CN207682952U - 3D printing platform and 3D printing equipment with it - Google Patents

Abstract

The utility model is related to a kind of 3D printing platform and with its 3D printing equipment.3D printing platform includes：Operating room (1) with open (2), for printed product wherein；Nozzle (3) is stretched by the opening in the operating room (1)；And telescopic thermal insulation component (4), it is located at around the nozzle (3) and stretches with the movement of the nozzle (3), to close open (2).The problem of using the technical solution of the application, thermal insulation component (4) closes the opening (2) of operating room (1), and the heat to improve operating room (1) influences electric elements work.Further, Filamentous printed material is improved because of heated the problem of softening, and can ensure that printed material smoothly moves.

Description

3D printing platform and 3D printing equipment with it

Technical field

The utility model is related to 3D printing technique fields, in particular to a kind of 3D printing platform and with its 3D printing equipment.

Background technology

The 3D printing platform of the prior art includes operating room and the nozzle for the printed product in operating room, operating room's tool There are opening, nozzle to be extend into operating room by opening.

Nozzle can be moved along the horizontal and vertical of opening.3D printing platform further includes first for driving nozzle movement Motor, wire feed component, the second motor for driving the rotation of wire feed component, use for the printed material for nozzle conveying filiform Detection part in detection wire feed rate and heating element for being heated for operating room.

The indoor temperature that works is higher, and heat can influence the work of various electronic devices.Filamentous printed material is heated Hardness declines afterwards, and printed material cannot be moved smoothly.Therefore, the indoor heat that works, which leaks, can influence the normal work of print platform Make.

Utility model content

The utility model is intended to provide a kind of 3D printing platform and the 3D printing equipment with it, indoor to improve work The problem of heat leaks.

According to the one side of the utility model embodiment, the utility model provides a kind of 3D printing platform, 3D printing Platform includes：

With open operating room, for printed product wherein；

Nozzle is stretched by opening in operating room；And

Telescopic thermal insulation component is located at around nozzle and flexible with the movement of nozzle, to close opening.

Optionally, thermal insulation component includes：

First thermal insulation component is arranged side by side with nozzle along open longitudinal direction, and the first thermal insulation component can be along open longitudinal direction It is flexible；And

Second thermal insulation component, with nozzle along open arrangement laterally side by side, the second thermal insulation component can be along open transverse direction It is flexible.

Optionally, 3D printing platform further includes the load bearing component for carrying nozzle, and load bearing component prolongs along open longitudinal direction It stretches and can be mounted on load bearing component and can be indulged along open relative to load bearing component along open transverse shifting, nozzle To movement, the first end of the first thermal insulation component is connect with nozzle, and the second end of the first thermal insulation component and the end of load bearing component connect It connects, the first end of the second thermal insulation component is connect with load bearing component, and the second end of the second thermal insulation component is fixed relative to operating room.

Optionally,

First thermal insulation component is two, and two the first thermal insulation components are respectively provided at the both sides of nozzle；And/or

Second thermal insulation component is two, and two the second thermal insulation components are respectively provided at the both sides of nozzle.

Optionally, further include air cooling system, air cooling system includes：

First wind turbine；

Hose is connected to the air outlet of the first wind turbine；And

Wind component, includes the outlet of the import being connected to hose and the inside towards operating room, and wind component is mounted on On nozzle.

Optionally, wind component includes the first wind component, and nozzle includes：

Guide member for guiding printed material, the air outlet of the first wind component is towards guide member；And/or

Heating element for heating printed material, the air outlet of the first wind component is towards heating element；And/or

Detection part for the speed for detecting printed material, the air outlet of the first wind component is towards detection part.

Optionally, guide member, detection part and heating element are arranged along first direction, first direction and the first outlet section The axial direction of the air outlet of part is consistent or parallel.

Optionally, nozzle further includes the motor for conveying printed material, and wind component includes the second wind component, and second The air outlet of wind component is towards motor.

Optionally, 3D printing platform further includes the second wind turbine for being located at the first open side, the air outlet court of the second wind turbine To thermal insulation component.

