CN216968725U - A rapid prototyping equipment for sculpture design - Google Patents

Abstract

The utility model discloses a rapid forming device for sculpture design, which comprises a box body, wherein a first fixed plate is fixedly connected with the inner wall of one side of the box body, a second fixed plate connected with the inner walls of two sides of the box body is arranged below the first fixed plate, the top of the second fixed plate is horizontally and slidably connected with a workbench penetrating through the first fixed plate, a powder extracting bin is arranged at the top of the back of the box body in a penetrating manner, a first rotating rod is arranged at one side of the powder extracting bin in a penetrating manner through a first sealing bearing, one end of the first rotating rod is connected with a first fan positioned in the powder extracting bin, a collecting cylinder is arranged below the powder extracting bin, pipelines are respectively arranged at the top of the collecting cylinder and the bottom of the powder extracting bin in a penetrating manner, a second rotating rod is arranged at the bottom of the collecting cylinder in a penetrating manner through a second sealing bearing, and the top end of the second rotating rod is connected with a second fan, the quality of the sculpture works is ensured.

Description

A rapid prototyping equipment for sculpture design

Technical Field

The utility model relates to the technical field of sculpture design, in particular to a rapid prototyping device for sculpture design.

Background

The sculpture is one of the modeling arts, which is an ornamental and monumental object with a certain profound meaning, symbol or image, and is carved and modeled for beautifying the environment of the city, scenic spot, village and town and other areas or for commemorative significance.

Laser sintering is a sculpturing technique frequently used in the sculpture design industry under the background of rapid development of science and technology, in the case of laser sintering, it is necessary to use a powdery statuary material, and since high temperature is generated in the case of laser sintering the powdery statuary material, it is necessary to lower the temperature of the equipment by a worker or the like, the sculpture is cooled and then can be taken out, but when the powder is laser-sintered, a large amount of gas is generated, the gas can drive some sintered and unsintered dust to float in the equipment, meanwhile, the laser can drive some dust to float during laser sintering, so that in the process of waiting for cooling the sculpture works, such dusts may drift to adhere to the statuary work, thereby causing a reduction in the quality of the statuary work, and for this reason, we propose a rapid prototyping apparatus for statuary design to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects of the prior art related to the background art and provides a rapid prototyping device for sculpture design.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a rapid prototyping equipment for sculpture design, the power distribution box comprises a box body, the first fixed plate of box one side inner wall fixedly connected with, first fixed plate below is equipped with the second fixed plate that is connected with box both sides inner wall, second fixed plate top is horizontal sliding connection and has a workstation that runs through first fixed plate, box back top is run through and is equipped with and takes out the powder storehouse, it runs through first sealed bearing and is equipped with first bull stick to take out powder storehouse one side, first bull stick one end is connected with and is located the first fan of taking out the powder storehouse, it is equipped with the surge drum to take out powder storehouse below, the surge drum top all runs through with to take out powder storehouse bottom and is equipped with the pipeline, the surge drum bottom runs through second sealed bearing and is equipped with the second bull stick, second bull stick top is connected with the second fan.

Preferably, the box back both sides all run through being equipped with the third bull stick through third sealed bearing, box back one side is close to the fixedly connected with mounting panel of the position department of one of them third bull stick, the mounting panel top is connected with the fourth bull stick through fourth sealed bearing.

Preferably, bevel gears meshed with each other are arranged at the middle position of one of the third rotating rods and at the top end of the fourth rotating rod, first driving wheels are sleeved at one ends of the third rotating rods and the first rotating rods, and a first belt is connected to the surfaces of the two first driving wheels.

Preferably, the bottom ends of the fourth rotating rod and the second rotating rod are respectively provided with a second driving wheel in a sleeved mode, and the surfaces of the two second driving wheels are connected with a second belt together.

Preferably, the third rotating rods are sleeved with third driving wheels at positions close to the box body, the surfaces of the two third driving wheels are connected with a third belt together, and one end of each third rotating rod is provided with a motor.

Preferably, two the third bull stick other end all is connected with and is used for driven half gear, the equal sliding connection in second fixed plate top both sides has the connecting rod, two the equal fixedly connected with in connecting rod top respectively with the ring gear that two half gear engagement are connected, the ring gear is close to workstation one side and is connected with the rubber gasket.

Preferably, the second fixed plate top is located the equal fixedly connected with riser in workstation both sides bottom, the workstation both sides all are connected with the a set of slide bar that runs through the riser respectively, the workstation both sides all are connected with the spring that is connected with the riser.

Compared with the prior art, the utility model has the beneficial effects that:

1. when the dust collector is used, floating dust is collected after sintering is finished, and the quality of sculptures is guaranteed.

