cutter sweep and controlling organization，Described transfer station includes delivery section，The roller bearing that described delivery section extends before and after including multiple edge，From a left side, the right side is arranged side by side all roller bearings，Described cutter sweep includes the first adjusting bracket、Second adjusting bracket and METAL HEATING PROCESS silk，Described first adjusting bracket and the second adjusting bracket are respectively arranged on both sides before and after described transfer station，First adjusting bracket and the second adjusting bracket position are relative，Described METAL HEATING PROCESS silk is arranged on above delivery section by the first adjusting bracket and the second adjusting bracket are built on stilts，Described controlling organization includes control panel、Heater block and driving means，Described control panel is connected with driving means，Driving means is connected with delivery section，Described control panel is connected with heater block，Heater block is connected with METAL HEATING PROCESS silk.

Specifically, transfer station includes the multiple foot rests for supporting delivery section.Delivery section is transmitted by roller bearing linkage, the metallic plate being bonded with the 3D printout of supporting material is positioned in delivery section and just can automatically transmit, wherein roller bearing linkage transfer rate scope is 0 ~ 99m/s, and this speed is set by controlling driving means by control panel.When 3D printout is sent to cutter sweep position, METAL HEATING PROCESS silk carries out cutting process to it, temperature and the high and low position of METAL HEATING PROCESS silk are the most adjustable, wherein the temperature of METAL HEATING PROCESS silk is set by control panel control heater block, and the height of METAL HEATING PROCESS silk is fixed by the first adjusting bracket and the second adjusting bracket and regulated.Further, the height at METAL HEATING PROCESS silk two ends can be different, the needs that extract according to 3D printout and set.

As the further improvement of technique scheme, all of roller bearing at least one end is provided with gear, and adjacent gear engages each other, and described delivery section is connected with the gear on any one roller bearing.Specifically, adjacent two gears realize transmission by engagement, and therefore in practical operation, driving means only need to drive one or fraction roller bearing rotates, thus is greatly saved energy consumption.

As the further improvement of technique scheme, described roller bearing has the surface of quality of rubber materials.Specifically, quality of rubber materials surface the transmission usefulness that can be effectively increased roller bearing is set.

Further improvement as technique scheme, described first adjusting bracket is provided with the first draw-in groove, and it is relative that the second adjusting bracket is provided with the second draw-in groove, the first draw-in groove and the second draw-in groove position, described METAL HEATING PROCESS silk one end is slidably connected with the first draw-in groove, and the other end and the second draw-in groove are slidably connected.Further, described first draw-in groove is provided with multiple front screens, multiple rear screens on described second draw-in groove, and multiple front screens are relative with multiple rear screens positions.

Specifically, described in be slidably connected and can have multiple more specifically connected mode, METAL HEATING PROCESS silk can be neutralized be fixed in the second draw-in groove by the second screens is spacing by spacing first draw-in groove that is fixed on of the first screens simultaneously.

As the further improvement of technique scheme, described driving means includes that rubber belt, rubber belt are connected with described roller bearing, and driving means drives roller bearing to rotate by rubber belt.Specifically, in actual mechanical process, driving means is fastened on foot rest nearest below the roller bearing that rubber belt is driven by screw.

As the further improvement of technique scheme, the planform of described METAL HEATING PROCESS silk one of which in circle, thin slice, blade and zigzag.Further, the planform of described METAL HEATING PROCESS silk is blade.Specifically, because cutting object is 3D printout, mostly being the small-sized and product of fine structure, the planform of METAL HEATING PROCESS silk is blade, has sharp contact surface, is more beneficial for accurately cutting.

The invention has the beneficial effects as follows: the present invention carries out automatic partition from extracting process by the effect of METAL HEATING PROCESS silk in the delivery section of transfer station and heater to 3D printout and its metallic plate being bonding with, have convenient and swift, save manpower and time, it is provided that the advantage of operating efficiency.Meanwhile, utilize this to extract device and 3D printout is extracted operation, it can be ensured that 3D printout is without damaging, without deformation, and without building blocked up support bottom surface in 3D print procedure, is greatly saved 3D printing consumables.The present invention is used for extracting 3D printout.

Accompanying drawing explanation

For the technical scheme being illustrated more clearly that in the embodiment of the present invention, in describing embodiment below, the required accompanying drawing used is briefly described.Obviously, described accompanying drawing is a part of embodiment of the present invention rather than whole embodiment, and those skilled in the art is not on the premise of paying creative work, it is also possible to obtain other designs and accompanying drawing according to these accompanying drawings.

