CN114588803A

CN114588803A - Industry constant temperature three-dimensional agitated vessel

Info

Publication number: CN114588803A
Application number: CN202210236113.6A
Authority: CN
Inventors: 王雨杭
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-11
Filing date: 2022-03-11
Publication date: 2022-06-07

Abstract

The invention discloses industrial constant-temperature three-dimensional stirring equipment which comprises a machine body, wherein an outer shaft tube is arranged on an upper top wall and a lower bottom wall of the machine body in a centered sealing and rotating mode, the upper end and the lower end of the outer shaft tube extend to the outer side of the machine body respectively, an outer shaft bevel gear is fixedly arranged at the upper end of the outer shaft tube, a top seal bearing and a bottom seal bearing are arranged at two ends of the inner wall of the outer shaft tube in a sealing mode respectively, an inner shaft tube is arranged between the top seal bearing and the bottom seal bearing in a rotating mode, the upper end and the lower end of the inner shaft tube extend to the upper side of the top seal bearing and the lower side of the bottom seal bearing respectively, and an inner shaft bevel gear is fixedly arranged at the upper end of the inner shaft tube. According to the invention, the horizontal and longitudinal rotating structures are adopted to form three-dimensional stirring, so that the stirring and mixing uniformity and the stirring and mixing efficiency are increased, heat is more uniformly conducted in fluid through rotating, stirring and heating, constant-temperature heating and stirring are realized, and the application range of equipment is enlarged.

Description

Industry constant temperature three-dimensional agitated vessel

Technical Field

The invention relates to the technical field of industrial mixers, in particular to industrial constant-temperature three-dimensional mixing equipment.

Background

The existing industrial stirring equipment generally adopts vertical or horizontal stirring equipment, but the conventional vertical and horizontal stirring equipment adopts single-shaft stirring, namely, a plurality of stirring blades are fixed on a shaft to carry out rotary stirring, the stirring structure can only carry out layered stirring on the mixed liquid in the equipment, namely, the stirring blades can only drive the fluid in the rotating area to mix, so that the local mixing between the adjacent stirring blades is poor, and the directional rotating stirring can make the fluid generate centrifugal force, so that partial fluids with larger specific gravity are layered mutually, thereby leading to lower uniformity and lower mixing efficiency of the whole mixing, and when some colloid special fluids are mixed, stirring and mixing are carried out after heating is needed to increase fluidity, and the fluid cools off gradually when stirring and leads to mobility to reduce for conventional agitated vessel, influences the stirring progress and increases the stirring degree of difficulty, leads to can't accomplish the homogeneous mixing.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, single-shaft layered stirring and mixing uniformity is low, mixing efficiency is low, and constant-temperature stirring cannot be performed on special fluid, and provides industrial constant-temperature three-dimensional stirring equipment.

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

an industrial constant-temperature three-dimensional stirring device comprises a machine body, wherein an outer shaft tube is inserted on an upper top wall and a lower bottom wall of the machine body together in a centered sealing and rotating mode, the upper end and the lower end of the outer shaft tube extend to the outer side of the machine body respectively, an outer shaft bevel gear is fixedly installed at the upper end of the outer shaft tube, a top seal bearing and a bottom seal bearing are installed at two ends of the inner wall of the outer shaft tube respectively in a sealing mode, an inner shaft tube is inserted between the top seal bearing and the bottom seal bearing in a rotating mode, the upper end and the lower end of the inner shaft tube extend to the upper side of the top seal bearing and the lower side of the bottom seal bearing respectively, an inner shaft bevel gear is fixedly installed at the upper end of the inner shaft tube and extends to the upper side of the outer shaft tube, a hot air blower is arranged at the bottom of the machine body, and a plurality of stirring rods are symmetrically installed on one section of the outer side wall, which is positioned in the machine body, the outer shaft tube is located on one section of outer side wall of the machine body and is annularly and symmetrically sealed and rotatably inserted with a plurality of shaft rods, one end, close to the inner shaft tube, of each shaft rod extends into the outer shaft tube and is provided with a driven bevel gear, one section of inner shaft tube located in the machine body is equidistantly provided with a plurality of driving bevel gears, each driving bevel gear is matched with a plurality of driven bevel gears corresponding to each driving bevel gear, one end, far away from the inner shaft tube, of each shaft rod is fixedly inserted with a stirring shaft, and a plurality of stirring blades are installed on each stirring shaft at equal intervals.

