CN207859486U - A kind of novel proximal end extrusion nozzle structure - Google Patents

Abstract

The utility model discloses a kind of novel proximal ends to squeeze out nozzle structure, including radiator fan hood, extruder motor, extrusion nozzle and cooling fan cover, the radiator fan hood is internally provided with radiator fan main body, the radiator fan hood side is provided with air fluidizing grid lattice, radiator fan main body side is provided with extrusion mechanism, it is provided with link below the extrusion mechanism, fixing assembling bolt is provided on the link.Advantageous effect is：The utility model has active heat removal system, it can ensure that the extruder motor radiates well under the state of working long hours, to improve model accuracy, eliminate wire feed spring simultaneously, by the way of direct wire feed, substantially increase the service life of the utility model and the precision of model, simultaneously, reduce the maintenance cost and maintenance difficulty of the extrusion mechanism, double refrigerating module designs simultaneously, cooling efficiency is improved, the difficulty of installation and the repair of the extrusion nozzle is relatively low, while ensure that the stability of heating.

Description

A kind of novel proximal end extrusion nozzle structure

Technical field

The utility model is related to the field of 3D printing equipment, and the utility model is related to a kind of novel proximal ends to squeeze out nozzle structure.

Background technology

3D printing technique appears in the 1980s, being otherwise known as " rapid shaping technique ", and principle is one kind with number Based on word model file, with adhesive materials such as powdered technology or plastics, carry out structure by layer-by-layer printing The technology of body.Appoint its biggest advantage is that can be generated directly from the 3 D graphic data of Computer Design without mechanical processing What object improves productivity and reduces production cost to greatly shorten the R＆D cycle of product.Therefore it is widely used To manufacturing industry.3D printing technique can be divided into the laser three-dimensional art of printing (SLA), selective laser according to the difference of its forming method Sintering technology (SLS), fusion sediment Modeling Technology (FDM) etc..Essential distinction of the FDM rapid shaping techniques compared with other technologies It is no laser system, therefore cost is minimum, meanwhile, also it is presently the most a kind of widely applied 3D printing technique.

FDM forming techniques are that solid low melting point filamentary material is heated to semi-molten state, are accumulated successively.Therefore it beats The discharging quality of print nozzle plays great influence to the effect of 3D printing, in its whole process, wire vent speed and wire vent Uniformity coefficient be to determine 3D printing precision and an important factor for surface quality.And many 3D printer manufacturer is on the market The more profits of acquisition, stock market order, does not reduce cost simply, meanwhile, existing technical staff is few to be directed to 3D Printer head study immature with the prior art.It is difficult in the engineering of printing so resulting in many 3D printers The uniformity for ensureing its wire vent speed and discharging, for this situation, 3D printer is badly in need of that a kind of wire feed is simple, precise degrees Nozzle structure high, easy to repair.

Utility model content

The purpose of this utility model is that solve the above-mentioned problems and provides a kind of novel proximal end extrusion nozzle structure.

The utility model is achieved through the following technical solutions above-mentioned purpose：

A kind of novel proximal end extrusion nozzle structure, including radiator fan hood, extruder motor, extrusion nozzle and cooling fan Cover, the radiator fan hood are internally provided with radiator fan main body, and the radiator fan hood side is provided with air fluidizing grid lattice, Radiator fan main body side is provided with extrusion mechanism, is provided with link below the extrusion mechanism, on the link It is provided with fixing assembling bolt, the link side is provided with radiating block, and the extrusion mechanism is internally provided with extruder motor, institute It states extruder motor and is connected with wheel is squeezed out, the extrusion wheel is connected with driven wheel, the extrusion wheel and driven wheel setting Assembly cavity is provided with outside the side of wire feeding trough, the wire feeding trough, the cooling fan cover is internally provided with cooling motor, institute It states and is provided with cooling fan main body at the top of cooling motor, elastic tube, the elastic tube both sides are provided with above the extrusion nozzle It is provided with heating module, trunnion is provided with above the elastic tube.

In the present embodiment, inner support rack, institute are additionally provided between the radiator fan hood and the radiator fan main body The side for stating radiator fan hood is provided with air fluidizing grid lattice, and the radiator fan hood is riveted with the inner support rack, described Inner support rack passes through bolt twist-on with the radiator fan main body.

