CN216885246U - Portable 3D printer sand removal gets a device - Google Patents

Abstract

The utility model discloses a portable 3D printer sand removal and piece taking device which comprises a support frame and an auxiliary sand removal device, wherein the auxiliary sand removal device is arranged, namely, under the coordination of a fan, a guide pipe, a compressor and an air injection frame, wind power blowing cleaning can be realized, under the operation of a reciprocating assembly on the right side inside a shell, the air injection frame can be driven to reciprocate and swing to blow, the cleaning range and efficiency are improved, so that the auxiliary cleaning of a product is realized, and the fine sand cleaning efficiency of the outer surface of the product is improved.

Description

Portable 3D printer sand removal gets a device

Technical Field

The utility model particularly relates to a portable 3D printer sand removal and pickup device, and relates to the relevant field of 3D printers.

Background

The 3D printer is also called a three-dimensional printer, is an accumulative manufacturing technology, namely a machine of a rapid prototyping technology, and is a technology which is based on a digital model file, applies a special adhesive material such as wax, powdered metal or plastic and the like, manufactures a three-dimensional object by printing a layer of adhesive material, the three-dimensional printer is used for manufacturing products at the present stage, and constructs the object in a layer-by-layer printing mode.

At present when carrying out the use that 3D printer sand removal got a device, often through the vibration, realize the clearance of product surface adhesion fine sand, and the fine sand of product surface is difficult to fully clear up along with the vibration, and then leads to follow-up still need vibrate the clearance once more to during the vibration clearance, the fine sand still scatters everywhere easily, leads to outside operational environment to receive the pollution.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above disadvantages, the present invention provides a portable 3D printer sand-removing and workpiece-taking device.

The utility model is realized in such a way that a portable 3D printer sand removal and piece taking device is constructed, the device comprises a support frame and an auxiliary sand removal device, buffer springs are arranged at the upper ends of the left side and the right side of the support frame, the auxiliary sand removal device is arranged in the middle of the upper end of a vibrating screen disc, the auxiliary sand removal device comprises a shell, a fan, a guide pipe, a compressor, an air injection frame, a reciprocating assembly and a dust collection assembly, the shell is fixedly connected with the middle of the upper end of the vibrating screen disc, the fan is arranged at the upper end inside the shell, the upper end of the guide pipe is connected with the shell, the lower end of the guide pipe is connected with the compressor, the front side and the rear side of the compressor are rotatably connected with the shell, the air injection frame is arranged at the lower end of the compressor, the reciprocating assembly is arranged on the right side inside the shell, and the dust collection assembly is arranged on the left side and the right side of the shell.

Preferably, reciprocal subassembly includes motor, carousel, gyro wheel, connecting rod and pressure spring, the motor sets up in the inside right side of shell to the motor front side is connected with the carousel, the gyro wheel is installed on the inside right side of carousel, and the gyro wheel front side rotates with the connecting rod to be connected, connecting rod left side and compressor sliding connection to connecting rod left side surface is provided with the pressure spring.

Preferably, the dust collection assembly comprises a dust collection shell, an air blower, a dust collection box, an inner pipe, a dust collection pipe and a spring, the dust collection shell is arranged on the left side and the right side of the shell, the air blower is installed at the upper end inside the dust collection shell, the lower end of the air blower is connected with the dust collection box in an inserting mode, the dust collection box is connected with the middle end inside the dust collection shell, the upper end of the inner pipe is attached to the dust collection box, the lower end of the inner pipe is connected with the dust collection pipe in a sliding inserting mode, the left side and the right side of the middle of the inner pipe are provided with the spring, and the spring is connected with the upper end inside the dust collection pipe.

Preferably, the buffer spring upper end is connected with the fixed block to fixed block and shale shaker dish left and right sides fixed connection, both sides middle part all is provided with vibrating motor around the shale shaker dish to shale shaker dish internally mounted has the sieve, the discharge gate has been seted up to the inside lower extreme of shale shaker dish.

Preferably, carousel front side middle part is concave down form to the carousel inner wall is smooth not have the barb.

