CN115256923A - Intelligent dehumidifying, drying and color-mixing feeding device for FDM 3D printing supplies and control method thereof - Google Patents

Abstract

The invention relates to an intelligent dehumidifying, drying and toning feeding device for FDM (frequency division multiplexing) 3D printing consumables and a control method thereof, wherein the intelligent dehumidifying, drying and toning feeding device comprises a box body, a mounting groove formed in the box body, an upper cover plate arranged on the top of the box body, a feeding and switching module fixed on the top of the box body and a humidity control module arranged on one side of the box body; the feeding and switching module comprises a feeding part arranged on the top of the box body and a switching part arranged on the material breaking groove, the feeding part is suitable for conveying the silk materials, and the switching part is used for switching different silk materials. The invention has an integrated design, can directly print multicolor parts, avoids the installation, wiring and the like of a large number of elements, does not generate the condition that the printing quality is influenced by cross contamination of various colors and the like in the printing process, and realizes the multicolor printing of various consumables.

Description

Intelligent dehumidifying, drying and color-mixing feeding device for FDM 3D printing supplies and control method thereof

Technical Field

The invention relates to the field of 3D printing, in particular to an intelligent dehumidifying, drying and color mixing feeding device for FDM 3D printing supplies and a control method of the intelligent dehumidifying, drying and color mixing feeding device.

Background

FDM 3D printing consumables need to be kept in a dry state before printing and melting, and by taking a commonly used PLA material as an example, when PLA is stored in an exposed environment, the PLA begins to become brittle gradually after about 3-6 months, and excess materials in an extruder conduit can be naturally broken into small segments in a stop state. Although PLA is insoluble in water, its water absorption is high, and exposure to air or water causes PLA to tend to deteriorate, and thus PLA consumables exposed to air are used over a short period of time. If the consumable has become moisture hardened, the moisture can be removed by simply using a desiccant or heating it to a lower temperature.

Disclosure of Invention

The invention aims to provide an intelligent dehumidifying, drying and toning feeding device for FDM 3D printing consumables.

In order to solve the technical problem, the invention provides an intelligent dehumidifying, drying and toning feeding device for FDM 3D printing consumables, which comprises a box body, a mounting groove formed in the box body, an upper cover plate arranged at the top of the box body, a feeding and switching module fixed at the top of the box body and a humidity control module arranged on one side of the box body, wherein the feeding and switching module is used for feeding the FDM 3D printing consumables; the feeding and switching module comprises a feeding part arranged on the top of the box body and a switching part arranged on the material breaking groove, the feeding part is suitable for conveying the silk materials, and the switching part is used for switching different silk materials.

Further, the switching part comprises a cutter groove arranged in the feeding part and a wire cutting blade arranged in the cutter groove, wherein after the material guiding part stops moving, the wire cutting blade finishes lifting once to cut and replace the wires.

Further, the material guiding part comprises a main channel and a plurality of auxiliary channels communicated with the main channel; the one end of assisting the passageway be provided with the first silk mouth that the mounting groove is linked together, assist a lateral wall of passageway and seted up first gear groove, the internally mounted of first gear groove has first toothed disc, and the one end of main entrance is provided with the second silk mouth, the second gear groove has been seted up to one side of the inner wall of second silk mouth, the internally mounted of second gear groove has the second toothed disc, wherein one side of first toothed disc extends to assist the inside of passageway, one side of second toothed disc extends to the inside of straight passageway.

Furthermore, an arc-shaped material guide edge is arranged at the other end of the auxiliary channel, and the filament breaking blade is installed at one end of the material guide edge.

Furthermore, a plurality of consumable containers are arranged inside the mounting groove, and consumable discs are mounted inside the consumable containers; and a temperature sensor and a resistance heating patch positioned at the bottom of the temperature sensor are installed on one side wall of the consumable container.

Further, wet module of accuse is including fixing the drain part of mounting groove one side with install the evaporimeter of drain part inside wall, and a lateral wall of mounting groove is fixed with humidity transducer, wherein the drain part will the inside water of mounting groove is educed and is discharged to the external world.

Furthermore, the drainage part comprises an outer cover fixed on one side of the box body and a condensed water pipeline fixed on the outer side wall of the box body.

Furthermore, a display module is installed on the top of the upper cover plate.

The intelligent dehumidifying, drying and color mixing feeding device for the FDM 3D printing consumables and the control method thereof have the advantages that the moisture control module is arranged, the moisture control module can detect silk materials arranged in the mounting groove, can monitor and adjust the temperature of the stored silk materials, transmits the monitored numerical value to the control center, discharges the precipitated water outside the box body by the moisture control module, and can discharge the silk materials in the material guide channel in a multi-port mode by arranging the feeding and switching module, so that the discharging effect is better, and the switching discharging among different silk materials can be realized.