In the present embodiment, the extruder motor is sequentially connected with extrusion wheel, and the extrusion wheel and the driven wheel are logical Silk drive connection is crossed, the extruder motor is bolted assembly connection with the extrusion mechanism.

In the present embodiment, the cooling motor and the cooling fan main body are keyed, the cooling fan cover, described cold But fan main body and the quantity of the cooling motor are two, are symmetrically distributed in the both sides of the extrusion nozzle.

In the present embodiment, the link passes through the fixing assembling bolt assembly connection, the fixation with the radiating block The quantity for assembling bolt is four.

In the present embodiment, the trunnion is connected to the extrusion nozzle by pipeline, and the trunnion is logical with the wire feeding trough Piping connects.

In the present embodiment, the heating module is connected with trunnion package, the elastic tube and the extrusion nozzle bullet Property connection.

In the present embodiment, the length of the elastic tube can be adjusted according to actual demand.

In the present embodiment, the extrusion nozzle is made of outer wall, diversion pipe, conflux cover, nozzle and limit ball, the limit Position ball is fixed at the diversion pipe, and the diversion pipe fixes nested encryptions with the outer wall.

In the present embodiment, the diversion pipe is tightly connected with the conflux cover, and the conflux cover connects with the injector seals It connects.

The beneficial effects of the utility model are：The utility model has active heat removal system, it is ensured that the extrusion Motor radiates well under the state of working long hours, and to improve model accuracy, while wire feed spring is eliminated, using direct The mode of wire feed substantially increases the service life of the utility model and the precision of model, meanwhile, reduce the extrusion mechanism Maintenance cost and maintenance difficulty, while double refrigerating modules design, improve cooling efficiency, the installation of the extrusion nozzle and dimension The difficulty repaiied is relatively low, while ensure that the stability of heating.

Description of the drawings

Fig. 1 is the front view structure schematic diagram that a kind of novel proximal end described in the utility model squeezes out nozzle structure；

Fig. 2 is the left view that a kind of novel proximal end described in the utility model squeezes out nozzle structure；

Fig. 3 is the vertical view that a kind of novel proximal end described in the utility model squeezes out nozzle structure；

Fig. 4 is the enlarged drawing for the extrusion nozzle that a kind of novel proximal end described in the utility model squeezes out nozzle structure.Attached drawing mark Note is described as follows：

1, radiator fan hood；2, inner support rack；3, extruder motor；4, wheel is squeezed out；5, driven wheel；6, extrusion mechanism；7、 Radiator fan main body；8, link；9, fixing assembling bolt；10, trunnion；11, heating module；12, extrusion nozzle；13, cooling wind Fan cover；14, cooling fan main body；15, radiating block；16, air fluidizing grid lattice；17, assembly cavity；18, wire feeding trough；19, cooling electricity Machine；20, elastic tube；1201, outer wall；1202, diversion pipe；1203, conflux cover；1204, nozzle；1205, ball is limited.

Specific implementation mode

The utility model is described in further detail below in conjunction with the accompanying drawings：

As Figure 1-Figure 4, a kind of novel proximal end squeezes out nozzle structure, including radiator fan hood 1, extruder motor 3, extrusion Nozzle 12 and cooling fan cover 13, the radiator fan hood 1 are internally provided with radiator fan main body 7,1 side of the radiator fan hood While being provided with air fluidizing grid lattice 16,7 side of radiator fan main body is provided with extrusion mechanism 6,6 lower section of the extrusion mechanism It is provided with link 8, fixing assembling bolt 9 is provided on the link 8,8 side of the link is provided with radiating block 15, institute State extrusion mechanism 6 and be internally provided with extruder motor 3, the extruder motor 3 is connected with wheel 4 is squeezed out, extrusions take turns 4 with it is driven Wheel 5 is connected, extrusions take turns 4 and the driven wheel 5 be arranged and be provided with outside the side of wire feeding trough 18, the wire feeding trough 18 Assembly cavity 17, the cooling fan cover 13 are internally provided with cooling motor 19, and 19 top of the cooling motor is provided with cooling wind Main body 14 is fanned, 12 top of the extrusion nozzle is provided with elastic tube 20, and 20 both sides of the elastic tube are provided with heating module 11, institute It states 20 top of elastic tube and is provided with trunnion 10.