Preferably, anti-slip lines are arranged on the outer side of the roller, and the roller is attached to the inner wall of the right side of the rotary table.

Preferably, the dust collection shell, the blower, the dust collection box, the inner pipe, the dust collection pipe and the spring are symmetrically arranged along the left and right sides of the shell, and the dust collection box is in sliding insertion connection with the middle end inside the dust collection shell.

Preferably, the inner pipe is in sliding insertion connection with a groove at the lower end of the dust collection box, and the left side and the right side of the inner pipe are oppositely provided with two springs.

Preferably, the inner pipe is made of stainless steel.

Preferably, the spring is made of piano wire materials.

The utility model has the following advantages: the utility model provides a portable 3D printer sand removal and piece taking device through improvement, and compared with the same type of equipment, the portable 3D printer sand removal and piece taking device has the following improvement:

the method has the advantages that: according to the portable 3D printer sand removal and piece taking device, the auxiliary sand removal device is arranged, namely, under the matching of the fan, the guide pipe, the compressor and the air injection frame, wind power blowing cleaning can be realized, and under the operation of the reciprocating assembly on the right side inside the shell, the air injection frame can be driven to reciprocate and swing to blow, so that the cleaning range and efficiency are improved, and the advantages of auxiliary cleaning of products and improvement of the cleaning efficiency of fine sand on the outer surface of the products are achieved.

The method has the advantages that: according to the portable 3D printer sand removal and piece taking device, the dust collection assemblies are arranged on the left side and the right side of the shell, fine sand can be adsorbed and collected under the matching of the air blower, the dust collection box and the dust collection pipe, and the connection sealing of the inner pipe and the dust collection box can be improved under the matching of the springs on the left side and the right side of the inner pipe, so that the advantages of adsorbing and collecting fine sand floating and avoiding environmental pollution are achieved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the front view internal structure of the present invention;

FIG. 3 is a schematic view of the front internal structure of the auxiliary sand removing device of the present invention;

FIG. 4 is a schematic elevational view of the shuttle assembly of the present invention;

FIG. 5 is a perspective view of the shuttle assembly of the present invention;

FIG. 6 is a front view of the internal structure of the vacuum assembly of the present invention;

figure 7 is a schematic perspective view of a portion of the suction assembly of the present invention.

Wherein: the device comprises a support frame-1, a buffer spring-2, a fixed block-3, a vibrating screen disc-4, a vibrating motor-5, a screen plate-6, a discharge hole-7, an auxiliary sand cleaning device-8, a shell-81, a fan-82, a conduit-83, a compressor-84, an air injection frame-85, a reciprocating assembly-86, a dust collection assembly-87, a motor-861, a rotary disc-862, a roller-863, a connecting rod-864, a pressure spring-865, a dust collection shell-871, a blower-872, a dust collection box-873, an inner tube-874, a dust collection tube-875 and a spring-876.

Detailed Description

The present invention will be described in detail below with reference to fig. 1 to 7, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 and 2, the utility model provides a portable 3D printer sand removal and part taking device through improvement, which comprises a support frame 1 and an auxiliary sand removal device 8, wherein buffer springs 2 are arranged at the upper ends of the left side and the right side of the support frame 1, the upper ends of the buffer springs 2 are connected with fixed blocks 3, the fixed blocks 3 are fixedly connected with the left side and the right side of a vibrating screen disc 4, vibrating motors 5 are arranged in the middle parts of the front side and the rear side of the vibrating screen disc 4, a screen plate 6 is arranged in the vibrating screen disc 4, and a discharge hole 7 is formed in the lower end of the vibrating screen disc 4.