Can preserve the consumptive material that FDM 3D printed in the lower storage environment of temperature is suitable, humidity for a long time, print the pay-off in-process and keep the environment dry, show to promote printing quality and extension consumptive material life-span, and need not to reequip the 3D printer.

The invention also provides an intelligent dehumidifying, drying and color mixing feeding device for FDM 3D printing consumables and a control method thereof, S1, switching of the wires, stopping movement through a first feeding gear, controlling the wire breaking blade to rise and fall once, moving a second gear disc on the main channel, sending out the rest wires, and moving the first gear disc at the moment, and sending out the wires next to the rest wires at the upper port; s2, appear moisture content, come to monitor the inside humidity of installation and temperature through humidity transducer and temperature sensor to the control is to the temperature that the consumptive material dehumidification was dried, and the inside temperature difference of consumptive material produces moisture simultaneously, can precipitate the inside water of mounting groove through the condensate pipe who sets up, and discharges the moisture that will appear.

The beneficial effects of the invention are: the integrated design can directly print out polychrome part, removes installation, wiring etc. of a large amount of components from, and the condition that influences printing quality such as multiple colour cross contamination can not appear yet among the printing process, realizes the polychrome of multiple consumptive material and prints.

Drawings

The invention is further illustrated by the following examples in conjunction with the drawings.

FIG. 1 is a perspective view of a preferred embodiment of the present invention;

FIG. 2 is a schematic front view of the preferred embodiment of the present invention;

FIG. 3 is a schematic top view of a preferred embodiment of the present invention;

fig. 4 is a partially enlarged structural view at a in fig. 3 according to the present invention.

In the figure:

1. a box body; 11. mounting grooves; 111. a consumable container; 112. a consumable tray; 113. a temperature sensor; 114. resistance heating paster;

2. an upper cover plate; 21. a display module;

3. a feeding and switching module; 31. a switching unit; 311. a cutter slot; 312. a filament breaking blade; 32. a feeding section; 321. a main channel; 3211. a second wire port; 3212. the second gear groove; 3213. a second gear wheel disc; 322. an auxiliary channel; 3221. a first screw port; 3222. a first gear groove; 3223. a first gear plate; 3224. guiding the materials;

4. a humidity control module; 41. a water discharge section; 411. an outer cover; 412. a condensing 3 water pipeline; 42. an evaporator; 43. a humidity sensor.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic diagrams each illustrating the basic structure of the present invention only in a schematic manner, and thus show only the constitution related to the present invention.

Example one

As shown in fig. 1-4, the intelligent dehumidifying, drying and toning feeding device for the FDM 3D printing consumables of the present invention includes a box body 1, a mounting groove 11 formed inside the box body 1, and an upper cover plate 2 mounted on the top of the box body 1, wherein the mounting groove 11 is formed inside the box body 1 to support a filament material, and the intelligent dehumidifying, drying and toning feeding device for the FDM 3D printing consumables further includes a feeding and switching module 3 fixed on the top of the box body 1, and a humidity control module 4 mounted on one side of the box body 1; the feeding and switching module 3 comprises a feeding part 32 arranged at the top of the box body 1 and a switching part 31 arranged on the material breaking groove, and the feeding part 32 is suitable for conveying the silk materials, wherein the switching part 31 is used for switching different silk materials.

This kind of dry mixing of colors material feeding unit of intelligence dehumidification is through setting up wet module 4 of accuse, wet module 4 of accuse can detect the silk material that sets up in mounting groove 11 inside, and can adjust the temperature that the silk material was stored when monitoring, transmit the numerical value of monitoring for control center, and utilize wet module 4 of accuse to arrange into box 1 outside with the moisture that appears, and because single cutter of silk material sharing many times, lead to multiple wire rod accumulation in a guide passageway, lead to pay-off mouth to block up easily, the clout is not sent out, the scheduling problem is extruded by force to the consumptive material silk material after the switching, through setting up feed and switching module 3, can carry out the multiport ejection of compact to the inside silk material of guide passageway, make ejection of compact effect better, and can realize switching the ejection of compact between the different silk materials.

The switching part 31 comprises a cutter groove 311 arranged in the feeding part 32 and a filament cutting blade 312 arranged in the cutter groove 311, wherein after the material guiding part stops moving, the filament cutting blade 312 finishes lifting once to cut and replace the filament.

Through cutter groove 311, the cooperation between cutter groove 311 and the disconnected silk blade 312, through the lift of control blade for can cut the silk material through guide portion, the disconnected material mode is simple convenient.

