CN-117549559-B - Three-dimensional post-treatment workstation that prints

Abstract

The application discloses a three-dimensional printing post-treatment workstation which comprises a workbench, a door body, a shade and a recovery device, wherein the recovery device comprises a recovery pipe, a first recovery part, a recovery tank and a suction pump, the first recovery part is fixedly connected to the door body and is provided with a first suction port, the first suction port is opened at the upper end of the door body, and the suction pump sucks printing materials sucked from the recovery pipe and the first suction port to the recovery tank through negative pressure. By adopting the technical scheme, compared with the prior art, the working environment and the operating condition of operators can be effectively improved.

Inventors

• Request for anonymity

Assignees

• 厦门汉印电子技术有限公司

Dates

Publication Date

20260505

Application Date

20231109

Claims (9)

1. 1. A three-dimensional post-printing treatment workstation (1) for post-treating a moving carriage (2) for accommodating printing materials and three-dimensional printing pieces to take out and recover the printing materials from the printing materials, wherein the three-dimensional post-printing treatment workstation (1) comprises a workbench (3), a door body (4) and a recovery device (6), the workbench (3) is provided with a containing cavity (7) for accommodating the moving carriage (2), the containing cavity (7) is provided with a transfer port for moving the moving carriage (2) in or out, the door body (4) is connected with the workbench (3) and is used for opening or closing the transfer port, the recovery device (6) comprises a recovery pipe (9) connected through a pipeline, a recovery tank (10) and a suction pump (11), the suction pump (11) sucks the printing materials in the moving carriage (2) from the recovery pipe (9) to the recovery tank (10) through forming negative pressure, and the device (6) is characterized by further comprising a first suction port (12) fixedly connected with the first suction port (12) on the first door body (4) and provided with a recovery door (12 a), the suction pump (11) also sucks the printing material sucked from the first suction port (12 a) to the recovery tank (10) by forming a negative pressure, the first suction port (12 a) being adapted to be close to the front side of the moving carriage (2) when the moving carriage (2) moves into the accommodating chamber (7) and the door body (4) closes the transfer port.
2. 2. A three-dimensional post-printing treatment workstation (1) as claimed in claim 1, characterized in that the first suction opening (12 a) is arranged upwards.
3. 3. A three-dimensional post-printing treatment workstation (1) as claimed in claim 1, characterized in that said first suction opening (12 a) is directed towards the upper side of said housing cavity.
4. 4. A three-dimensional post-printing treatment workstation (1) as claimed in claim 1, wherein the recycling device (6) further comprises a second recycling part (13) and a third recycling part (14), the second recycling part (13) and the third recycling part (14) are fixedly connected to the left side and the right side of the workbench (3) adjacent to the accommodating cavity (7) respectively, a second suction port (13 a) and a third suction port (14 a) are respectively and correspondingly arranged, the second suction port (13 a) and the third suction port (14 a) are respectively opened at the upper end of the workbench (3), and the suction pump (11) further sucks printing materials sucked from the second suction port (13 a) and the third suction port (14 a) to the recycling tank (10) through negative pressure.
5. 5. A three-dimensional post-printing treatment workstation (1) as claimed in claim 4, characterized in that said second suction opening (13 a) and said third suction opening (14 a) are arranged facing upwards.
6. 6. A three-dimensional post-printing treatment workstation (1) as claimed in claim 4, characterized in that said second suction opening (13 a) and said third suction opening (14 a) are directed towards the upper side of said housing chamber (7).
7. 7. A three-dimensional post-printing treatment workstation (1) as claimed in claim 4, characterized in that said recycling means (6) further comprise a fourth recycling portion (15), said fourth recycling portion (15) being fixedly connected to the rear side of said table (3) adjacent to said housing chamber (7) and provided with a fourth suction opening (15 a), said fourth suction opening (15 a) being open at the upper end of said table (3), said suction pump (11) further sucking the printing material sucked from said fourth suction opening (15 a) to said recycling tank (10) by creating a negative pressure.
8. 8. A three-dimensional post-printing treatment workstation (1) as claimed in claim 7, characterized in that said fourth suction opening (15 a) is arranged upwards.
9. 9. A three-dimensional post-printing treatment workstation (1) according to claim 7, characterized in that said fourth suction opening (15 a) is directed towards the upper side of said housing chamber (7).