Further, a plurality of puddlers from top to bottom are equidistantly distributed, a plurality of axostylus axostyle is equidistantly distributed from top to bottom, every axostylus axostyle all is located the centre of two adjacent puddlers from top to bottom.

Further, every the one end that the puddler is close to the inner tube has all seted up the heat conduction groove, every the heat conduction groove all communicates with the inside of outer shaft pipe, and upper and lower adjacent two the puddler is kept away from common fixed mounting on the one end relative lateral wall of inner tube and is had the heat pipe, every the upper and lower both ends of heat pipe communicate with the heat conduction groove of two puddlers that correspond respectively.

Furthermore, each heat conduction pipe is fixedly provided with a shaft seat in the middle, and one end, far away from the shaft rod, of each stirring shaft is rotatably inserted on the shaft seat.

Furthermore, a plurality of upper oil seal bearings and a plurality of lower oil seal bearings are respectively installed on one section of inner wall of the outer shaft tube in the machine body at equal intervals, each upper oil seal bearing and the corresponding lower oil seal bearing are respectively located between two adjacent stirring rods, each upper oil seal bearing and the corresponding lower oil seal bearing are filled with lubricating oil, and each driving bevel gear and a plurality of corresponding driven bevel gears are respectively located between the corresponding upper oil seal bearing and the corresponding lower oil seal bearing.

Further, a plurality of air guide holes are equidistantly formed in one section of side wall of the outer shaft pipe in the machine body, each air guide hole is aligned to and multiple of the notch of the heat conducting groove of the corresponding stirring rod, the stirring rod is located between the top seal bearing and the bottom seal bearing, a flow blocking column is hermetically mounted on the inner wall of the inner shaft pipe and located between the lower oil seal bearing and the bottom seal bearing of the lowest layer, and the flow blocking column is located above the plurality of air guide holes of the lowest layer.

Further, a driving motor is mounted on the upper surface of the machine body, a driving bevel gear is mounted on a crankshaft of the driving motor, and the driving bevel gear is matched with an outer shaft bevel gear and an inner shaft bevel gear respectively.

Further, the upper surface of organism has been seted up the feed inlet, the stopper is equipped with the sealed lid of feeding in the feed inlet, the discharge gate has been seted up to the diapire of organism, sealed mounting has the sealed lid of ejection of compact in the discharge gate.

Has the advantages that: through adopting level and vertical revolution mechanic to form three-dimensional stirring, increase the degree of consistency that the stirring was mixed and the efficiency that the stirring was mixed, through rotatory stirring heating for the heat conducts more evenly in the fluid, realizes the application scope that constant temperature heating stirred and increased equipment.

Drawings

FIG. 1 is a schematic structural diagram of an industrial constant-temperature three-dimensional stirring device provided by the invention;

FIG. 2 is a schematic view of a sectional view of a body of an industrial constant-temperature three-dimensional stirring apparatus according to the present invention;

FIG. 3 is an enlarged view of a stirring rod part of the industrial constant-temperature three-dimensional stirring equipment provided by the invention;

FIG. 4 is a schematic sectional view of an outer shaft of an industrial thermostatic solid stirring apparatus according to the present invention;

FIG. 5 is an enlarged view of a cutaway portion of an inner spindle tube of the industrial constant-temperature three-dimensional stirring device provided by the invention;

FIG. 6 is an enlarged view taken at A in FIG. 4;

fig. 7 is an enlarged view of fig. 4 at B.

