CN213288674U - Gas atomization powder making furnace - Google Patents

Abstract

The utility model relates to the technical field of mechanical equipment, in particular to a gas atomization powder making furnace, which not only improves the forming efficiency of steel powder, but also ensures that the formed steel powder has more regular shape by arranging the equipment; including handling the storehouse, four groups landing legs, the feeder hopper, go out the flitch, the aqua storage tank, fixed frid, the condenser, first pivot, fixed cover, two sets of bracing pieces, two sets of flabellums, the worm wheel, the worm, the second pivot, three support frames of group and first motor, it is provided with the treatment chamber to handle storehouse inside, two sets of flabellums are installed at first pivot downside, and two sets of flabellum positions correspond with the aqua storage tank position, the worm wheel is installed on first pivot top, the worm wheel meshes with the worm wheel mutually, the worm is installed at second pivot left end, the second pivot is fixed on two sets of bracing pieces through three support frames of group, first motor installation fixed frid right-hand member, second pivot right-hand member passes fixed frid right-hand.

Description

Gas atomization powder making furnace

Technical Field

The utility model relates to a mechanical equipment's technical field especially relates to a gas atomization system powder stove.

Background

As is well known, the method commonly used for pulverization by gas atomization is to blow molten steel by air, and then the blown molten steel is naturally cooled to form steel powder; however, it is found in use that air is blown to molten steel and then the blown molten steel is naturally cooled to form steel powder, and that natural cooling takes a long time and blown molten steel particles are easily adhered.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a through setting up this equipment, not only improved the efficiency that the steel powder formed, also made the more regular gas atomization system powder stove of steel powder shape of formation.

The utility model relates to a gas atomization powder making furnace, which comprises a processing bin, four groups of supporting legs, a feeding hopper, a discharging plate, a water storage tank, a fixed groove plate, a condenser, a first rotating shaft, a fixed sleeve, two groups of supporting rods, two groups of fan blades, a worm wheel, a worm, a second rotating shaft, three groups of supporting frames and a first motor, wherein the processing bin is internally provided with a processing cavity, the processing bin is arranged on the four groups of supporting legs, the left end of the processing bin is communicated with an air inlet device, the output end of the feeding hopper passes through the top end of the processing bin and extends into the processing cavity, the discharging plate is covered at the output end of the feeding hopper, the discharging plate is evenly communicated with a plurality of groups of exposed holes, the lower side of the right end of the processing bin is communicated with a plurality of air dispersing holes, the right side of the bottom end of the processing bin is, the top end of the treatment bin is communicated with an opening, the fixed groove plate is arranged on the treatment bin outside the opening and is communicated with the opening, the top end of the fixed groove plate is uniformly communicated with a plurality of groups of air inlets, the condenser is arranged on the upper side in the fixed groove plate, the position of the condenser corresponds to the positions of the plurality of groups of air inlets, the first rotating shaft is positioned in the fixed groove plate, the lower side of the first rotating shaft extends into the treatment cavity, the fixed sleeve is rotatably connected with the middle part of the first rotating shaft and is fixed on the treatment bin through two groups of supporting rods, two groups of fan blades are arranged on the lower, and two sets of flabellum positions correspond with the aqua storage tank position, and the worm wheel is installed on first pivot top, and the worm meshes with the worm wheel mutually, and the worm is installed at second pivot left end, and the second pivot is fixed on two sets of bracing pieces through three groups of support frames, and first motor installation fixed frid right-hand member, second pivot right-hand member pass fixed frid right-hand member and are connected with first motor output.

The utility model discloses a gas atomization system powder stove, air inlet unit includes the air pump, first air duct, the second air duct, gas-distributing pipe and two sets of first mount, the air pump is installed at handling the storehouse left end, first air duct output is connected with the air pump input, it is provided with filter equipment to handle the storehouse left end, first air duct input and filter equipment intercommunication, the second air duct input is connected with the air pump output, the gas-distributing pipe is fixed at the treatment cavity left end through two sets of first mounts, the second air duct output passes the treatment storehouse left end and stretches into to the treatment cavity and pass the first mount of upside and gas-distributing pipe intercommunication, the gas-distributing pipe right-hand member evenly communicates and is provided with the multiunit shower nozzle.

