CN211965021U - Vertical high-efficient selection powder machine - Google Patents

Abstract

The utility model discloses a vertical high-efficient selection powder machine, which comprises a bracket, be provided with the casing on the support, the feed inlet has been seted up to the casing bottom, be provided with suction means in the casing, the welding of casing up end has the pipeline, the air outlet has been seted up to pipeline top one side, be provided with wind power mechanism in the air outlet, the pipeline is kept away from wind power mechanism one end bottom is provided with middlings discharging pipe, well powder discharging pipe, farine discharging pipe, the middlings discharging pipe with be provided with screening mechanism on the farine discharging pipe, the middlings discharging pipe well powder discharging pipe with the discharge gate has all been seted up to farine discharging pipe below. The utility model discloses absorb the powder earlier through suction means, rethread wind-force mechanism blows in the powder to screening mechanism on middlings discharging pipe, well powder discharging pipe and the fine powder discharging pipe, finally discharges the middlings from the middlings discharging pipe respectively through screening mechanism, and well powder and fine powder are with the reason with the middlings.

Description

Vertical high-efficient selection powder machine

Technical Field

The utility model relates to a components of a whole that can function independently material is selected separately field, in particular to vertical high-efficient selection powder machine.

Background

In the processing of building materials, metallurgy and chemical industry, large materials are usually ground and then sorted by a powder concentrator, fine powder meeting the standard is processed into finished products, and coarse materials not meeting the standard are ground again and then sorted. However, when the existing powder concentrator is used for separating coarse powder, the separation is not thorough, and a large amount of fine powder and the coarse powder are mixed together, so that the workload of the next grinding step is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a vertical high-efficient selection powder machine has the thorough advantage of thickness powder separation.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the utility model provides a vertical high-efficient selection powder machine, includes the support, be provided with the casing on the support, the casing is worn to establish the support, just the feed inlet has been seted up to the casing bottom, be provided with suction means in the casing, the welding of casing up end has the pipeline, the air outlet has been seted up to pipeline top one side, be provided with wind power mechanism in the air outlet, the pipeline is kept away from wind power mechanism one end bottom is provided with middlings discharging pipe, well powder discharging pipe, farine discharging pipe, the middlings discharging pipe with all be provided with screening mechanism on the farine discharging pipe, the middlings discharging pipe well powder discharging pipe with the discharge gate has all been seted up to farine discharging pipe below.

By adopting the technical scheme, an operator starts the suction mechanism firstly, the suction mechanism sucks the powder to the upper part, then the wind power mechanism is started, the wind power mechanism blows the powder into the screening mechanisms on the coarse powder discharge pipe, the medium powder discharge pipe and the fine powder discharge pipe, the coarse powder is discharged from the discharge port in the coarse powder discharge pipe through the screening mechanism finally, the medium powder is also discharged from the discharge port in the medium powder discharge pipe, and finally the fine powder is discharged from the discharge port of the fine powder discharge pipe.

As preferred, suction means includes the motor, the welding of pipeline up end has the protective housing, the motor is located inside the protective housing, and be fixed connection with protective housing upper end inner wall, the welding has the pivot on the output shaft of motor, the pivot is kept away from motor one end welding has the impeller, the impeller is provided with the fan housing outward, the fan housing is located inside the protective housing, the welding of fan housing below has the inlet pipe, just the inlet pipe is worn to establish the casing.

By adopting the technical scheme, the protective housing plays a role in protecting the motor and the fan housing respectively, when the motor is started, the output shaft of the motor rotates to drive the rotating shaft to rotate, the rotating shaft rotates to drive the impeller to rotate, the impeller rotates to discharge air in the feeding pipe rapidly, and the fan housing plays a role in protecting the impeller. When the air is discharged to the outside, both the outside air and the powder are blown into the feed pipe.

Preferably, wind power mechanism includes the fan, the fan is located inside the air outlet, and be fixed connection with the air outlet, the fan is kept away from air outlet one side is provided with tuber pipe one, tuber pipe one is worn to establish inlet pipe one end, the inlet pipe other end is provided with tuber pipe two, just tuber pipe one with tuber pipe bisymmetry.