In the figure: 1 machine body, 11 feed inlets, 12 feed sealing covers, 13 discharge outlets, 14 discharge sealing covers, 2 outer shaft tubes, 21 outer shaft bevel gears, 22 top sealing bearings, 23 bottom sealing bearings, 24 upper oil sealing bearings, 25 lower oil sealing bearings, 3 inner shaft tubes, 31 inner shaft bevel gears, 32 driving bevel gears, 33 air guide holes, 34 flow blocking columns, 4 driving motors, 41 driving bevel gears, 5 stirring rods, 51 heat conduction grooves, 6 heat conduction pipes, 61 shaft seats, 7 shaft rods, 71 driven bevel gears, 8 stirring shafts, 81 stirring blades and 9 hot air blowers.

Detailed Description

Referring to fig. 1, 2, 3 and 4, an industrial constant-temperature three-dimensional stirring apparatus includes a machine body 1, an outer shaft tube 2 is inserted on an upper top wall and a lower bottom wall of the machine body 1 together in a centered sealing and rotating manner, upper and lower ends of the outer shaft tube 2 extend to the outer side of the machine body 1 respectively, an outer bevel gear 21 is fixedly installed at an upper end of the outer shaft tube 2, a top seal bearing 22 and a bottom seal bearing 23 are respectively installed at two ends of an inner wall of the outer shaft tube 2 in a sealing manner, an inner shaft tube 3 is inserted between the top seal bearing 22 and the bottom seal bearing 23 in a rotating manner, upper and lower ends of the inner shaft tube 3 extend to the upper side of the top seal bearing 22 and the lower side of the bottom seal bearing 23 respectively, an upper end of the inner shaft tube 3 extends to the upper side of the outer shaft tube 2 and is fixedly installed with an inner bevel gear 31, a hot air blower 9 is installed at the bottom of the machine body 1, the hot air blower 9 covers the lower ends of the outer shaft tube 2 and the inner shaft tube 3, a plurality of stirring rods 5 are annularly and symmetrically installed on a section of an outer side wall of the outer shaft tube 2 located in the machine body 1, outer central siphon 2 is located sealed the rotation of annular symmetry on one section lateral wall of organism 1 and is inserted and be equipped with a plurality of

axostylus axostyles

7, 5 equidistance distributions from the top down of a plurality of axostylus axostyles 7, every axostylus axostyle 7 all is located the centre of two adjacent puddlers 5 from the top down, every axostylus axostyle 7 is close to the one end of interior central siphon 3 and all extends to the inside of outer central siphon 2 and installs driven bevel gear 71, a plurality of initiative bevel gear 32 are installed to one section equidistance that interior central siphon 3 is located organism 1, a plurality of driven bevel gear 71 cooperations that every initiative bevel gear 32 all corresponds, the one end that interior central siphon 3 was kept away from to every axostylus axostyle 7 is all fixed to be inserted and is equipped with (mixing) shaft 8, a plurality of stirring leaf 81 are installed to equidistance on every (mixing shaft 8).

Outer central siphon 2 and interior central siphon 3 rotate the in-process, outer central siphon 2 drives a plurality of puddlers 5 and rotates, make a plurality of puddlers 5 horizontal layering stirring in organism 1, interior central siphon 3 rotates and makes a plurality of initiative bevel gear 32 rotate and drive a plurality of driven bevel gear 71 and rotate, make a plurality of axostylus axostyles 7 drive a plurality of (mixing) shaft 8 and rotate, a plurality of (mixing) shaft 8 drive a plurality of stirring leaf 81 vertical rotation stirring and rotate along with outer central siphon 2 level, then cooperate puddler 5 to realize all-round three-dimensional stirring in the organism 1, increase the stirring region, make the stirring more even and stirring efficiency higher.