The utility model discloses a gas atomization system powder stove, the guide device is including leading the feed bin, the second mount, the third pivot, the spiral scraping wings, second motor and guide chute board, the aqua storage tank right-hand member intercommunication is provided with the opening, guide bin inclined mounting is at the opening part, and it communicates with each other with the opening to lead the feed bin, the guide bin is fixed on handling the storehouse through the second mount, the inside guide chamber that is provided with in guide bin, the rotatable installation in guide chamber bottom in third pivot bottom, third pivot top is passed and is led the feed bin top and stretch out to guide bin outside, and third pivot and guide bin rotatable coupling, the spiral scraping wings is installed in the third pivot, the second motor is installed on leading the feed bin top, and the second motor output is connected with third pivot top, upper right side intercommunication in guide bin is provided with the guide mouth, the guide chute board is installed in guide mouth department.

The utility model discloses a gas atomization system powder stove, filter equipment include the filtration storehouse and strain a section of thick bamboo, and the filtration storehouse is installed in handling the storehouse left end, and first air duct input and filtration storehouse intercommunication filter the inside filter chamber that is provided with in storehouse, filter storehouse bottom intercommunication and be provided with the air inlet, strain a section of thick bamboo and install at the air inlet inboard, strain a section of thick bamboo and lie in the filter chamber.

The utility model discloses a gas atomization system powder stove still includes adsorption plate and two sets of attachment straps, and the adsorption plate is fixed in filtering the intracavity through two sets of attachment straps.

The utility model discloses a gas atomization system powder stove still includes first protection network, and first protection network is installed on the fixed frid in the multiunit inlet port outside.

The utility model discloses a gas atomization system powder stove still includes the second protection network, and the second protection network is installed on the inboard treatment chamber inner wall of multiunit scattered gas pocket.

The utility model discloses a gas atomization system powder stove still includes the observation window, handles storehouse right-hand member intercommunication and is provided with the opening, and the observation window is installed at the opening part.

Compared with the prior art, the beneficial effects of the utility model are that: molten steel is led into a feed hopper, then the molten steel in the feed hopper is led into a treatment cavity through a plurality of groups of exposed holes, an air inlet device is opened at the same time, high-pressure air in the air inlet device blows the molten steel in the treatment cavity, then steel particles move rightwards, a condenser is opened, a first motor is opened at the same time, outside air enters a fixed trough plate through a plurality of groups of air inlets, then the air is cooled through the condenser, a second rotating shaft is driven by the first motor to rotate a worm, the worm is meshed with a worm wheel, the worm wheel drives the first rotating shaft and two groups of fan blades to rotate, the two groups of fan blades enable cold air to move downwards, the cold air shapes the steel particles, then the shaped steel particles move downwards when the two groups of fan blades rotate, then the shaped steel particles fall into water in a water storage tank to be cooled, then the steel particles are cooled to form steel powder, and then a, make the guide device derive the steel powder, through setting up this equipment, not only improved the efficiency that the steel powder formed, also made the steel powder shape of formation more regular.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is an enlarged schematic view of the fixed slot plate of FIG. 1;

FIG. 3 is an enlarged schematic view of the filtration cartridge of FIG. 1;

FIG. 4 is an enlarged schematic view of the discharge plate of FIG. 1;