In the present embodiment, it is additionally provided with inner support rack 2 between the radiator fan hood 1 and the radiator fan main body 7, The side of the radiator fan hood 1 is provided with air fluidizing grid lattice 16, the radiator fan hood 1 and 2 riveting of inner support rack It connects, for the inner support rack 2 with the radiator fan main body 7 by bolt twist-on, the radiator fan hood 1 can drive air Flowing, and sent out hot-air by the air fluidizing grid lattice 16, the effect of heat dissipation is provided for the extruder motor (3).

In the present embodiment, the extruder motor 3 is sequentially connected with extrusion wheel 4, the extrusion wheel 4 and the driven wheel 5 are sequentially connected by silk, and the extruder motor 3 is bolted assembly connection, the extrusion electricity with the extrusion mechanism 6 Machine 3 can drive 4 rotation of extrusion wheel, to drive silk to be fed.

In the present embodiment, the cooling motor 19 is keyed with the cooling fan main body 14, the cooling fan cover 13, The cooling fan main body 14 and the quantity of the cooling motor 19 are two, are symmetrically distributed in the two of the extrusion nozzle 12 Side, the cooling motor 19 can drive the cooling fan main body 14 to rotate, and the finished product to complete printing carries out cooling Processing.

In the present embodiment, the link 8 and the radiating block 15 are described by 9 assembly connection of fixing assembling bolt The quantity of fixing assembling bolt 9 is four, and the radiating block 15 can be that the extruder motor (3) provides heat sinking function.

In the present embodiment, the trunnion 10 is connected to the extrusion nozzle 12 by pipeline, and the trunnion 10 is sent with described Silk slot 18 is connected by pipeline, and the extrusion nozzle 12 can export the printed material of melting, is used for print job.

In the present embodiment, the heating module 11 is connected with the package of the trunnion 10, the elastic tube 20 and the extrusion 12 elastic connection of nozzle, the heating module 11 can heat silk, be melted, to carry out print job.

In the present embodiment, the length of the elastic tube 20 can be adjusted according to actual demand, and practicability is stronger.

In the present embodiment, the extrusion nozzle 12 is by outer wall 1201, diversion pipe 1202, conflux cover 1203,1204 and of nozzle Ball 1205 is limited to form, the limit ball 1205 is fixed at the diversion pipe 1202, the diversion pipe 1202 and with The outer wall 1201 fixes nested encryptions, and the limit ball 1205 can be that the diversion pipe 1202 provides fixed, limit Effect.

In the present embodiment, the diversion pipe 1202 is tightly connected with the conflux cover 1203, the conflux cover 1203 and institute The sealed connection of nozzle 1204 is stated, the conflux cover 1203 can converge the melting printed material in the diversion pipe 1202 It is poly-, and be discharged by the nozzle 1204.

The beneficial effects of the utility model are：The utility model has active heat removal system, it is ensured that the extrusion Motor 3 radiates well under the state of working long hours, and to improve model accuracy, while wire feed spring is eliminated, using straight The mode for picking silk substantially increases the service life of the utility model and the precision of model, meanwhile, reduce the extruder The maintenance cost and maintenance difficulty of structure 6, while double refrigerating modules design, and improve cooling efficiency, the peace of the extrusion nozzle 12 Dress and the difficulty of repair are relatively low, while ensure that the stability of heating.

The concrete operating principle of the utility model is：The utility model is fixed on required position, and adjusts the elasticity The extrusion nozzle 12 is directed at position to be printed by the length of pipe 20, later by the assembly cavity 17 by the wire feeding trough 18 are connected with external wire feeding device, and under the control of the extrusion mechanism 6, the extruder motor 3 drives the extrusion to take turns 4 turns Dynamic, to drive silk to move, silk is sent into the trunnion 10, and heating and melting is carried out to silk by the heating module 11 Reason, the printing raw material after thawing are sprayed to by the extrusion nozzle 12 in print cup, print job are completed, in print procedure In, the radiator fan main body 7 carries out radiating treatment to the extrusion mechanism 6, to ensure that the temperature of the extruder motor 3 is protected It holds in preference temperature, ensures that the extruder motor 3 is in good working order, after completing to print, the cooling motor 19 drive the cooling fan main body 14 to rotate, and are cooled down to printout by the cooling fan main body 14 of both sides Reason, to improve the efficiency of printing.