The material guiding part comprises a main channel 321 and a plurality of auxiliary channels 322 communicated with the main channel 321; a first screw hole 3221 communicated with the mounting groove 11 is formed in one end of the auxiliary passage 322, a first gear groove 3222 is formed in one side wall of the auxiliary passage 322, a first gear disc 3223 is mounted inside the first gear groove 3222, a second screw hole 3211 is formed in one end of the main passage 321, a second gear groove is formed in one side of the inner wall of the second screw hole 3211, a second gear disc 3213 is mounted inside the second gear groove 3212, one side of the first gear disc 3223 extends to the inside of the auxiliary passage 322, and one side of the second gear disc 3213 extends to the inside of the straight passage.

An arc-shaped material guiding edge 3224 is disposed at the other end of the auxiliary channel 322, and the filament breaking blade 312 is installed at one end of the material guiding edge 3224. The arc-shaped material guiding edge 3224 can prevent the wire material from being damaged due to friction between the wire material and the corner of the communication part when the wire material enters the main channel 321 from the auxiliary channel 322.

Through the auxiliary channel 322 that sets up, the silk material directly enters into auxiliary channel 322 after coming out through first silk mouth 3221, this auxiliary channel 322 is provided with the multiunit, make simultaneously multiunit silk material dry the ejection of compact, and the inside wall at the exit of silk mouth sets up first gear groove 3222, first gear groove 3222 cooperatees with first toothed disc 3223, and first toothed disc 3223 is outstanding with auxiliary channel 322, can directly contact with the bed charge on the auxiliary channel 322, make the accessible control first gear disc 3223 rotate, come the removal of drive control silk material, and set up the auxiliary channel, make multiunit silk material directly enter into main channel 321 through auxiliary channel 322 and continue to remove through second gear groove and the second toothed disc 3213 drive silk material that main channel 321 set up.

When needing to switch over the silk material, send the silk material switching instruction through the display module 21 of 2 top installations of upper cover plate, after the switching instruction sends, first toothed disc 3223 stop motion, the disconnected silk blade 312 is accomplished once and is risen and fallen this moment, and second toothed disc 3213 on the main entrance 321 rotates, send out the surplus silk material on the main entrance 321, when the terminal silk material that reaches disconnected silk blade 312 position of surplus, first toothed disc 3223 motion, the silk material is sent out following the surplus silk material of last port, make and switch over between different silk materials.

A plurality of consumable containers 111 are arranged in the mounting groove 11, and consumable discs 112 are mounted in the consumable containers 111; a temperature sensor 113 and a resistance heating patch 114 positioned at the bottom of the temperature sensor 113 are installed on one side wall of the consumable container 111.

Through seting up multiunit consumptive material container 111 in the inside of mounting groove 11, can place the consumptive material of multiunit different grade type simultaneously, dry to it dehumidifies, temperature sensor 113 is all installed to the inside of every consumptive material container 111, come to monitor the inside temperature of consumptive material container 111 through temperature sensor 113, when inside temperature is low, heat up the inside through start-up resistance heating paster 114, make the inside temperature of consumptive material container 111 can not hang down excessively, can reach the dry optimal temperature of consumptive material.

Wet module 4 is including fixing the drain part 41 of mounting groove 11 one side and installing the evaporimeter 42 of drain part 41 inside wall, and a lateral wall of mounting groove 11 is fixed with humidity transducer 43, wherein drain part 41 will the inside water of mounting groove 11 is educed and is discharged to the external world, drain part 41 is including fixing the enclosing cover 411 of box 1 one side and fixing the condensate water pipeline 412 of box 1 outside wall.

Through setting up humidity transducer 43, come to monitor the inside humidity of installation to owing to when carrying out dehumidification drying to the consumptive material, the inside of mounting groove 11 can produce moisture, can precipitate the inside water of mounting groove 11 through the condensate pipe 412 that sets up, and discharge the moisture that will precipitate into in the condensate water collection device outside the box 1.

Example two

The second embodiment is performed on the basis of the first embodiment, and the specific intelligent dehumidifying, drying and toning feeding device for the FDM 3D printing consumables is the same as the first embodiment and is not repeated here.

S1, switching the silk materials, stopping moving through a first feeding gear, controlling the silk breaking blade 312 to rise and fall once, moving a second gear disc 3213 on the main channel 321 to send out the residual silk materials, and moving a first gear disc 3223 at the moment to send out the silk materials next to the residual silk materials at the last port.

S2, precipitate moisture content, come to monitor the inside humidity of installation and temperature through humidity transducer 43 and temperature sensor 113 to the control is to the temperature of consumptive material dehumidification stoving, and the inside temperature difference of consumptive material produces moisture simultaneously, can precipitate the inside water of mounting groove 11 through the condensate pipe 412 of establishing, and the moisture that will precipitate is discharged. Wherein, step S2' S adoption, the cooperation between passageway 322 and the main entrance 321 is assisted to the multiunit, can let single shower nozzle 3D printer directly print out polychrome part, removes installation, the wiring etc. of a large amount of components from, and the condition of influence printing quality such as multiple colour cross contamination can not appear in the printing process yet, realizes the polychrome of multiple consumptive material and prints.