Referring to fig. 4 and 6, heat conduction groove 51 has all been seted up to the one end that every puddler 5 is close to interior central siphon 3, every heat conduction groove 51 all communicates with the inside of outer central siphon 2, common fixed mounting has heat pipe 6 on the one end relative lateral wall that interior central siphon 3 was kept away from to upper and lower two adjacent puddlers 5, the upper and lower both ends of every heat pipe 6 communicate with the heat conduction groove 51 of two puddlers 5 that correspond respectively, all fixed mounting has axle bed 61 between two parties on every heat pipe 6, the one end that axostylus axostyle 7 was kept away from to every (mixing) shaft 8 is all rotated and is inserted and establish on axle bed 61.

The during operation of air heater 9, can blow in outer central siphon 2 with constant temperature hot-air in, make the hot gas flow get into in outer central siphon 2, then get into in heat conduction groove 51 through outer central siphon 2 and interior central siphon 3, and a plurality of heat conduction grooves 51 pass through heat pipe 6 intercommunication, make the hot gas flow in heat conduction groove 51 and heat pipe 6, make heat pipe 6 and puddler 5 be heated and conduct and heat in the fluid in organism 1, make the fluid can be flowed along with the stirring and be heated by the uniform heating, heat conduction speed is fast, the heating is even, increase the application scope of equipment.

Referring to fig. 4 and 7, a plurality of upper oil seal bearings 24 and a plurality of lower oil seal bearings 25 are respectively installed on a section of inner wall of the outer shaft tube 2 in the machine body 1 at equal intervals, each upper oil seal bearing 24 and the corresponding lower oil seal bearing 25 are both located between two adjacent upper and lower stirring rods 5, lubricating oil is filled between each upper oil seal bearing 24 and the corresponding lower oil seal bearing 25, and each driving bevel gear 32 and a plurality of corresponding driven bevel gears 71 are respectively located between the corresponding upper oil seal bearing 24 and the corresponding lower oil seal bearing 25.

The upper oil seal bearing 24 and the lower oil seal bearing 25 seal the corresponding drive bevel gear 32 and the driven bevel gear 71, so that the drive bevel gear 32 and the driven bevel gear 71 are soaked in lubricating oil, the friction loss is reduced, and the service life is prolonged.

Referring to fig. 4, 5 and 6, a plurality of air guide holes 33 are equidistantly formed in a section of side wall of the outer shaft 2 located in the machine body 1, each air guide hole 33 is aligned with a notch of the corresponding heat conduction groove 51 of the stirring rod 5, the stirring rods 5 are located between the top seal bearing 22 and the bottom seal bearing 23, a flow blocking column 34 is hermetically mounted on the inner wall of the inner shaft 3, the flow blocking column 34 is located between the lower oil seal bearing 25 and the bottom seal bearing 23 of the lowermost layer, and the flow blocking column 34 is located above the plurality of air guide holes 33 of the lowermost layer.

The hot air flow generated by the air heater 9 enters from the lower end of the inner shaft tube 3 after being blocked by the bottom seal bearing 23, and is discharged into the outer shaft tube 2 from the air guide hole 33 because the hot air flow is blocked by the flow blocking column 34, and enters and heats the stirring rod 5 from the heat conduction groove 51 because the hot air flow is blocked by the lower oil seal bearing 25, and then flows to the heat conduction groove 51 of the stirring rod 5 on the upper layer along the heat conduction tube 6, and heats the heat conduction tube 6 and the stirring rod 5 on the upper layer, and the hot air flow enters into the outer shaft tube 2 again and is blocked by the lower oil seal bearing 25, and then enters into the inner shaft tube 3 through the air guide hole 33 and is discharged upwards, so that the hot air flow can pass through all the heat conduction grooves 51 and the heat conduction tubes 6 and be discharged from the upper end of the inner shaft tube 3, that all the stirring rods 5 and the heat conduction tubes 6 can be heated, and the fluid in the machine body 1 can be uniformly heated by the stirring rod 5 and the heat conduction tubes 6.

Referring to fig. 1 and 2, a driving motor 4 is mounted on the upper surface of a machine body 1, a driving bevel gear 41 is mounted on a crankshaft of the driving motor 4, the driving bevel gear 41 is respectively matched with an outer bevel gear 21 and an inner bevel gear 31, a feeding port 11 is formed in the upper surface of the machine body 1, a feeding sealing cover 12 is arranged in the feeding port 11 in a plugging manner, a discharging port 13 is formed in the bottom wall of the machine body 1, and a discharging sealing cover 14 is mounted in the discharging port 13 in a sealing manner.