in the drawings, the reference numbers: 1. a processing bin; 2. a support leg; 3. a feed hopper; 4. a discharge plate; 5. exposing eyes; 6. air diffusing holes; 7. a water storage tank; 8. fixing the groove plate; 9. an air inlet; 10. a condenser; 11. a first rotating shaft; 12. fixing a sleeve; 13. a support bar; 14. a fan blade; 15. a worm gear; 16. a worm; 17. a second rotating shaft; 18. a support frame; 19. a first motor; 20. an air pump; 21. a first air duct; 22. a second air duct; 23. a gas distributing pipe; 24. a first fixing frame; 25. a spray head; 26. a material guiding bin; 27. a second fixing frame; 28. a third rotating shaft; 29. a spiral pusher plate; 30. a second motor; 31. a chute plate; 32. a filtering bin; 33. a filter cartridge; 34. an adsorption plate; 35. a butt strap; 36. a first protection net; 37. a second protective net; 38. and (4) an observation window.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in figures 1 to 4, the utility model relates to a gas atomization powder making furnace, which comprises a processing bin 1, four groups of supporting legs 2, a feeding hopper 3, a discharging plate 4, a water storage tank 7, a fixed trough plate 8, a condenser 10, a first rotating shaft 11, a fixed sleeve 12, two groups of supporting rods 13, two groups of fan blades 14, a worm wheel 15, a worm 16, a second rotating shaft 17, three groups of supporting frames 18 and a first motor 19, wherein the processing bin 1 is internally provided with a processing cavity, the processing bin 1 is arranged on the four groups of supporting legs 2, the left end of the processing bin 1 is communicated with an air inlet device, the output end of the feeding hopper 3 passes through the top end of the processing bin 1 and extends into the processing cavity, the discharging plate 4 is covered on the output end of the feeding hopper 3, the discharging plate 4 is uniformly communicated with a plurality of exposed holes 5, the lower side of the right end of the processing bin 1 is communicated with a plurality, the water storage tank 7 is communicated with the opening, water is arranged in the water storage tank 7, the right end of the water storage tank 7 is communicated with and obliquely provided with a material guiding device, the top end of the processing bin 1 is communicated with and provided with the opening, the fixed trough plate 8 is arranged on the processing bin 1 at the outer side of the opening, the fixed trough plate 8 is communicated with the opening, the top end of the fixed trough plate 8 is uniformly communicated with and provided with a plurality of groups of air inlets 9, the condenser 10 is arranged at the upper side in the fixed trough plate 8, the condenser 10 is positioned corresponding to the plurality of groups of air inlets 9, the first rotating shaft 11 is positioned in the fixed trough plate 8, the lower side of the first rotating shaft 11 extends into the processing chamber, the fixed sleeve 12 is rotatably connected with the middle part of the first rotating shaft 11, the fixed sleeve 12 is fixed on the processing bin 1 through two groups of supporting rods 13, the two, the worm 16 is meshed with the worm wheel 15, the worm 16 is installed at the left end of a second rotating shaft 17, the second rotating shaft 17 is fixed on two groups of supporting rods 13 through three groups of supporting frames 18, the right end of a fixed groove plate 8 is installed on a first motor 19, and the right end of the second rotating shaft 17 penetrates through the right end of the fixed groove plate 8 and is connected with the output end of the first motor 19; molten steel is led into a feed hopper 3, then the molten steel in the feed hopper 3 is led into a treatment cavity through a plurality of groups of exposure holes 5, an air inlet device is opened at the same time, high-pressure air in the air inlet device blows the molten steel in the treatment cavity, then steel particles move rightwards, a condenser 10 is opened, a first motor 19 is opened at the same time, outside air enters a fixed trough plate 8 through a plurality of groups of air inlet holes 9, then the air is cooled through the condenser 10, the first motor 19 enables a second rotating shaft 17 to drive a worm 16 to rotate, the worm 16 is meshed with a worm wheel 15, the worm wheel 15 drives the first rotating shaft 11 and two groups of fan blades 14 to rotate, the two groups of fan blades 14 enable cold air to move downwards, the cold air shapes the steel particles, then the shaped steel particles rotate downwards in the two groups of fan blades 14, and then fall into water in a water storage tank 7 to be cooled, then the steel particles form steel powder after being cooled, then the material guide device is opened to lead the steel powder out, and by arranging the equipment, not only is the efficiency of forming the steel powder improved, but also the shape of the formed steel powder is more regular.