2. When the dust removal device is used, the vibration device also has the function of vibrating the workbench, so that dust attached to the surface of a sculpture can be quickly cleaned in the sintering process, when one third rotating rod rotates, the other third rotating rod can be driven to rotate through a third driving wheel and a third belt, the two third rotating rods can drive the half gear to rotate, the half gear can drive the gear ring to horizontally reciprocate, the rubber gasket can be driven to vibrate the bottoms of the two sides of the workbench, meanwhile, due to the tension of the spring, the vibration amplitude of the workbench can be increased, the dust attached to the sculpture in the sintering process can be cleaned, and the forming speed of the sculpture is improved.

3. When the dust extraction device is used, the cost of an enterprise is reduced, the power resource is saved, when the motor is started, the two third rotating rods can be driven to rotate through the cooperation of the third transmission wheel and the third belt, when the two third rotating rods rotate, the half gear and the gear ring can be used for oscillating the workbench, meanwhile, the first rotating rod and the first fan can be driven to rotate through the first transmission wheel and the first belt, dust is further extracted into the dust extraction bin, then the second rotating rod and the second fan can be driven to rotate through the cooperation of the bevel gear, the second transmission wheel and the third transmission wheel, and further the dust in the dust extraction bin can be extracted into the collecting barrel along the pipeline, so that the cost of the enterprise is reduced, and the power resource is saved.

Drawings

Fig. 1 is a first perspective view illustrating an overall structure of a rapid prototyping apparatus for a sculpture design according to the present invention;

FIG. 2 is a schematic view of the internal structure of the case of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the connection structure between the half gear and the ring gear in FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the connection structure between the spring and the riser in FIG. 3 according to the present invention;

FIG. 5 is a schematic illustration showing a disassembled structure of the second rotating rod and the collecting barrel in FIG. 3 according to the present invention;

in the figure: 1. a box body; 2. a first fixing plate; 3. a second fixing plate; 4. a work table; 5. a powder pumping bin; 6. a first rotating lever; 7. a first fan; 8. a pipeline; 9. a collection canister; 10. a second rotating rod; 11. a second fan; 12. a third rotating rod; 13. mounting a plate; 14. a fourth rotating rod; 15. a bevel gear; 16. a first drive pulley; 17. a first belt; 18. a second transmission wheel; 19. a second belt; 20. a third transmission wheel; 21. a third belt; 22. a half gear; 23. a ring gear; 24. a slide bar; 25. a vertical plate; 26. a spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, a rapid prototyping device for sculpture design comprises a box body 1, a first fixing plate 2 is fixedly connected to the inner wall of one side of the box body 1, a second fixing plate 3 connected to the inner wall of the two sides of the box body 1 is arranged below the first fixing plate 2, a workbench 4 penetrating through the first fixing plate 2 is horizontally connected to the top of the second fixing plate 3 in a sliding manner, a powder pumping bin 5 is arranged at the top of the back of the box body 1 in a penetrating manner, a first rotating rod 6 is arranged at one side of the powder pumping bin 5 in a penetrating manner through a first sealing bearing, a first fan 7 positioned in the powder pumping bin 5 is connected to one end of the first rotating rod 6, a collecting cylinder 9 is arranged below the powder pumping bin 5, pipelines 8 are arranged at the top of the collecting cylinder 9 and the bottom of the powder pumping bin 5 in a penetrating manner, a second rotating rod 10 is arranged at the bottom of the collecting cylinder 9 in a penetrating manner through a second sealing bearing, a second fan 11 is connected to the top end of the second rotating rod 10, and a first driving wheel 16 at one end of the third rotating rod 12 can be driven to rotate when rotating, one first driving wheel 16 can drive the other first driving wheel 16 to rotate through a first belt 17, the other first driving wheel 16 can drive a first rotating rod 6 to rotate, the first rotating rod 6 can drive a first fan 7 to rotate so as to pump dust in the box body 1 into the powder pumping bin 5, at the moment, a third rotating rod 12 can drive two bevel gears 15 to rotate so as to drive a fourth rotating rod 14 to rotate, the fourth rotating rod 14 can drive a second driving wheel 18 at the bottom end of the fourth rotating rod to rotate, one second driving wheel 18 can drive the other second driving wheel 18 to rotate through a second belt 19, the other second driving wheel 18 can drive a second rotating rod 10 to rotate, the second rotating rod 10 can pump the dust pipeline 8 in the powder pumping bin 5 into the collecting cylinder 9 through the rotation of the second rotating rod 10, and then floating dust in the box body 1 can be collected, the quality of the sculpture works is ensured.