The driving motor 4 can drive the outer bevel gear 21 and the inner bevel gear 31 to rotate through the driving bevel gear 41, i.e. can drive the outer shaft tube 2 and the inner shaft tube 3 to rotate, and the mixed fluid is put into through the feeding hole 11 and is discharged through the discharging hole 13 after the stirring is finished.

Injecting a fluid to be mixed into the machine body 1 from the feeding hole 11, closing the feeding sealing cover 12, opening the driving motor 4 and the hot air blower 9, driving the driving motor 4 to drive the outer bevel gear 21 and the inner bevel gear 31 to rotate through the driving bevel gear 41, so that the outer shaft tube 2 and the inner shaft tube 3 rotate, driving the stirring rods 5 to horizontally rotate and stir in the machine body 1 in a layered manner through the outer shaft tube 2, driving the bevel gear 32 to drive the driven bevel gear 71 to rotate through the inner shaft tube 3, driving the stirring shaft 8 to rotate on the shaft seat 61 through the shaft rod 7, driving the stirring blades 81 to longitudinally rotate and stir through the stirring shaft 8, and horizontally rotating the shaft rod 7 along with the outer shaft tube 2, so that the stirring blades 81 are horizontally rotated and stirred while longitudinally rotating;

the hot air flow generated by the air heater 9 enters the lower end of the outer shaft tube 2 and is blocked by the bottom seal bearing 23, so that the hot air flow enters from the lower end of the inner shaft tube 3 and is blocked by the flow blocking column 34, the hot air flow flows out from the air guide hole 33 into the outer shaft tube 2, so that the hot air flow enters the heat conducting grooves 51 of the stirring rods 5 at the bottom layer, the heat conducting pipes 6 are communicated with the heat conducting grooves 51 of the stirring rods 5, so that the hot air flow flows through all the heat conducting pipes 6 and the heat conducting grooves 51 and enters the outer shaft tube 2, when the hot air flow enters the outer shaft tube 2 again, the hot air flow is blocked by the upper seal bearing 24, the lower oil seal bearing 25 and the top seal bearing 22, so that the hot air flow enters the inner shaft tube 3 through the air guide hole 33 and is discharged from the upper end of the inner shaft tube 3, the stirring rods 5 and the heat conducting pipes 6 are heated and conducted to the fluid for uniform stirring and heating, and the discharge seal cover 14 is opened after stirring, so that the mixed fluid whose agitation is completed is discharged.

Claims

1. The utility model provides an industry constant temperature three-dimensional agitated vessel, includes organism (1), its characterized in that, sealed rotation is inserted between two parties jointly on the last roof of organism (1) and the lower diapire and is equipped with outer central siphon (2), the upper and lower end of outer central siphon (2) extends to the outside of organism (1) respectively, the upper end fixed mounting of outer central siphon (2) has outer shaft bevel gear (21), the inner wall both ends of outer central siphon (2) seal respectively have top sealed bearing (22) and end sealed bearing (23), rotate jointly between top sealed bearing (22) and the end sealed bearing (23) and insert and be equipped with interior central siphon (3), the upper and lower end of interior central siphon (3) extends to the top of top sealed bearing (22) and the below of end sealed bearing (23) respectively, the upper end of interior central siphon (3) extends to the top of outer central siphon (2) and fixed mounting has interior shaft bevel gear (31), the bottom of the machine body (1) is provided with an air heater (9), the air heater (9) covers the lower ends of the outer shaft tube (2) and the inner shaft tube (3), a plurality of stirring rods (5) are symmetrically and annularly arranged on one section of outer side wall of the outer shaft tube (2) in the machine body (1), a plurality of shaft levers (7) are symmetrically and annularly and hermetically inserted on one section of outer side wall of the outer shaft tube (2) in the machine body (1), one end, close to the inner shaft tube (3), of each shaft lever (7) extends into the outer shaft tube (2) and is provided with a driven bevel gear (71), a plurality of driving bevel gears (32) are equidistantly arranged on one section of inner shaft tube (3) in the machine body (1), a plurality of driven bevel gears (71) corresponding to each driving bevel gear (32) are matched, and a stirring shaft (8) is fixedly inserted at one end, far away from the inner shaft tube (3), of each shaft lever (7), a plurality of stirring blades (81) are arranged on each stirring shaft (8) at equal intervals.