The utility model discloses a gas atomization powder making furnace, air inlet unit includes air pump 20, first air duct 21, second air duct 22, gas-distributing pipe 23 and two sets of first mount 24, air pump 20 is installed at processing storehouse 1 left end, first air duct 21 output is connected with air pump 20 input, processing storehouse 1 left end is provided with filter equipment, first air duct 21 input is communicated with filter equipment, second air duct 22 input is connected with air pump 20 output, gas-distributing pipe 23 is fixed at the processing chamber left end through two sets of first mount 24, second air duct 22 output passes processing storehouse 1 left end and stretches into to the processing chamber and passes upside first mount 24 and gas-distributing pipe 23 to communicate, gas-distributing pipe 23 right end evenly communicates and is provided with multiunit shower nozzle 25; by opening the air pump 20, the air in the filtering device is introduced into the air distribution pipe 23 through the first air guide pipe 21, the air pump 20 and the second air guide pipe 22, then the high-pressure air in the air distribution pipe 23 is sprayed out through the plurality of groups of spray heads 25, and the high-pressure air sprayed out from the plurality of groups of spray heads 25 blows the molten steel to the right, so that the steel particles in the molten steel can be separated, and the molten steel can be conveniently formed into steel powder.

The utility model relates to a gas atomization powder making furnace, a material guiding device comprises a material guiding bin 26, a second fixing frame 27, a third rotating shaft 28, a spiral material pushing plate 29, a second motor 30 and a material guiding slot plate 31, the right end of a water storage tank 7 is communicated with an opening, the material guiding bin 26 is obliquely arranged at the opening, the material guiding bin 26 is communicated with the opening, the material guiding bin 26 is fixed on a processing bin 1 through the second fixing frame 27, a material guiding cavity is arranged inside the material guiding bin 26, the bottom end of the third rotating shaft 28 is rotatably arranged at the bottom end of the material guiding cavity, the top end of the third rotating shaft 28 passes through the top end of the material guiding bin 26 to extend out of the material guiding bin 26, the third rotating shaft 28 is rotatably connected with the material guiding bin 26, the spiral material pushing plate 29 is arranged on the third rotating shaft 28, the second motor 30 is arranged at the top end of the material guiding bin 26, the output end of the second motor 30 is, the material guide groove plate 31 is arranged at the material guide opening; through opening second motor 30, make third pivot 28 drive spiral scraping wings 29 and rotate, spiral scraping wings 29 then upwards promotes the powdered steel that forms in the aqua storage tank 7 aquatic, and then the powdered steel is derived through baffle 31, can play the effect of deriving the powdered steel, improves the practicality.

The utility model discloses a gas atomization powder making furnace, the filtering device comprises a filtering bin 32 and a filtering cylinder 33, the filtering bin 32 is arranged at the left end of the processing bin 1, the input end of a first air duct 21 is communicated with the filtering bin 32, a filtering cavity is arranged in the filtering bin 32, the bottom end of the filtering bin 32 is communicated with an air inlet, the filtering cylinder 33 is arranged at the inner side of the air inlet, and the filtering cylinder 33 is positioned in the filtering cavity; the air enters into the filter chamber through the air inlet, and then the air is exported through first air duct 21 after straining a section of thick bamboo 33 and filtering, can filter the air, improves the purity of air.

The utility model discloses a gas atomization powder making furnace, which also comprises an adsorption plate 34 and two groups of butt straps 35, wherein the adsorption plate 34 is fixed in the filter cavity through the two groups of butt straps 35; through setting up adsorption plate 34 and attachment strap 35, adsorption plate 34 can adsorb the air to improve the filter effect to the air.

The utility model discloses a gas atomization powder making furnace, which also comprises a first protective screen 36, wherein the first protective screen 36 is arranged on a fixed trough plate 8 outside a plurality of groups of air inlets 9; through setting up first protection network 36, can filter the air that enters into fixed frid 8 by multiunit inlet port 9, avoid the large granule impurity in the air to enter into fixed frid 8 in, improve the controllability.

The utility model discloses a gas atomization powder making furnace, which also comprises a second protective net 37, wherein the second protective net 37 is arranged on the inner wall of the treatment cavity at the inner side of the multiple groups of air dispersing holes 6; through setting up second protection network 37, can prevent that the steel powder from leading out through multiunit scattered gas pocket 6, improve the controllability.