Referring to fig. 3, the utility model provides a portable 3D printer sand removal and removal device by improvement, an auxiliary sand removal device 8 is arranged in the middle of the upper end of a vibrating screen tray 4, the auxiliary sand removal device 8 comprises a housing 81, a fan 82, a conduit 83, a compressor 84, an air injection frame 85, a reciprocating assembly 86 and a dust collection assembly 87, the housing 81 is fixedly connected with the middle of the upper end of the vibrating screen tray 4, the fan 82 is arranged at the upper end inside the housing 81, so that the housing 81 is firmly installed with internal parts, the upper end of the conduit 83 is connected with the housing 81, the lower end of the conduit 83 is connected with the compressor 84, the front side and the rear side of the compressor 84 are rotatably connected with the housing 81, the lower end of the compressor 84 is provided with the air injection frame 85, so that the compressor 84 is matched with the air injection frame 85 to improve the wind power cleaning effect, the reciprocating assembly 86 is arranged at the right side inside the housing 81, so that the reciprocating assembly 86 realizes reciprocating cleaning of the air injection frame 85, the dust suction assemblies 87 are arranged on the left side and the right side of the shell 81, so that the flying fine sand is adsorbed and collected through the dust suction assemblies 87.

Referring to fig. 4 and 5, the utility model provides a portable 3D printer sand removal device by improvement, wherein the reciprocating assembly 86 includes a motor 861, a turntable 862, rollers 863, a connecting rod 864 and a pressure spring 865, the motor 861 is disposed at the right side inside the housing 81, the front side of the motor 861 is connected to the turntable 862, the rollers 863 are mounted at the right side inside the turntable 862, the front side of the rollers 863 is rotatably connected to the connecting rod 864, so that the turntable 862 and the rollers 863 realize stable sliding transmission, the left side of the connecting rod 864 is slidably connected to the compressor 84, the pressure spring 865 is disposed on the outer surface of the left side of the connecting rod 864, so that the pressure spring 865 realizes elastic resilience, the middle part of the front side of the turntable 862 is recessed, the inner wall of the turntable 862 is smooth and has no barbs, so that the turntable 862 realizes smooth rotation driving activity, the outer side of the rollers 863 is provided with anti-slip patterns, and the rollers 863 are attached to the inner wall of the right side of the turntable 862, so that the roller 863 is stably jointed with the turntable 862.

Referring to fig. 6 and 7, the utility model provides a portable 3D printer sand removal device by improvement, a dust collection assembly 87 includes a dust collection shell 871, a blower 872, a dust collection box 873, an inner tube 874, a dust collection pipe 875 and a spring 876, the dust collection shell 871 is disposed at the left and right sides of a housing 81, the blower 872 is mounted at the upper end inside the dust collection shell 871 to ensure that the dust collection shell 871 realizes safety protection of internal parts, the lower end of the blower 872 is inserted into the dust collection box 873, the dust collection box 873 is connected with the middle end inside the dust collection shell 871 to ensure that the dust collection box 873 realizes quick dust collection, the upper end of the inner tube 874 is attached to the dust collection box 873, the lower end of the inner tube 874 is inserted into the dust collection pipe 875 in a sliding manner, so that the inner tube 874 is smoothly connected with the dust collection pipe 875, the left and right sides of the middle of the inner tube 874 are provided with springs 876, and the springs 876 are connected with the upper end inside the dust collection pipe 875 to ensure that the springs 876 realize elastic reinforcement activity, dust absorption shell 871, air-blower 872, dust collection box 873, inner tube 874, dust absorption pipe 875 and spring 876 all follow shell 81 left and right symmetry setting, and dust collection box 873 and the inside middle-end slip grafting of dust absorption shell 871, make dust collection box 873 realize the swift collection of the fine sand that flies apart, inner tube 874 and dust collection box 873 lower extreme recess slip grafting, and the inner tube 874 left and right sides is provided with two springs 876 relatively, make inner tube 874 improve firm with the laminating of dust collection box 873, inner tube 874 adopts stainless steel to make, spring 876 adopts the musical instrument steel wire material to make.