By adopting the technical scheme, when the fan is started, the air blown out by the fan enters the first air pipe, and the powder in the feeding pipe is blown into the second air pipe by the air in the first air pipe.

As preferred, screening mechanism includes filter screen one and filter screen two, filter screen one with filter screen two is located inside tuber pipe two, the welding of middlings discharging pipe up end has discharge pipe one, discharge pipe one is worn to establish middlings discharging pipe upper end, and with the inside being linked together of middlings discharging pipe, discharge pipe one bit with filter screen one side, well powder discharging pipe up end welding has discharge pipe two, discharge pipe two is worn to establish the fine powder discharging pipe upper end, and with the fine powder discharging pipe is inside to be linked together, discharge pipe two is located filter screen two one side, fine powder discharging pipe up end welding has discharge pipe three, discharge pipe one discharge pipe two with discharge pipe three is all worn to establish two lower extremes of tuber pipe, and is linked together with two insides of tuber pipe.

Adopt above-mentioned technical scheme, when the well powder in the tuber pipe two and fine powder reached filter screen two through filter screen one, the middlings was stayed on filter screen one, and when the middlings slowly accumulated, the middlings fell into discharge pipe one in, and the middlings in the discharge pipe one was discharged through the middlings discharging pipe. The fine powder reaches the bottom of the second air pipe through the second filter screen, the medium powder is left on the second filter screen, and when the medium powder slowly increases, the medium powder falls into the second discharge pipe and is discharged through the medium powder discharge pipe immediately after the medium powder in the second discharge pipe. When the fine powder at the bottom of the air pipe II slowly increases, the fine powder falls into the third discharge pipe, and finally the fine powder in the third discharge pipe is discharged through the fine powder discharge pipe.

Preferably, collecting boxes are arranged below the coarse powder discharging pipe, the medium powder discharging pipe and the fine powder discharging pipe, four universal wheels are welded on the lower end faces of the three collecting boxes, and handles are welded on one sides of the three collecting boxes.

By adopting the technical scheme, the three collecting boxes respectively collect coarse powder, medium powder and fine powder, when the coarse powder, the medium powder and the fine powder in the three collecting boxes reach a certain amount, an operator can push the collecting boxes only by using handles, then the collecting boxes are transported to the next step, and the four universal wheels play a role in transportation.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment;

FIG. 2 is a sectional view of the embodiment;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is an enlarged view of portion B of FIG. 2;

fig. 5 is an enlarged view of the portion C of fig. 4.

Reference numerals: 1. a support; 2. a housing; 3. a pipeline; 4. a protective shell; 5. a coarse powder discharging pipe; 6. a medium powder discharge pipe; 7. a fine powder discharge pipe; 8. a collection box; 9. a universal wheel; 10. a handle; 11. a suction mechanism; 111. a feed pipe; 112. a motor; 113. a rotating shaft; 114. an impeller; 115. a fan housing; 12. a fan mechanism; 121. a fan; 122. a first air pipe; 123. a second air duct; 13. a screening mechanism; 131. a first discharge pipe; 132. a second discharge pipe; 133. a third discharge pipe; 134. a first filter screen; 135. and a second filter screen.

Detailed Description

The following is only the preferred embodiment of the present invention, the protection scope is not limited to this embodiment, and all technical solutions belonging to the idea of the present invention should belong to the protection scope of the present invention. It should also be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and such modifications and decorations should also be regarded as the protection scope of the present invention.