The utility model discloses a gas atomization powder making furnace, which also comprises an observation window 38, the right end of the processing bin 1 is communicated with an opening, and the observation window 38 is arranged at the opening; by arranging the observation window 38, the process of forming steel powder in the treatment cavity by the molten steel can be clearly seen, and the convenience is improved.

The utility model discloses an air atomization powder making furnace, it is at work, at first guide into the feeder hopper 3 with the molten steel, then the molten steel in the hopper 3 is leading-in to the treatment chamber through multiunit open 5, open air pump 20 simultaneously, make the air enter into the filter chamber through the air inlet, then the air filters through straining a section of thick bamboo 33 and adsorption plate 34 and adsorbs the back, guide into in gas-distributing pipe 23 through first air duct 21, air pump 20 and second air duct 22, then the high-pressure air in gas-distributing pipe 23 is spout through multiunit shower nozzle 25, the high-pressure air of multiunit shower nozzle 25 spun blows to the molten steel right, thereby can make the steel granule separation in the molten steel, then make the steel granule move to the right, open first motor 19 when later opening condenser 10, the outside air enters into fixed slot board 8 through multiunit inlet hole 9, then the air cools through condenser 10, the first motor 19 makes the second rotating shaft 17 drive the worm 16 to rotate, the worm 16 is meshed with the worm wheel 15, the worm wheel 15 drives the first rotating shaft 11 and the two sets of fan blades 14 to rotate, the two sets of fan blades 14 make the cold air move downwards, the cold air shapes the steel particles, then the shaped steel particles move downwards under the rotation of the two sets of fan blades 14, then the shaped steel particles fall into the water in the water storage tank 7 to be cooled, then the steel particles form steel powder after being cooled, then the second motor 30 is opened, the third rotating shaft 28 drives the spiral material pushing plate 29 to rotate, the spiral material pushing plate 29 upwards pushes the steel powder formed in the water storage tank 7, and then the steel powder is led out through the material guide groove plate 31.

The installation mode, the connection mode or the arrangement mode of the gas atomization powder making furnace of the utility model are common mechanical modes, and the gas atomization powder making furnace can be implemented as long as the beneficial effects can be achieved; the utility model discloses a condenser 10, first motor 19, air pump 20 and second motor 30 of gas atomization system powder stove are purchase on the market, and this industry technical staff only need according to its subsidiary service instruction install and operate can.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (8)

1. A gas atomization powder making furnace is characterized by comprising a processing bin (1), four groups of supporting legs (2), a feeding hopper (3), a discharging plate (4), a water storage tank (7), a fixed groove plate (8), a condenser (10), a first rotating shaft (11), a fixed sleeve (12), two groups of supporting rods (13), two groups of fan blades (14), a worm wheel (15), a worm (16), a second rotating shaft (17), three groups of supporting frames (18) and a first motor (19), wherein a processing cavity is arranged in the processing bin (1), the processing bin (1) is arranged on the four groups of supporting legs (2), the left end of the processing bin (1) is communicated with an air inlet device, the output end of the feeding hopper (3) penetrates through the top end of the processing bin (1) and extends into the processing cavity, the discharging plate (4) is covered at the output end of the feeding hopper (3), and a plurality of groups of exposed holes (5, a plurality of groups of air dispersing holes (6) are communicated and arranged at the lower side of the right end of the treatment bin (1), an opening is communicated and arranged at the right side of the bottom end of the treatment bin (1), a water storage tank (7) is arranged on the treatment bin (1) at the outer side of the opening, the water storage tank (7) is communicated and communicated with the opening, water is arranged in the water storage tank (7), a material guide device is obliquely communicated and arranged at the right end of the water storage tank (7), an opening is communicated and arranged at the top end of the treatment bin (1), a fixed groove plate (8) is arranged on the treatment bin (1) at the outer side of the opening, the fixed groove plate (8) is communicated with the opening, a plurality of groups of air inlet holes (9) are uniformly communicated and arranged at the top end of the fixed groove plate (8), a condenser (10) is arranged at the upper side in the fixed groove plate (8), the position of the condenser (10) corresponds to the, fixed cover (12) and first pivot (11) middle part rotatable coupling, fixed cover (12) are fixed on handling storehouse (1) through two sets of bracing pieces (13), install in first pivot (11) downside two sets of flabellum (14), and two sets of flabellum (14) position corresponds with aqua storage tank (7) position, worm wheel (15) are installed on first pivot (11) top, worm (16) and worm wheel (15) mesh mutually, worm (16) are installed at second pivot (17) left end, second pivot (17) are fixed on two sets of bracing pieces (13) through three sets of support frames (18), fixed frid (8) right-hand member is installed to first motor (19), second pivot (17) right-hand member passes fixed frid (8) right-hand member and is connected with first motor (19) output.