Description

Three-dimensional post-treatment workstation that prints Technical Field The application relates to the field of three-dimensional printing, in particular to a three-dimensional printing post-processing workstation. Background Referring to fig. 1 and 2, as shown in fig. 1, in the prior art, a three-dimensional post-printing processing workstation 1 is used for post-processing a moving carriage 2 accommodating a printing material and a three-dimensional printing piece to take out the three-dimensional printing piece from the printing material and recover the printing material, and specifically, the moving carriage 2 has a carrying member which stretches in the up-down direction, a three-dimensional printing construction space is formed on the carrying member, and the three-dimensional printing piece and the printing material are accommodated in the construction space. The three-dimensional post-printing processing workstation 1 includes a workstation 3, a door body 4, a mask 5, and a recovery device 6. The work bench 3 is provided with a housing chamber 7 for housing the mobile carriage 2, and the upper surface of the work bench 3 is flush with or slightly higher than the upper surface of the mobile carriage 2. The accommodating cavity 7 is provided with a transfer port for moving the carriage 2 in or out, and the door body 4 is rotatably connected or slidably connected with the workbench 3 and is used for opening or closing the transfer port. The mask 5 is covered on the table 3, and an operation area 8 is formed between the mask 5 and the upper surface of the table 3. As shown in fig. 2, the recovery device 6 includes a recovery pipe 9, a recovery tank 10, and a suction pump 11 connected by piping. The suction pump 11 sucks the printing material in the moving carriage 2 from the recovery pipe 9 to the recovery tank 10 by forming negative pressure. When the three-dimensional printing post-treatment workstation 1 carries out post-treatment on the three-dimensional printing piece and the printing material accommodated in the construction space of the mobile printing vehicle 2, an operator stands outside the door body 4, holds the recovery pipe 9, sucks the printing material by utilizing the negative pressure in the recovery pipe 9, and enables the three-dimensional printing piece to be exposed and to be removed. When an operator holds the recovery tube 9 with one hand to suck away the printing material, the other hand is often required to grasp the printing material that may be agglomerated. Since the printing material is easily reduced from the agglomerated state to the powder state, it is very easy to fly in the operation area 8, causing great pollution to the working environment of the operator, and causing the operation condition of the operator to become bad. The operator must wear the mask to operate, otherwise dust lungs are easily formed due to long-term work, and irreversible damage is caused to the body. Disclosure of Invention The present application has been made to overcome the above-mentioned drawbacks or problems occurring in the prior art, and an object of the present application is to provide a three-dimensional post-printing processing workstation which enables the working environment and operating conditions of operators to be improved over the prior art. In order to achieve the above purpose, the following technical scheme is adopted: The first technical scheme relates to a three-dimensional printing post-treatment workstation which is used for carrying out post-treatment on a mobile printing vehicle containing printing materials and three-dimensional printing pieces so as to take out and recycle the printing materials from the printing materials, wherein the three-dimensional printing post-treatment workstation comprises a workbench, a door body and a recycling device, the workbench is provided with a containing cavity for containing the mobile printing vehicle, the containing cavity is provided with a transfer port for the mobile printing vehicle to move in or out, the door body is connected with the workbench and is used for opening or closing the transfer port, the recycling device comprises a recycling pipe, a recycling tank and a suction pump, the recycling pipe is connected with the recycling device through a pipeline, the suction pump sucks the printing materials in the mobile printing vehicle from the recycling pipe to the recycling tank through forming negative pressure, and the three-dimensional printing post-treatment workstation is characterized by further comprising a first recycling part fixedly connected with the door body and provided with a first suction port, the first suction port is opened at the upper end of the door body, and the suction pump is further used for recycling the printing materials sucked from the first suction port to the recycling tank through forming negative pressure. The second technical scheme is based on the first technical scheme, wherein the fir