This kind of an intelligence dehumidification drying mixing of colors material feeding unit and control method for FDM 3D printing consumables, can be with the consumptive material that FDM 3D printed suitable in the temperature, the lower storage environment of humidity is the long-term storage, it keeps the environment dry to print the pay-off in-process, show promotion printing quality and extension consumptive material life-span, and need not to reequip the 3D printer, and can directly print out polychrome part and be difficult for appearing the colour mixture condition, carry out polychrome printing to multiple consumptive material.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The intelligent dehumidifying, drying and color mixing feeding device for the FDM 3D printing consumables comprises a box body, a mounting groove formed in the box body, and an upper cover plate arranged on the top of the box body, and is characterized by further comprising a feeding and switching module fixed on the top of the box body and a humidity control module arranged on one side of the box body;

the feeding and switching module comprises a feeding part arranged at the top of the box body and a switching part arranged on the material breaking groove, and the feeding part is suitable for conveying the silk materials, wherein

The switching part is used for switching different silk materials.

2. The intelligent dehumidifying, drying and toning feeding device for FDM 3D printing consumables as claimed in claim 1,

the switching part comprises a cutter groove arranged in the feeding part and a wire cutting blade arranged in the cutter groove, wherein

And after the material guide part stops moving, the filament cutting blade finishes one-time lifting and falling to cut and replace the filament.

3. The intelligent dehumidifying, drying and toning feeding device for FDM 3D printing consumables as claimed in claim 2,

the material guide part comprises a main channel and a plurality of auxiliary channels communicated with the main channel;

one end of the auxiliary channel is provided with a first screw hole communicated with the mounting groove, a first gear groove is formed in one side wall of the auxiliary channel, and a first gear disc is mounted inside the first gear groove, and

a second screw hole is formed in one end of the main channel, a second gear groove is formed in one side of the inner wall of the second screw hole, a second gear wheel disc is mounted inside the second gear groove, and the second gear wheel disc is mounted in the second gear groove

One side of the first gear disc extends to the inside of the auxiliary channel, and one side of the second gear disc extends to the inside of the straight channel.

4. The intelligent dehumidifying, drying and toning feeding device for FDM 3D printing consumables as claimed in claim 3,

the other end of the auxiliary channel is provided with an arc-shaped material guiding edge, and the filament breaking blade is installed at one end of the material guiding edge.

5. The intelligent dehumidifying, drying and toning feeding device for FDM 3D printing consumables as claimed in claim 4,

a plurality of consumable containers are arranged in the mounting groove, and consumable discs are arranged in the consumable containers;

and a temperature sensor and a resistance heating patch positioned at the bottom of the temperature sensor are installed on one side wall of the consumable container.

6. The intelligent dehumidifying, drying and toning feeding device for FDM 3D printing consumables as claimed in claim 5,

the wet module of accuse is including fixing the drain section of mounting groove one side with install the evaporimeter of drain section inside wall to and

a humidity sensor is fixed on one side wall of the mounting groove, wherein

The water drainage part is used for draining out water in the mounting groove and discharging the water to the outside.

7. The intelligent dehumidifying drying toning feeding device for FDM 3D printing consumables as claimed in claim 6,

the water discharging part comprises an outer cover fixed on one side of the box body and a condensed water pipeline fixed on the outer side wall of the box body.

8. The intelligent dehumidifying, drying and toning feeding device for FDM 3D printing consumables as claimed in claim 7,

and a display module is installed at the top of the upper cover plate.

9. An intelligent dehumidifying, drying and toning feeding device for FDM 3D printing consumables and a control method thereof as claimed in any one of claims 1 to 8,

the intelligent dehumidifying, drying and toning feeding device for the FDM 3D printing consumables further comprises a feeding and switching module fixed at the top of the box body and a humidity control module arranged on one side of the box body;

the feeding and switching module comprises a feeding part arranged at the top of the box body and a switching part arranged on the material breaking groove, and the feeding part is suitable for conveying the silk materials, wherein

The switching part is used for switching different silk materials.

10. The device for intelligently dehumidifying, drying and toning and feeding a material for FDM 3D printing consumables and the control method thereof according to claim 9,

s1, switching the silk materials, stopping moving through a first feeding gear, controlling the silk breaking blade to rise and fall once, moving a second gear disc on the main channel to send out the residual silk materials, and moving the first gear disc at the moment to send out the silk materials which are next to the residual silk materials at the previous port

S2, separate out moisture content, come to monitor the inside humidity of installation and temperature through humidity transducer and temperature sensor to the control is to the temperature that the consumptive material dehumidification was dried, and the inside temperature difference of consumptive material produces moisture simultaneously, can separate out the inside water of mounting groove through the condensate pipe way that sets up, and the moisture that will separate out is discharged.

Images