The utility model provides a vertical high-efficient selection powder machine, see fig. 1 to 5, including support 1, be provided with casing 2 on the support 1, support 1 is worn to establish by casing 2, and the feed inlet has been seted up to casing 2 bottom, the welding of casing 2 up end has pipeline 3, be provided with suction means 11 in the casing 2, suction means 11 includes motor 112, the welding of pipeline 3 up end has protective housing 4, motor 112 is located inside protective housing 4, and is fixed connection with protective housing 4 upper end inner wall, protective housing 4 has played the effect of protection motor 112. The output shaft of the motor 112 is welded with a rotating shaft 113, when the motor 112 is started, the output shaft of the motor 112 rotates to drive the rotating shaft 113 to rotate, one end of the rotating shaft 113, which is far away from the motor 112, is welded with an impeller 114, the rotating shaft 113 rotates to drive the impeller 114 to rotate, the impeller 114 rotates to rapidly discharge air in the feeding pipe 111, a fan cover 115 is arranged outside the impeller 114, and the fan cover 115 plays a role in protecting the impeller 114. The fan housing 115 is located inside the protective housing 4, the protective housing 4 also plays a role in protecting the fan housing 115, the feeding pipe 111 is welded below the fan housing 115, and the feeding pipe 111 penetrates through the housing 2. When the air is discharged to the outside, both the outside air and the powder are gushed into the feed pipe 111.

The air outlet has been seted up to 3 top one sides of pipeline, be provided with wind power mechanism in the air outlet, wind power mechanism includes fan 121, fan 121 is located inside the air outlet, and be fixed connection with the air outlet, when fan 121 of air outlet starts, fan 121 keeps away from air outlet one side and is provided with tuber pipe 122, the wind that fan 121 blew off gets into tuber pipe 122, inlet pipe 111 one end is worn to establish by tuber pipe 122, the inlet pipe 111 other end is provided with tuber pipe two 123, and tuber pipe 122 is symmetrical with tuber pipe two 123, the wind in the tuber pipe 122 blows in the powder of inlet pipe 111 into inside tuber pipe two 123.

A coarse powder discharging pipe 5, a medium powder discharging pipe 6 and a fine powder discharging pipe 7 are arranged at the bottom of one end of the pipeline 3, which is far away from the fan 121, a screening mechanism 13 is arranged on each of the coarse powder discharging pipe 5, the medium powder discharging pipe 6 and the fine powder discharging pipe 7, the screening mechanism 13 comprises a first filtering net 134 and a second filtering net 135, the first filtering net 134 and the second filtering net 135 are positioned inside a second air pipe 123, a first discharging pipe 131 is welded on the upper end surface of the coarse powder discharging pipe 5, the first discharging pipe 131 penetrates through the upper end of the coarse powder discharging pipe 5 and is communicated with the inside of the coarse powder discharging pipe 5, the first discharging pipe 131 is positioned on one side of the first filtering net 134, a second discharging pipe 132 is welded on the upper end surface of the medium powder discharging pipe 6, the second discharging pipe 132 penetrates through the upper end of the fine powder discharging pipe 7 and is communicated with the inside of the fine powder discharging pipe, and is communicated with the inside of the second air duct 123.

When the medium powder and the fine powder in the second air pipe 123 reach the second filter screen 135 through the first filter screen 134, the coarse powder is remained on the first filter screen 134, then when the coarse powder is slowly accumulated, the coarse powder falls into the first discharge pipe 131, and the coarse powder in the first discharge pipe 131 is discharged through the coarse powder discharge pipe 5. The fine powder reaches the bottom of the second air pipe 123 through the second filter screen 135, the medium powder is remained on the second filter screen 135, and when the medium powder slowly increases, the medium powder falls into the second discharge pipe 132, and then the medium powder in the second discharge pipe 132 is discharged through the medium powder discharge pipe 6. When the fine powder at the bottom of the second air pipe 123 slowly increases, the fine powder falls into the third discharge pipe 133, and finally the fine powder in the third discharge pipe 133 is discharged through the fine powder discharge pipe 7.