The utility model provides a portable 3D printer sand removal and piece taking device through improvement, which operates as follows;

firstly, when the 3D printer sand cleaning and taking device is required to be used, vibration of the vibrating screen disc 4 is realized by operating the vibrating motors 5 arranged in the middle of the front side and the rear side of the vibrating screen disc 4, the left side and the right side of the vibrating screen disc 4 are provided with the fixed blocks 3 matched with the buffer springs 2, the vibrating screen disc 4 can realize stable shaking activity, when a product attached with fine sand is placed on the sieve plate 6 arranged at the upper end inside the vibrating screen disc 4, the fine sand can be attached to the outer surface of the product to realize shaking movement under the vibration of the vibrating screen disc 4, the fine sand can pass through the sieve plate 6, the discharge port 7 arranged at the lower end of the right side inside the vibrating screen disc 4 is used for discharging and recycling, the product subjected to vibration sand cleaning can realize quick discharging movement along the right side of the sieve plate 6, and accordingly quick vibration cleaning of the product attached with fine sand can be realized;

secondly, when the 3D printer sand removal and piece taking device is used, cleaning of fine sand attached to the outer surface of a product is often realized through vibration, the fine sand on the outer surface of the product is not easy to be cleaned fully along with the vibration, so that subsequent vibration cleaning is required again, and the fine sand is easy to scatter around during vibration cleaning, so that the external working environment is polluted;

thirdly, the auxiliary sand cleaning device 8 is arranged in the middle of the upper end of the vibrating screen disc 4, namely, the fan 82 arranged at the upper end in the shell 81 is operated to realize the adsorption of external air, the air can enter the compressor 84 along the guide pipe 83 to perform air compression movement, the compressed air can be sprayed out along the air spraying frame 85 connected with the lower end of the compressor 84 to perform auxiliary cleaning and sand cleaning movement on the product subjected to vibrating and sand cleaning on the screen plate 6, so that the fine sand on the outer surface of the product can be fully cleaned, and in order to ensure the full cleaning of wind power sand, the reciprocating assembly 86 arranged at the right side in the shell 81 can be used for driving the air spraying frame to perform reciprocating swinging and air spraying cleaning, namely, the motor 861 arranged by operating the reciprocating assembly 86 can drive the rotary disc 862 connected with the front side to rotate along with the rotary disc 862 and be attached to the roller 863 at the right side in the rotary disc 862, the front side connecting rod 864 can be rotated and driven to move left, the connecting rod 864 moves left to push the compressor 84 to swing left to realize blowing and cleaning left, when the turntable 862 resets, the connecting rod 864 can pull the compressor 84 right under the elastic matching of the pressure spring 865 on the outer surface of the left side of the connecting rod 864, so as to realize blowing and cleaning right of the air injection frame 85, and by reciprocating in this way, the wind power cleaning range and efficiency can be improved, thereby achieving the advantages of auxiliary cleaning of products and improving the fine sand cleaning efficiency of the outer surface of the products;

fourthly, in order to adsorb and collect the scattered fine sand, the dust collection assembly 87 is arranged on the left side and the right side of the shell 81, namely the air blower 872 arranged by the dust collection assembly 87 is operated to enable the air blower 872 to realize wind power adsorption activity, and then the scattered fine sand can enter the dust collection box 873 along the dust collection pipe 875, when the fine sand in the dust collection box 873 needs to be treated, the dust collection box 873 can be directly pulled out, when the dust collection box 873 is installed again, the inner pipe 874 is slidably inserted in the upper end of the dust collection pipe 875, and under the elastic force fit of springs 876 on the left side and the right side, the inner pipe can be tightly attached to the bottom of the dust collection box 873, the sealing of the subsequent fine sand adsorption and collection is ensured, so that the advantages of adsorbing and collecting the scattered fine sand and avoiding the environment pollution are achieved.

The utility model provides a portable 3D printer sand removal and taking device through improvement, an auxiliary sand removal device 8 is arranged, namely, under the matching of a fan 82, a guide pipe 83, a compressor 84 and an air injection frame 85, wind power blowing cleaning can be realized, under the operation of a right reciprocating assembly 86 inside a shell 81, the air injection frame 85 can be driven to reciprocate and swing to blow, the cleaning range and efficiency are improved, the auxiliary cleaning of products is realized, the fine sand cleaning efficiency of the outer surface of the products is improved, dust collection assemblies 87 are arranged on the left and right sides of the shell 81, under the matching of a blower 872 and a dust collection box 873 and a dust collection pipe 875, fine sand adsorption collection can be realized, under the matching of springs 876 on the left and right sides of an inner pipe 874, the connection and sealing of the inner pipe 876 and the dust collection box 873 can be improved, the fine sand adsorption and collection of scattered fine sand can be realized, and the advantage of avoiding environmental pollution can be realized.