Referring to fig. 1-4, both sides of the back of the box body 1 are provided with third rotating rods 12 through third sealing bearings, a mounting plate 13 is fixedly connected to a position close to one of the third rotating rods 12 on one side of the back of the box body 1, the top of the mounting plate 13 is connected with a fourth rotating rod 14 through a fourth sealing bearing, when the third rotating rod 12 rotates, a bevel gear 15 connected with the third rotating rod can be driven to rotate, one bevel gear 15 rotates, another bevel gear 15 connected with the bevel gear can be driven to rotate, another bevel gear 15 rotates, a fourth rotating rod 14 connected with the fourth rotating rod can be driven to rotate, the second rotating rod 10 and the second fan 11 are driven to rotate through the cooperation of a second driving wheel 18 and a second belt 19, and then dust in the dust extraction bin 5 can be conveniently extracted into the collection cylinder 9.

Referring to fig. 1-5, bevel gears 15 meshed with each other are disposed at the middle position of one of the third rotating rods 12 and the top end of the fourth rotating rod 14, first driving wheels 16 are sleeved at one ends of the third rotating rod 12 and the first rotating rod 6, a first belt 17 is connected to the surfaces of the two first driving wheels 16, when the third rotating rod 12 rotates, the first driving wheel 16 at one end of the third rotating rod can be driven to rotate, one first driving wheel 16 can drive the other first driving wheel 16 to rotate through the first belt 17, the first rotating rod 6 and the first fan 7 can be driven to rotate by the first driving wheel 16 and the first belt 17, the interior of the box body 1 can be conveniently drawn out, and dust is prevented from falling on the surface of the sculpture after sintering.

Referring to fig. 1-3 and 5, the bottom ends of the fourth rotating rod 14 and the second rotating rod 10 are respectively provided with a second driving wheel 18 in a sleeved mode, the surfaces of the two second driving wheels 18 are connected with a second belt 19, when the fourth rotating rod 14 rotates, the second rotating rod 10 and the second fan 11 can be driven to rotate through the cooperation of the second driving wheels 18 and the second belts 19, the second fan 11 rotates, dust which is firstly sucked into the powder suction bin 5 can be sucked into the collecting barrel 9 along the pipeline 8, and it is guaranteed that the dust cannot be left in the powder suction bin 5 and sculpture works cannot be influenced.

Referring to fig. 1-3, the third driving wheels 20 are respectively sleeved at positions of the two third rotating rods 12 close to the box 1, the surfaces of the two third driving wheels 20 are connected with a third belt 21, one end of one third rotating rod 12 is provided with a motor, the motor is connected with an external controller, the motor is the prior art, details are not repeated herein, when one motor is started, the motor can drive the third rotating rod 12 connected with the motor to rotate, the other third rotating rod 12 can be driven to rotate through the cooperation of the third driving wheel 20 and the third belt 21, the two third rotating rods 12 can drive the gear ring 23 to oscillate the workbench 4 through the half gear 22, and meanwhile, the first fan 7 and the second fan 11 can be driven to rotate through the cooperation of the first driving wheel 16, the first belt 17 and the second driving wheel 18, and the second belt 19, so as to save power resources.

Referring to fig. 1-3, 5, two third bull sticks 12 other ends all are connected with and are used for driven half gear 22, the equal sliding connection in 3 top both sides of second fixed plate has the connecting rod, the equal fixedly connected with in two connecting rod tops respectively with the ring gear 23 of two half gear 22 meshing connections, two half gear 22's tooth opposite direction, be convenient for drive two ring gear 23 opposite direction, ring gear 23 is close to workstation 4 one side and is connected with the rubber gasket, can drive half gear 22 when two third bull sticks 12 rotate and rotate, two half gear 22 rotate and can drive two ring gear 23 opposite direction, and then be convenient for ring gear 23 drive the rubber gasket and vibrate bottom 4 both sides of workstation in turn, make sculpture work when the sintering adherent dust on the surface vibrate down, the fashioned speed of sculpture work has been improved.

Refer to fig. 2, 4, 3 tops of second fixed plate are located the equal fixedly connected with riser 25 in 4 both sides bottoms of workstation, 4 both sides of workstation all are connected with a set of slide bar 24 that run through riser 25 respectively, 4 both sides of workstation all are connected with the spring 26 that is connected with riser 25, can drive the rubber packing and vibrate 4 both sides bottoms of workstation in turn when two ring gears 23 remove, 4 bottoms of workstation and 3 sliding connection of second fixed plate this moment, workstation 4 receives to vibrate can tear spring 26 this moment, spring 26 is owing to itself has tension, make the vibration range that workstation 4 received can increase, and then the dust attached to sculpture surface when more complete will sinter vibrates and gets off, the shaping speed of sculpture has been improved.