The discharge gate has all been seted up to middlings discharging pipe 5, well powder discharging pipe 6 and fine powder discharging pipe 7 below, and middlings discharging pipe 5, well powder discharging pipe 6 and fine powder discharging pipe 7 below all are provided with collecting box 8, and inside middlings, well powder and fine powder fell into to three collecting box 8 from three discharge gate department respectively, and four universal wheels 9 have all been welded to three collecting box 8 lower terminal surface, and handle 10 has all been welded to three collecting box 8 one side. When the coarse powder, the medium powder and the fine powder in the three collecting boxes 8 reach a certain amount, an operator can push the collecting boxes 8 only by using the handles 10, and then the collecting boxes 8 are transported to the next step, wherein the four universal wheels 9 play a role in transportation.

Claims (5)

1. A vertical high-efficiency powder concentrator comprises a bracket (1) and is characterized in that a shell (2) is arranged on the bracket (1), the shell (2) penetrates through the bracket (1), a feed inlet is arranged at the bottom end of the shell (2), a suction mechanism (11) is arranged in the shell (2), a pipeline (3) is welded on the upper end surface of the shell (2), an air outlet is arranged on one side above the pipeline (3), a wind power mechanism is arranged in the wind outlet, a coarse powder discharging pipe (5), a medium powder discharging pipe (6) and a fine powder discharging pipe (7) are arranged at the bottom of one end of the pipeline (3) far away from the wind power mechanism, a screening mechanism (13) is arranged on the coarse powder discharging pipe (5), the medium powder discharging pipe (6) and the fine powder discharging pipe (7), discharge ports are formed below the coarse powder discharge pipe (5), the medium powder discharge pipe (6) and the fine powder discharge pipe (7).

2. The vertical high-efficiency powder concentrator as claimed in claim 1, wherein the suction mechanism (11) comprises a motor (112), a protective shell (4) is welded on the upper end face of the pipeline (3), the motor (112) is located inside the protective shell (4) and is fixedly connected with the inner wall of the protective shell (4), a rotating shaft (113) is welded on an output shaft of the motor (112), an impeller (114) is welded at one end, away from the motor (112), of the rotating shaft (113), a fan housing (115) is arranged outside the impeller (114), the fan housing (115) is located inside the protective shell (4), a feeding pipe (111) is welded below the fan housing (115), and the feeding pipe (111) penetrates through the shell (2).

3. The vertical high-efficiency powder concentrator as claimed in claim 2, wherein the air mechanism comprises a fan (121), the fan (121) is located inside the air outlet and is fixedly connected with the air outlet, a first air pipe (122) is arranged on one side of the fan (121) away from the air outlet, the first air pipe (122) penetrates one end of the feed pipe (111), a second air pipe (123) is arranged on the other end of the feed pipe (111), and the first air pipe (122) and the second air pipe (123) are symmetrical.

4. The vertical high-efficiency powder concentrator as claimed in claim 3, wherein the screening mechanism (13) comprises a first filter screen (134) and a second filter screen (135), the first filter screen (134) and the second filter screen (135) are located inside a second air duct (123), a first discharge pipe (131) is welded on the upper end surface of the coarse powder discharge pipe (5), the first discharge pipe (131) penetrates through the upper end of the coarse powder discharge pipe (5) and is communicated with the inside of the coarse powder discharge pipe (5), the first discharge pipe (131) is located on one side of the first filter screen (134), a second discharge pipe (132) is welded on the upper end surface of the medium powder discharge pipe (6), the second discharge pipe (132) penetrates through the upper end of the fine powder discharge pipe (7) and is communicated with the inside of the fine powder discharge pipe (7), and the second discharge pipe (132) is located on one side of the second filter screen (135), and a third discharge pipe (133) is welded on the upper end surface of the fine powder discharge pipe (7), and the first discharge pipe (131), the second discharge pipe (132) and the third discharge pipe (133) penetrate through the lower end of the second air pipe (123) and are communicated with the inside of the second air pipe (123).

5. The vertical high-efficiency powder concentrator as claimed in claim 4, wherein collecting boxes (8) are arranged below the coarse powder discharging pipe (5), the medium powder discharging pipe (6) and the fine powder discharging pipe (7), four universal wheels (9) are welded on the lower end faces of the three collecting boxes (8), and a handle (10) is welded on one side of each collecting box (8).

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