Optionally, further include the third wind turbine for being located at open the second side, the second side is opposite with the first side, third wind turbine Air inlet is towards thermal insulation component.

According to another utility model of the application, a kind of 3D printing equipment is additionally provided, 3D printing equipment includes above-mentioned 3D printing platform.

Using the technical solution of the application, thermal insulation component closes the opening of operating room, and the heat to improve operating room influences The problem of electric elements work.Further, Filamentous printed material is improved because of heated the problem of softening, and can ensure to print Material smoothly moves.

By referring to the drawings to the detailed description of the exemplary embodiment of the utility model, the utility model it is other Feature and its advantage will become apparent.

Description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property It puts, other drawings may also be obtained based on these drawings.

Fig. 1 shows the structural schematic diagram of the 3D printing platform of the embodiments of the present invention；

Fig. 2 shows the structural schematic diagrams of the air cooling system of the 3D printing platform of the embodiments of the present invention；

Fig. 3 shows the structural schematic diagram of the nozzle of the 3D printing platform of the embodiments of the present invention；And

Fig. 4 shows the structural schematic diagram of another angle of the nozzle of the 3D printing platform of the embodiments of the present invention.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.It is illustrative to the description only actually of at least one exemplary embodiment below, is never used as to this practicality Novel and its application or any restrictions used.Based on the embodiments of the present invention, those of ordinary skill in the art are not having There is the every other embodiment obtained under the premise of making creative work, shall fall within the protection scope of the present invention.

Fig. 1 shows the structural schematic diagram of the 3D printing platform of the application.As shown in Figure 1, the 3D printing of the present embodiment is flat Platform include with opening 2 operating room 1, can along opening 2 the horizontal and vertical nozzle 3 moved and telescopic thermal insulation component 4。

During nozzle 3 is moved along scheduled track, printed material is sprayed on the load bearing component in operating room 1, To form the product of predetermined shape.

Thermal insulation component 4 is located at around nozzle 3, and flexible with the movement of nozzle 3, to close the opening 2 of operating room 1, is had Conducive to preventing the heat in operating room 1 from leaking, the electronic device of print platform can be effectively protected.

Printed material outside operating room 1 is delivered to operating room by the printed material of the present embodiment in filiform, nozzle 3 In 1.After printed material is heated, intensity is lower, and the mobile fluency of printed material declines.Thermal insulation component 4 closes operating room 2 After opening, printed material is not easy the heat given out by operating room 1, and the intensity of printed material can ensure the stream of its movement Smooth property.

As shown in Figure 1, the thermal insulation component of the present embodiment includes the first thermal insulation component 4a and the second thermal insulation component 4b.

First thermal insulation component 4a is arranged side by side with nozzle 3 along the longitudinal direction of opening 2, and the first thermal insulation component 4a can be along opening 2 Longitudinal extension, during longitudinal movement of the nozzle 3 along opening 2, the first thermal insulation component 4a is moved and is stretched with nozzle 3 Contracting, to block the opening 2 of operating room 1.

Preferably, the first thermal insulation component 4a is two, and two the first thermal insulation component 4a are separately positioned on the both sides of nozzle 3, During longitudinal movement of the nozzle 3 along opening 2, one in two the first thermal insulation component 4a is stretched by nozzle 3, another It is compressed by nozzle 3.

For second thermal insulation component 4b with nozzle 3 along the arrangement laterally side by side of opening 2, the second thermal insulation component 4b can be along opening 2 Transversal stretching, during transverse shifting of the nozzle 3 along opening 2, the second thermal insulation component 4b is moved and is stretched with nozzle 3 Contracting, to close the opening 2 of operating room 1.

Preferably, the second thermal insulation component 4b is two, and two the second thermal insulation component 4b are respectively provided at the both sides of nozzle 3, Nozzle 3 along opening 2 transverse shifting during, one in two the second thermal insulation component 4b is stretched by nozzle 3, another by quilt Nozzle 3 compresses.

Specifically, 3D printing platform further includes the load bearing component 5 for carrying nozzle 3, and load bearing component 5 is along the vertical of opening 2 To extend and can along opening 2 transverse shifting, with drive nozzle 3 along opening 2 transverse shifting.

