CN210940462U - 3D printer system for printing water-based material - Google Patents

Abstract

The utility model discloses a 3D printer system for printing water base material, wherein, 3D printer system includes: a housing; a supply tank disposed outside the housing; a print head for ejecting the water-based material, disposed inside the housing; a conduit between the supply tank and the printhead for fluidly communicating the supply tank and the printhead; a flow meter and a flow meter switch disposed on the conduit; the control and driving device is arranged on the pipeline and used for controlling the flow of the flowmeter and the on and off of the flowmeter switch and driving the pipeline and the printing head to move; a 3D printing table disposed below an interior of the housing; and the refrigerating device is arranged inside the 3D printing workbench. The utility model discloses utilize 3D printer system, can print liquid water-based material to finally obtain 3D through the low temperature solidification and print the product.

Description

3D printer system for printing water-based material

Technical Field

The utility model relates to a 3D prints the field, in particular to 3D printer system for printing water base material.

Background

In 3D printing in the prior art, even though the desktop type 3D printer is the lowest in price and most widely applied in the training and education industry, all the used materials need professional production and are obtained by purchasing and the price is high. If water-based materials such as daily-used and popular tap water can be adopted as materials for 3D printing, the study interest of students can be further aroused undoubtedly, and various costs are greatly reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a 3D printer system for printing water base material solves the printing material among the prior art and acquires difficult and expensive problem. Meanwhile, the 3D printing product is finally obtained by the 3D printer system, the mold is made on the 3D printing product, and the obtained mold is utilized to realize batch product production and form rapid, low-cost and batch product manufacturing.

In order to solve the above problem, the utility model provides a 3D printer system for printing water base material, wherein, 3D printer system includes: a housing; a supply tank disposed outside the housing; a print head for ejecting the water-based material, disposed inside the housing; a conduit between the supply tank and the printhead for fluidly communicating the supply tank and the printhead; a flow meter and a flow meter switch disposed on the conduit; the control and driving device is arranged on the pipeline and used for controlling the flow of the flowmeter and the on and off of the flowmeter switch and driving the pipeline and the printing head to move; a 3D printing table disposed below an interior of the housing; and the refrigerating device is arranged inside the 3D printing workbench.

Preferably, the 3D printer system further comprises a fan disposed inside the 3D printing table.

Preferably, the 3D printer system further comprises a temperature sensor disposed inside the housing and coupled to the control and drive device.

Preferably, the refrigeration device is a refrigerator.

Preferably, the printhead has an outlet with an internal diameter of between 0.01mm and 1 mm.

Preferably, the outlet outer diameter is between 0.1mm and 2 mm.

Preferably, the print head is between 1cm and 10cm in length.

Preferably, the conduit is a flexible conduit.

Preferably, the temperature of the 3D printing table is controlled between-30 ℃ and-5 ℃.

The utility model discloses relative prior art's beneficial effect lies in: utilize the utility model discloses a printing material that is arranged in printing water base material's 3D printer system to solve prior art acquires difficulty and expensive problem. Meanwhile, the 3D printing product is finally obtained by the 3D printer system, the mold is made on the 3D printing product, and the obtained mold is utilized to realize batch product production and form rapid, low-cost and batch product manufacturing.

Drawings

Fig. 1 is a schematic structural diagram of a 3D printer system for printing water-based materials according to the present invention.

Reference numerals:

1. a housing; 2.3D printing workbench; 3. a print head; 4. a control and drive device; 5. a pipeline; 6. a feeding tank; 7. a flow meter; 8. a flow meter switch; 9. a fan; 10. a refrigeration device; and 11.3D printing the product.

Detailed Description

The above and further features and advantages of the present invention will be apparent from and elucidated with reference to the accompanying drawings, wherein the described embodiments are merely some, but not all embodiments of the invention.

As shown in fig. 1, a schematic structural diagram of a 3D printer for printing water-based materials of the present invention is shown. The 3D printer system includes: a housing 1; a supply tank 6 provided outside the casing 1; a print head 3 for ejecting the water-based material, which is provided inside the housing 1; a conduit 5 disposed inside the housing 1 between the supply tank 6 and the printhead 3 for fluidly communicating the supply tank 6 and the printhead 3; a flow meter 7 and a flow meter switch 8 provided in the pipe 5; a control and drive device 4, which is provided in the conduit 5, for controlling the flow rate of the flow meter 7 and the on and off of the flow meter switch 8, and for driving the movement of the conduit 5 and the print head 3; a 3D printing table 2 disposed below the inside of the housing 1; and a refrigerating device 10 disposed inside the 3D printing table 2 for reducing the temperature of the 3D printing table 2. The utility model discloses utilize 3D printer system, can print liquid water-based material to finally obtain 3D through the low temperature solidification and print product 11. Meanwhile, the 3D printed product is used for molding, and the obtained mold is used for realizing mass product production and forming rapid, low-cost and mass product manufacturing.