2. The industrial thermostatic solid stirring device of claim 1, characterized in that a plurality of the stirring rods (5) are distributed equidistantly from top to bottom, a plurality of the shafts (7) are distributed equidistantly from top to bottom, and each shaft (7) is positioned between two stirring rods (5) adjacent to each other from top to bottom.

3. The industrial constant-temperature three-dimensional stirring equipment according to claim 1, wherein one end of each stirring rod (5) close to the inner shaft tube (3) is provided with a heat conducting groove (51), each heat conducting groove (51) is communicated with the inside of the outer shaft tube (2), one ends of two vertically adjacent stirring rods (5) far away from the inner shaft tube (3) are opposite to side walls, and heat conducting pipes (6) are fixedly mounted on the opposite side walls, and the upper end and the lower end of each heat conducting pipe (6) are respectively communicated with the heat conducting grooves (51) of the two corresponding stirring rods (5).

4. The industrial constant-temperature three-dimensional stirring device according to claim 3, wherein each heat pipe (6) is centrally and fixedly provided with a shaft seat (61), and one end of each stirring shaft (8) far away from the shaft rod (7) is rotatably inserted on the shaft seat (61).

5. The industrial constant-temperature three-dimensional stirring equipment as claimed in claim 1, wherein the outer shaft tube (2) is located on one section of inner wall in the machine body (1) and is respectively provided with a plurality of upper oil seal bearings (24) and a plurality of lower oil seal bearings (25) at equal intervals, each upper oil seal bearing (24) and the corresponding lower oil seal bearing (25) are located between two stirring rods (5) which are adjacent from top to bottom, lubricating oil is filled between each upper oil seal bearing (24) and the corresponding lower oil seal bearing (25), and each driving bevel gear (32) and the corresponding driven bevel gears (71) are respectively located between the corresponding upper oil seal bearing (24) and the corresponding lower oil seal bearing (25).

6. The industrial constant-temperature three-dimensional stirring equipment according to claim 3, wherein a plurality of air guide holes (33) are formed in a section of side wall, located in the machine body (1), of the outer shaft tube (2) at equal intervals, each air guide hole (33) is aligned with a notch of a heat conduction groove (51) of a corresponding stirring rod (5), the stirring rods (5) are located between the top-sealed bearing (22) and the bottom-sealed bearing (23), a flow blocking column (34) is hermetically mounted on the inner wall of the inner shaft tube (3), the flow blocking column (34) is located between the lower oil-sealed bearing (25) and the bottom-sealed bearing (23) at the lowest layer, and the flow blocking column (34) is located above the plurality of air guide holes (33) at the lowest layer.

7. The industrial constant-temperature three-dimensional stirring equipment as claimed in claim 1, wherein a driving motor (4) is installed on the upper surface of the machine body (1), a driving bevel gear (41) is installed on a machine shaft of the driving motor (4), and the driving bevel gear (41) is respectively matched with the outer bevel gear (21) and the inner bevel gear (31).

8. The industrial constant-temperature three-dimensional stirring equipment as claimed in claim 1, wherein the upper surface of the machine body (1) is provided with a feeding hole (11), a feeding sealing cover (12) is arranged in the feeding hole (11) in a plug manner, the bottom wall of the machine body (1) is provided with a discharging hole (13), and a discharging sealing cover (14) is arranged in the discharging hole (13) in a sealing manner.