Nozzle 3 be mounted on load bearing component 5 on and can relative to load bearing component 5 along opening 2 longitudinal movement, first every The first end of warm component 4a is connect with nozzle 3, and the second end of the first thermal insulation component 4a is connect with the end of load bearing component 5, and second The first end of thermal insulation component 4b is connect with load bearing component 5, and the second end of the second thermal insulation component 4b is fixed relative to operating room 1.

In the present embodiment, 3D printing platform further includes air cooling system.Fig. 2 shows the air cooling system of the present embodiment and nozzles Structural schematic diagram.Fig. 3 shows the structural schematic diagram of the nozzle of the present embodiment.Fig. 4 shows another angle of this nozzle Structural schematic diagram.

In connection with Figures 1 to 4, the air cooling system of the present embodiment includes the first wind turbine 6, the hose 7 that is connected to the first wind turbine 6 The wind component being connected to with hose 7.The import of wind component is connected to hose, and the outlet of wind component is towards operating room 1 Inside, wind component are mounted on nozzle 3, and are moved with nozzle 3.

As shown in Figures 2 to 4, the nozzle 3 of the present embodiment includes plate-shaped member 13 and the first side mounted on plate-shaped member 13 Transfer unit.Transfer unit includes two runners arranged side by side, and Filamentous printed material is folded in the circumferential surface of two runners Between, Filamentous printed material is with the rotation of runner and towards moving in operating room 1.

Transfer unit includes the first transfer unit and the second transfer unit arranged side by side.

Nozzle 3 further include the first guide member 14a for guiding from printed material to the first transfer unit and for plus First heating element 16a of hot print material.Optionally, the first heating element 16a in a tubular form, printed material in tubulose first In heating element 16a by when, by the first heating element 16a heating.

First guide member 14a is located at the upstream of the first transfer unit, and the first heating element 16a is located at the first transfer unit Downstream.First guide member 14a, the first transfer unit and the first heating element 16a are sequentially arranged along first direction.

Nozzle 3 further include the second guide member 14b for guiding from printed material to the second transfer unit and for plus Second heating element 16b of hot print material.Optionally, the second heating element 16b in a tubular form, printed material in tubulose second In heating element 16b by when, by the second heating element 16b heating.

Second guide member 14b is located at the upstream of the second transfer unit, and the second heating element 16b is located at the second transfer unit Downstream.Second guide member 14b, the second transfer unit and the second heating element 16b are sequentially arranged along first direction.

Nozzle 3 further includes the first detection part 15a of the speed for detecting the first transfer unit and is used to detect second Second detection part 15b of the speed of transfer unit.Optionally, the first detection part 15a and the second detection part 15b is to compile Code device.

Above-mentioned guide member, transfer unit, heating element and detection part is respectively provided with the first side of plate-shaped member 13.Go out Wind part includes the first wind component 10, and the first wind component 10 is towards the first side of plate-shaped member 13, with for above-mentioned guiding Component, transfer unit, heating element and detection part cooling.

Nozzle 3 further includes the motor for conveying printed material.Motor includes first for driving the first transfer unit Motor 17a and the second motor 17b for driving the second transfer unit.

Motor is located at the second side of plate-shaped member 13, and wind component further includes the second wind component 18 towards motor.

Air cooling system further includes three-way pipe 8, and three-way pipe 8 includes for being connected to the import of hose 7, for being connected to the first outlet air The first outlet of component 10 and the second outlet for being connected to the second wind component 18.

In the present embodiment, the first outlet of three-way pipe 8 is connected to by connecting tube 9 with the first wind component 10.

As shown in Figure 1,3D printing platform further includes the second wind turbine 11 of the first side for being located at opening 2, the second wind turbine 11 Air outlet towards thermal insulation component 4.

3D printing platform further includes the third wind turbine 13 for the second side for being located at opening 2, and the second side is opposite with the first side, third The air inlet of wind turbine 17 is towards thermal insulation component 4.First wind turbine is hair-dryer, and the second wind turbine is exhaust blower, the first wind turbine and second The air that wind turbine makes is flowed along the outside of thermal insulation component 4, to form air curtain in the outside of thermal insulation component 4.