Claims (8)

1. A portable 3D printer sand removal and piece taking device comprises a support frame (1), wherein buffer springs (2) are arranged at the upper ends of the left side and the right side of the support frame (1);

the method is characterized in that: also comprises an auxiliary sand removing device (8), the auxiliary sand removing device (8) is arranged in the middle of the upper end of the vibrating screen disc (4), the auxiliary sand removing device (8) comprises a shell (81), a fan (82), a guide pipe (83), a compressor (84), an air injection frame (85), a reciprocating assembly (86) and a dust collection assembly (87), the shell (81) is fixedly connected with the middle part of the upper end of the vibrating screen tray (4), and the upper end in the shell (81) is provided with a fan (82), the upper end of the conduit (83) is connected with the shell (81), the lower end of the conduit (83) is connected with a compressor (84), the front side and the rear side of the compressor (84) are rotationally connected with the shell (81), and the lower end of the compressor (84) is provided with an air injection frame (85), the reciprocating assembly (86) is arranged on the right side inside the shell (81), and the dust collection assembly (87) is arranged on the left side and the right side of the shell (81).

2. The portable 3D printer sand removal and piece removal device of claim 1, characterized in that: reciprocating assembly (86) include motor (861), carousel (862), gyro wheel (863), connecting rod (864) and pressure spring (865), motor (861) sets up in shell (81) inside right side to motor (861) front side is connected with carousel (862), gyro wheel (863) are installed to carousel (862) inside right side, and gyro wheel (863) front side and connecting rod (864) rotate to be connected, connecting rod (864) left side and compressor (84) sliding connection, and connecting rod (864) left side surface is provided with pressure spring (865).

3. The portable 3D printer sand removal and piece removal device of claim 1, characterized in that: dust absorption subassembly (87) include dust absorption shell (871), air-blower (872), dust collection box (873), inner tube (874), dust absorption pipe (875) and spring (876), dust absorption shell (871) set up in shell (81) left and right sides to air-blower (872) are installed to the inside upper end of dust absorption shell (871), air-blower (872) lower extreme is pegged graft mutually with dust collection box (873), and dust collection box (873) are connected with the inside middle-end of dust absorption shell (871), inner tube (874) upper end is laminated with dust collection box (873) mutually, and inner tube (874) lower extreme and dust absorption pipe (875) slip grafting, inner tube (874) middle part left and right sides all is provided with spring (876) to spring (876) are connected with the inside upper end of dust absorption pipe (875).

4. The portable 3D printer sand removal and piece removal device of claim 1, characterized in that: buffer spring (2) upper end is connected with fixed block (3) to fixed block (3) and shale shaker dish (4) left and right sides fixed connection, both sides middle part all is provided with vibrating motor (5) around shale shaker dish (4) to shale shaker dish (4) internally mounted has sieve (6), discharge gate (7) have been seted up to inside lower extreme of shale shaker dish (4).

5. The portable 3D printer sand removal and piece removal device of claim 2, characterized in that: the middle part of the front side of the rotary table (862) is concave, and the inner wall of the rotary table (862) is smooth and has no barbs.

6. The portable 3D printer sand removal and piece removal device of claim 2, characterized in that: anti-skidding lines are arranged on the outer side of the roller (863), and the roller (863) is attached to the inner wall of the right side of the turntable (862).

7. The portable 3D printer sand removal and piece removal device of claim 3, characterized in that: dust absorption shell (871), air-blower (872), dust collection box (873), inner tube (874), dust absorption pipe (875) and spring (876) all set up along shell (81) left and right symmetry to dust collection box (873) and the inside middle-end slip grafting of dust absorption shell (871).

8. The portable 3D printer sand removal and piece removal device of claim 3, characterized in that: the inner pipe (874) is in sliding insertion connection with a groove at the lower end of the dust collection box (873), and two springs (876) are oppositely arranged at the left side and the right side of the inner pipe (874).

Images