2. The gas atomization powder making furnace according to claim 1, wherein the air inlet device comprises an air pump (20) and a first air duct (21), second air duct (22), gas-distributing pipe (23) and two sets of first mount (24), install in processing storehouse (1) left end air pump (20), first air duct (21) output is connected with air pump (20) input, it is provided with filter equipment to handle storehouse (1) left end, first air duct (21) input and filter equipment intercommunication, second air duct (22) input is connected with air pump (20) output, gas-distributing pipe (23) are fixed at the processing chamber left end through two sets of first mount (24), second air duct (22) output passes and handles storehouse (1) left end and stretches into to the processing chamber and pass upside first mount (24) and gas-distributing pipe (23) intercommunication, gas-distributing pipe (23) right-hand member evenly communicates and is provided with multiunit shower nozzle (25).

3. The gas atomization powder making furnace as claimed in claim 2, characterized in that the material guiding device comprises a material guiding bin (26), a second fixing frame (27), a third rotating shaft (28), a spiral material pushing plate (29), a second motor (30) and a material guiding slot plate (31), the right end of the water storage tank (7) is communicated with and provided with an opening, the material guiding bin (26) is obliquely arranged at the opening, the material guiding bin (26) is communicated with the opening, the material guiding bin (26) is fixed on the processing bin (1) through the second fixing frame (27), a material guiding cavity is arranged inside the material guiding bin (26), the bottom end of the third rotating shaft (28) is rotatably arranged at the bottom end of the material guiding cavity, the top end of the third rotating shaft (28) penetrates through the top end of the material guiding bin (26) and extends out of the material guiding bin (26), the third rotating shaft (28) is rotatably connected with the material guiding bin (26), the spiral material pushing plate (29) is arranged, the second motor (30) is installed on guide bin (26) top to second motor (30) output and third pivot (28) top are connected, and guide bin (26) upper right side intercommunication is provided with the guide opening, and guide chute board (31) are installed in guide opening department.

4. The gas atomization powder making furnace according to claim 3, characterized in that the filtering device comprises a filtering bin (32) and a filtering cylinder (33), the filtering bin (32) is installed at the left end of the processing bin (1), the input end of the first air duct (21) is communicated with the filtering bin (32), a filtering cavity is arranged inside the filtering bin (32), the bottom end of the filtering bin (32) is communicated with an air inlet, the filtering cylinder (33) is installed inside the air inlet, and the filtering cylinder (33) is located inside the filtering cavity.

5. The gas atomization powder making furnace as claimed in claim 4, further comprising an adsorption plate (34) and two sets of straps (35), wherein the adsorption plate (34) is fixed in the filter chamber through the two sets of straps (35).

6. The gas atomization powder making furnace according to claim 5, characterized by further comprising a first protective net (36), wherein the first protective net (36) is installed on the fixed trough plates (8) outside the plurality of groups of air inlets (9).

7. The gas atomization powder making furnace according to claim 6, characterized by further comprising a second protective net (37), wherein the second protective net (37) is installed on the inner wall of the processing chamber inside the plurality of groups of air dispersing holes (6).

8. The gas atomization powder making furnace as claimed in claim 7, further comprising an observation window (38), wherein an opening is arranged at the right end of the processing bin (1) in a communication manner, and the observation window (38) is installed at the opening.

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