According to the another aspect of the application, the present embodiment additionally provides a kind of 3D printing equipment, which includes Above-mentioned 3D printing platform.

The exemplary embodiment that these are only the utility model, is not intended to limit the utility model, all new in this practicality Within the spirit and principle of type, any modification, equivalent replacement, improvement and so on should be included in the protection of the utility model Within the scope of.

Claims (11)

1. a kind of 3D printing platform, which is characterized in that including：

Operating room (1) with open (2), for printed product wherein；

Nozzle (3) is stretched by the opening in the operating room (1)；And

Telescopic thermal insulation component (4) is located at around the nozzle (3) and stretches with the movement of the nozzle (3), with envelope It closes open (2).

2. 3D printing platform according to claim 1, which is characterized in that the thermal insulation component (4) includes：

First thermal insulation component (4a) is arranged side by side with the nozzle (3) along the longitudinal direction of open (2), first thermal insulation portion Part (4a) can be along the longitudinal extension of open (2)；And

Second thermal insulation component (4b), with the nozzle (3) along the arrangement laterally side by side of open (2), second thermal insulation portion Part (4b) can be along the transversal stretching of open (2).

3. 3D printing platform according to claim 2, which is characterized in that further include for carrying holding for the nozzle (3) Component (5) is carried, the load bearing component (5) being longitudinally extended and capable of being moved along the lateral of open (2) along open (2) Dynamic, the nozzle (3) is mounted on the load bearing component (5) and can be relative to the load bearing component (5) along the opening (2) first end of longitudinal movement, the first thermal insulation component (4a) is connect with the nozzle (3), the first thermal insulation component The second end of (4a) is connect with the end of the load bearing component (5), and the first end of the second thermal insulation component (4b) is held with described It carries component (5) to connect, the second end of the second thermal insulation component (4b) is fixed relative to the operating room (1).

4. 3D printing platform according to claim 2, which is characterized in that

The first thermal insulation component (4a) is two, and two the first thermal insulation components (4a) are respectively provided at the nozzle (3) Both sides；And/or

The second thermal insulation component (4b) is two, and two the second thermal insulation components (4b) are respectively provided at the nozzle (3) Both sides.

5. 3D printing platform according to claim 1, which is characterized in that further include air cooling system, the air cooling system packet It includes：

First wind turbine (6)；

Hose (7) is connected to the air outlet of the first wind turbine (6)；And

Wind component includes the outlet of the import being connected to the hose (7) and the inside towards the operating room (1), described Wind component is mounted on the nozzle (3).

6. 3D printing platform according to claim 5, which is characterized in that the wind component includes the first wind component (10), the nozzle includes：

Guide member (14a, 14b) for guiding printed material, the air outlet of first wind component (10) is described in Guide member (14a, 14b)；And/or

Heating element (16a, 16b) for heating the printed material, the air outlet direction of first wind component (10) The heating element (16a, 16b)；And/or

The detection part (15a, 15b) of speed for detecting the printed material, the outlet air of first wind component (10) Mouthful towards the detection part (15a, 15b).

7. 3D printing platform according to claim 6, which is characterized in that the guide member (14a, 14b), the detection Component (15a, 15b) and the heating element (16a, 16b) are along first direction arrangement, the first direction and first outlet air The axial direction of the air outlet of component (10) is consistent or parallel.

8. 3D printing platform according to claim 5, which is characterized in that the nozzle (3) further includes for conveying printing The motor (17a, 17b) of material, the wind component include the second wind component (18), and the second wind component (18) go out Air port is towards the motor (17a, 17b).

9. 3D printing platform according to claim 1, which is characterized in that further include the first side for being located at open (2) The second wind turbine (11), the air outlet of second wind turbine (11) is towards the thermal insulation component (4).

10. 3D printing platform according to claim 9, which is characterized in that further include the second side for being located at open (2) Third wind turbine (13), the second side is opposite with first side, the air inlet of the third wind turbine (17) towards it is described every Warm component (4).

11. a kind of 3D printing equipment, which is characterized in that including the 3D printing platform described in any one of claims 1 to 10.