The basic principles and main features and advantage of the utility model have been shown and described above.The technical staff of the industry It should be appreciated that the present utility model is not limited to the above embodiments, the above embodiments and description only describe this The principle of utility model, on the premise of not departing from the spirit and scope of the utility model, the utility model also has various change And improvement, these various changes and improvements fall within the scope of the claimed invention.The utility model requires protection scope It is defined by appending claims and equivalents.

Claims (10)

1. a kind of novel proximal end squeezes out nozzle structure, it is characterised in that：Including radiator fan hood (1), extruder motor (3), squeeze out Nozzle (12) and cooling fan cover (13), the radiator fan hood (1) are internally provided with radiator fan main body (7), the heat dissipation Fan guard (1) side is provided with air fluidizing grid lattice (16), and radiator fan main body (7) side is provided with extrusion mechanism (6), It is provided with link (8) below the extrusion mechanism (6), fixing assembling bolt (9), the company are provided on the link (8) It connects frame (8) side and is provided with radiating block (15), the extrusion mechanism (6) is internally provided with extruder motor (3), the extruder motor (3) it is connected with extrusion wheel (4), the extrusion wheel (4) is connected with driven wheel (5), the extrusion wheel (4) and the driven wheel (5) setting is provided with assembly cavity (17), the cooling fan cover outside the side of wire feeding trough (18), the wire feeding trough (18) (13) it is internally provided with cooling motor (19), cooling fan main body (14) is provided at the top of the cooling motor (19), it is described to squeeze It is provided with elastic tube (20) above delivery nozzle (12), elastic tube (20) both sides are provided with heating module (11), the elasticity It is provided with trunnion (10) above pipe (20).

2. a kind of novel proximal end according to claim 1 squeezes out nozzle structure, it is characterised in that：The radiator fan hood (1) inner support rack (2), the side setting of the radiator fan hood (1) are additionally provided between the radiator fan main body (7) There are free flow of air grid (16), the radiator fan hood (1) to be riveted with the inner support rack (2), the inner support rack (2) Pass through bolt twist-on with the radiator fan main body (7).

3. a kind of novel proximal end according to claim 1 squeezes out nozzle structure, it is characterised in that：The extruder motor (3) It is sequentially connected with extrusion wheel (4), the extrusion wheel (4) is sequentially connected with the driven wheel (5) by silk, the extrusion Motor (3) is bolted assembly connection with the extrusion mechanism (6).

4. a kind of novel proximal end according to claim 1 squeezes out nozzle structure, it is characterised in that：The cooling motor (19) It is keyed with the cooling fan main body (14), the cooling fan cover (13), the cooling fan main body (14) and described cold But the quantity of motor (19) is two, is symmetrically distributed in the both sides of the extrusion nozzle (12).

5. a kind of novel proximal end according to claim 1 squeezes out nozzle structure, it is characterised in that：The link (8) with For the radiating block (15) by fixing assembling bolt (9) assembly connection, the quantity of the fixing assembling bolt (9) is four.

6. a kind of novel proximal end according to claim 1 squeezes out nozzle structure, it is characterised in that：The trunnion (10) and institute It states extrusion nozzle (12) to be connected to by pipeline, the trunnion (10) is connect with the wire feeding trough (18) by pipeline.

7. a kind of novel proximal end according to claim 1 squeezes out nozzle structure, it is characterised in that：The heating module (11) It wraps up and connecting with the trunnion (10), the elastic tube (20) and the extrusion nozzle (12) elastic connection.

8. a kind of novel proximal end according to claim 1 squeezes out nozzle structure, it is characterised in that：The elastic tube (20) Length can be adjusted according to actual demand.

9. a kind of novel proximal end according to claim 1 squeezes out nozzle structure, it is characterised in that：The extrusion nozzle (12) It is made of outer wall (1201), diversion pipe (1202), conflux cover (1203), nozzle (1204) and limit ball (1205), the limit Position ball (1205) is fixed at the diversion pipe (1202), and the diversion pipe (1202) is fixed with the outer wall (1201) Nested encryptions.

10. a kind of novel proximal end according to claim 9 squeezes out nozzle structure, it is characterised in that：The diversion pipe (1202) it is tightly connected with the conflux cover (1203), the conflux cover (1203) is tightly connected with the nozzle (1204).