Fig. 1 is the front view of the present invention；

Fig. 2 is the top view of the present invention.

Detailed description of the invention

Below with reference to embodiment and accompanying drawing, the technique effect of design, concrete structure and the generation of the present invention is carried out clear, complete description, to be completely understood by the purpose of the present invention, feature and effect.Obviously; described embodiment is a part of embodiment of the present invention rather than whole embodiment, based on embodiments of the invention; other embodiments that those skilled in the art is obtained on the premise of not paying creative work, belong to the scope of protection of the invention.It addition, all connection/annexations being previously mentioned in literary composition, the most singly refer to that component directly connects, and refer to couple auxiliary according to being embodied as situation by adding or reducing, form more excellent draw bail.Each technical characteristic in the invention, can be with combination of interactions on the premise of the most conflicting conflict.

nullWith reference to Fig. 1～Fig. 2，A kind of 3D printout extracts device，It includes transfer station 1、Cutter sweep and controlling organization，Described transfer station 1 includes delivery section 11，The roller bearing 111 that described delivery section 11 extends before and after including multiple edge，From a left side, the right side is arranged side by side all roller bearings 111，Described cutter sweep includes the first adjusting bracket 21、Second adjusting bracket 22 and METAL HEATING PROCESS silk 23，Described first adjusting bracket 21 and the second adjusting bracket 22 are respectively arranged on both sides before and after described transfer station 11，First adjusting bracket 21 is relative with the second adjusting bracket 22 position，Described METAL HEATING PROCESS silk 23 is maked somebody a mere figurehead be arranged on above delivery section 11 by the first adjusting bracket 21 and the second adjusting bracket 22，Described controlling organization includes control panel 31、Heater block and driving means 33，Described control panel 31 is connected with driving means 33，Driving means 33 is connected with delivery section 11，Described control panel 31 is connected with heater block，Heater block is connected with METAL HEATING PROCESS silk 23.

Specifically, transfer station 1 includes the multiple foot rests for supporting delivery section 11, the transfer station 1 of the present invention preferably six foot rests, and described six foot rests lay respectively on four turnings of transfer station 1 and the centre position on front and back both sides.Delivery section 11 is transmitted by roller bearing 111 linkage, the metallic plate being bonded with the 3D printout of supporting material is positioned in delivery section 11 and just can automatically transmit, wherein the roller bearing 111 transfer rate scope that links is 0 ~ 99m/s, and this speed is set by controlling driving means 33 by control panel 31.When 3D printout is sent to cutter sweep position, METAL HEATING PROCESS silk 23 carries out cutting process to it, temperature and the high and low position of METAL HEATING PROCESS silk 23 are the most adjustable, wherein the temperature of METAL HEATING PROCESS silk 23 is controlled heater block be set by control panel 31, and the height of METAL HEATING PROCESS silk 2321 is fixed by the first adjusting bracket and the second adjusting bracket 22 and regulated.Further, the height at METAL HEATING PROCESS silk 23 two ends can be different, the needs that extract according to 3D printout and set.Further, in the present invention, control panel 31 is connected by screw on the foot rest being arranged on transfer station 1 above centre position；Described heater block is arranged on the first adjusting bracket 21 or the second adjusting bracket 22 by screw connection, and heater block also can be two, and it is simultaneously attached on the first adjusting bracket 21 and the second adjusting bracket 22；Described driving means 33 is connected by screw on the foot rest installing control panel 31 place.

Being further used as preferred embodiment, all of roller bearing 111 at least one end is provided with gear 112, and adjacent gear 112 engages each other, and described delivery section 11 is connected with the gear 112 on any one roller bearing 111.Specifically, adjacent two gears 112 realize transmission by engagement, and therefore in practical operation, driving means 33 need to drive one or fraction roller bearing 111 rotates, thus is greatly saved energy consumption.

Being further used as preferred embodiment, described roller bearing 111 has the surface of quality of rubber materials.Specifically, quality of rubber materials surface the transmission usefulness that can be effectively increased roller bearing 111 is set.

It is further used as preferred embodiment, described first adjusting bracket 21 is provided with the first draw-in groove 211, second adjusting bracket 22 is provided with the second draw-in groove 221, first draw-in groove 211 is relative with the second draw-in groove 221 position, described METAL HEATING PROCESS silk 23 one end is slidably connected with the first draw-in groove 211, and the other end and the second draw-in groove 221 are slidably connected.Further, heretofore described first draw-in groove 211 is provided with multiple front screens 212, multiple rear screens on described second draw-in groove 221, and multiple front screens 212 are relative with multiple rear screens positions.