In the utility model, when sintering is finished, a motor is started to drive a third rotating rod 12 to rotate, when the third rotating rod 12 rotates, a first driving wheel 16 at one end of the third rotating rod can be driven to rotate, one first driving wheel 16 can drive the other first driving wheel 16 to rotate through a first belt 17, the other first driving wheel 16 can drive a first rotating rod 6 to rotate, the first rotating rod 6 can drive a first fan 7 to rotate so as to pump dust in a box body 1 into a dust pumping bin 5, at the moment, the third rotating rod 12 rotates so as to drive two bevel gears 15 to rotate so as to drive a fourth rotating rod 14 to rotate, the fourth rotating rod 14 rotates so as to drive a second driving wheel 18 at the bottom end of the fourth rotating rod to rotate, one second driving wheel 18 rotates so as to drive the other second driving wheel 18 to rotate through a second belt 19, and the other second driving wheel 18 can drive the second rotating rod 10 to rotate, second bull stick 10 rotates and can take out the inside of collecting barrel 9 along pipeline 8 with the inside dust in powder storehouse 5, simultaneously, can drive half gear 22 when two third bull sticks 12 rotate and rotate, two half gear 22 rotations can drive two ring gear 23 opposite displacement, and then the ring gear 23 of being convenient for drives the rubber gasket and vibrates 4 both sides bottoms in turn to the workstation for the sculpture is vibrate when the sintering adnexed dust on the surface.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (7)

1. A rapid prototyping device for sculpture design, includes box (1), its characterized in that, box (1) one side inner wall fixedly connected with first fixed plate (2), first fixed plate (2) below is equipped with second fixed plate (3) that is connected with box (1) both sides inner wall, second fixed plate (3) top is horizontal sliding connection and has a workstation (4) that runs through first fixed plate (2), box (1) back top runs through and is equipped with takes out powder storehouse (5), take out powder storehouse (5) one side and run through first sealed bearing and be equipped with first bull stick (6), first bull stick (6) one end is connected with first fan (7) that are located take out powder storehouse (5), take out powder storehouse (5) below and be equipped with collecting vessel (9), collecting vessel (9) top and take out powder storehouse (5) bottom all run through and be equipped with pipeline (8), the bottom of the collecting cylinder (9) is provided with a second rotating rod (10) through a second sealing bearing, and the top end of the second rotating rod (10) is connected with a second fan (11).

2. The rapid prototyping apparatus for sculpture design according to claim 1, wherein third rotating rods (12) are respectively arranged on two sides of the back of the box body (1) through third sealed bearings, a mounting plate (13) is fixedly connected to one side of the back of the box body (1) at a position close to one of the third rotating rods (12), and a fourth rotating rod (14) is connected to the top of the mounting plate (13) through a fourth sealed bearing.

3. The rapid prototyping apparatus for sculpture design according to claim 2, wherein a bevel gear (15) meshed with each other is arranged at the middle position of one of the third rotating rod (12) and the top end of the fourth rotating rod (14), a first driving wheel (16) is sleeved at one end of each of the third rotating rod (12) and the first rotating rod (6), and a first belt (17) is connected to the surfaces of the two first driving wheels (16).

4. A rapid prototyping apparatus as claimed in claim 3 wherein said fourth rotating bar (14) and the bottom end of said second rotating bar (10) are sleeved with second transmission wheels (18), and a second belt (19) is connected to the surface of each of said second transmission wheels (18).

5. The rapid prototyping apparatus for sculpture design according to claim 4, wherein a third transmission wheel (20) is sleeved on each of two third rotating bars (12) near the box body (1), a third belt (21) is connected to the surfaces of the two third transmission wheels (20), and one end of one third rotating bar (12) is provided with a motor.

6. The rapid prototyping apparatus for sculpture design according to claim 5, wherein the other ends of the two third rotating rods (12) are connected with a half gear (22) for transmission, the two sides of the top of the second fixing plate (3) are slidably connected with connecting rods, the top ends of the two connecting rods are fixedly connected with gear rings (23) respectively engaged with the two half gears (22), and one side of the gear rings (23) close to the workbench (4) is connected with a rubber gasket.

7. A rapid prototyping apparatus as claimed in claim 1 wherein the second fixing plate (3) is fixed with a riser (25) at the top of the table (4) at the bottom of both sides thereof, a set of sliding rods (24) respectively penetrating through the riser (25) are connected to both sides of the table (4), and a spring (26) connected with the riser (25) is connected to both sides of the table (4).

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