The 3D printer system further comprises a fan 9 which is arranged inside the 3D printing workbench 2. The fan 9 is arranged for driving the cold air made by the refrigerating device 10 to be uniformly distributed in the 3D printing workbench 2.

The 3D printer system further comprises a temperature sensor (not shown in the figures) arranged inside the housing 1 and coupled to the control and drive means 4. The temperature sensor is arranged to monitor the temperature of the 3D printing table 2, allowing the control and drive means 4 to regulate the movement of the conduit 5 and the print head 3 according to the output of the temperature sensor.

The refrigerating device 10 is a refrigerator for reducing the temperature of the 3D printing table 2.

The print head 3 has an outlet with an internal diameter of between 0.01mm and 1 mm.

The outlet outer diameter is between 0.1mm and 2 mm.

The print head 3 is between 1cm and 10cm in length.

The duct 5 is a flexible duct, facilitating the adjustment of its movement.

The temperature of the 3D printing table 2 is controlled between-30 ℃ and-5 ℃ to facilitate curing of the water-based material.

The water-based material is selected from the group consisting of pure water, tap water, an aqueous solution in which other substances are dissolved, a mixed solution of water and other liquids, and a suspension to which solid particles are added.

The utility model discloses relative prior art's beneficial effect lies in: utilize the utility model discloses a printing material that is arranged in printing water base material's 3D printer system to solve prior art acquires difficulty and expensive problem. Meanwhile, the 3D printing product is finally obtained by the 3D printer system, the mold is made on the 3D printing product, and the obtained mold is utilized to realize batch product production and form rapid, low-cost and batch product manufacturing.

The first embodiment is as follows:

the 3D printing process of the water-based material comprises the following steps: choose to print a skates toy, download skates toy design software arrives the utility model discloses a 3D printer system for printing water base material utilizes printing software to carry out the layering and input printing to design software, starts the 3D printer system that is used for printing water base material, refrigerating plant 10 begins working, after 3 minutes, temperature sensor shows 3D prints workstation 2's temperature and has arrived-15 ℃, is used for printing water base material's 3D printer system and begins working, and 3 hours 20 minutes later, the skates that utilize the running water to print are accomplished, take out the skates and stop being used for printing water base material's 3D printer system work.

The method comprises the steps of taking the skates as a casting mould base, adding water into cement/sand (1/3) to form fluid as a mould material, carrying out die casting to form a cement mould of the skates, and solidifying the cement mould and converting the skates into water after 1 hour; the cement mould is utilized, and the color clay is used as a raw material, so that shoe toys with various colors can be manufactured in batches.

The above-mentioned embodiments further describe the objects, technical solutions and advantages of the present invention in detail, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention. It should be understood that any modification, equivalent replacement, or improvement made by those skilled in the art without departing from the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A3D printer system for printing water-based materials, the 3D printer system comprising:

a housing;

a supply tank disposed outside the housing;

a print head for ejecting the water-based material, disposed inside the housing;

a conduit between the supply tank and the printhead for fluidly communicating the supply tank and the printhead;

a flow meter and a flow meter switch disposed on the conduit;

the control and driving device is arranged on the pipeline and used for controlling the flow of the flowmeter and the on and off of the flowmeter switch and driving the pipeline and the printing head to move;

a 3D printing table disposed below an interior of the housing; and

and the refrigerating device is arranged inside the 3D printing workbench.

2. The 3D printer system of claim 1, further comprising a fan disposed inside the 3D printing table.

3. The 3D printer system of claim 1, further comprising a temperature sensor disposed inside the housing and coupled to the control and drive device.

4. The 3D printer system of claim 1, wherein the refrigeration device is a refrigerator.

5. The 3D printer system of claim 1, wherein the printhead has an outlet with an inner diameter between 0.01mm and 1 mm.

6. The 3D printer system of claim 5, wherein the outlet outer diameter is between 0.1mm and 2 mm.

7. The 3D printer system of claim 1, wherein the printhead is between 1cm and 10cm in length.

8. The 3D printer system of claim 1, wherein the conduit is a flexible conduit.

9. The 3D printer system of claim 1, wherein the temperature of the 3D printing table is controlled between-30 ℃ and-5 ℃.

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