Specifically, described in be slidably connected and can have multiple more specifically connected mode, METAL HEATING PROCESS silk 23 can be neutralized be fixed in the second draw-in groove 221 by rear screens is spacing by spacing first draw-in groove 211 that is fixed on of front screens 212 simultaneously.

Being further used as preferred embodiment, described driving means 33 includes that rubber belt 331, rubber belt 331 are connected with described roller bearing 111, and driving means 33 drives roller bearing 111 to rotate by rubber belt 331.Specifically, in actual mechanical process, driving means 33 is fastened on foot rest nearest below the roller bearing 111 that rubber belt 331 is driven by screw.In the present invention, driving means 33 is the motor of adjustable speed.

It is further used as preferred embodiment, the planform of described METAL HEATING PROCESS silk 23 one of which in circle, thin slice, blade and zigzag.Further, the planform of heretofore described METAL HEATING PROCESS silk 23 is blade.Specifically, because cutting object is 3D printout, mostly being the small-sized and product of fine structure, the planform of METAL HEATING PROCESS silk 23 is blade, has sharp contact surface, is more beneficial for accurately cutting.It addition, the material that the preferred heat conductivility of METAL HEATING PROCESS silk 23 in the present invention is good, such as copper, iron, tungsten and alloy thereof etc..

Above the better embodiment of the present invention is illustrated, but the invention is not limited to described embodiment, those of ordinary skill in the art also can make all equivalent modifications or replacement on the premise of spirit of the present invention, and modification or the replacement of these equivalents are all contained in the application claim limited range.

Claims (8)

1. null1. a 3D printout extracts device，It is characterized in that: include transfer station (1)、Cutter sweep and controlling organization，Described transfer station (1) includes delivery section (11)，The roller bearing (111) that described delivery section (11) extends before and after including multiple edge，From a left side, the right side is arranged side by side all roller bearings (111)，Described cutter sweep includes the first adjusting bracket (21)、Second adjusting bracket (22) and METAL HEATING PROCESS silk (23)，Described first adjusting bracket (21) and the second adjusting bracket (22) are respectively arranged on both sides before and after described transfer station (1)，First adjusting bracket (21) is relative with the second adjusting bracket (22) position，Described METAL HEATING PROCESS silk (23) is arranged on delivery section (11) top by the first adjusting bracket (21) and the second adjusting bracket (22) are built on stilts，Described controlling organization includes control panel (31)、Heater block and driving means (33)，Described control panel (31) is connected with driving means (33)，Driving means (33) is connected with delivery section (11)，Described control panel (31) is connected with heater block，Heater block is connected with METAL HEATING PROCESS silk (23).
2. A kind of 3D printout the most according to claim 1 extracts device, it is characterized in that: all of roller bearing (111) at least one end is provided with gear (112), adjacent gear (112) engages each other, and described delivery section (11) is connected with the gear (112) on any one roller bearing (111).
3. A kind of 3D printout the most according to claim 2 extracts device, it is characterised in that: described roller bearing (111) has the surface of quality of rubber materials.
4. A kind of 3D printout the most according to claim 1 extracts device, it is characterized in that: described first adjusting bracket (21) is provided with the first draw-in groove (211), second adjusting bracket (22) is provided with the second draw-in groove (221), first draw-in groove (211) is relative with the second draw-in groove (221) position, described METAL HEATING PROCESS silk (23) one end is slidably connected with the first draw-in groove (211), and the other end and the second draw-in groove (221) are slidably connected.
5. A kind of 3D printout the most according to claim 4 extracts device, it is characterized in that: described first draw-in groove (211) is provided with multiple front screens (212), the upper multiple rear screens of described second draw-in groove (221), multiple front screens (212) are relative with multiple rear screens positions.
6. A kind of 3D printout the most according to claim 1 extracts device, it is characterized in that: described driving means (33) includes rubber belt (331), rubber belt (331) is connected with described roller bearing (111), and driving means (33) drives roller bearing (111) to rotate by rubber belt (331).
7. A kind of 3D printout the most according to claim 1 extracts device, it is characterised in that: the planform of described METAL HEATING PROCESS silk (23) one of which in circle, thin slice, blade and zigzag.
8. A kind of 3D printout the most according to claim 7 extracts device, it is characterised in that: the planform of described METAL HEATING PROCESS silk (23) is blade.