CN215939673U - Fluid reservoir is joined in marriage in high efficiency stirring - Google Patents

Abstract

The utility model discloses a high-efficiency stirring liquid distribution tank which comprises a base, wherein a bearing plate is fixed at the top of the base, a plurality of fixing plates are fixed on one side of the bearing plate, a stirring barrel is fixed on one side of each fixing plate, a quantifying device is arranged below the stirring barrel, the quantifying device comprises a quantifying barrel, the quantifying barrel is fixed on the side wall of the bearing plate through the fixing plates, and a moving mechanism is arranged at the bottom of the base. When the stirring device is used for stirring, the motor rotates when started and drives the output rod to rotate, the rotating output rod drives the stirring rod to rotate, the rotating stirring rod rotates to mix liquid in the stirring barrel for stirring, and when liquid to be mixed enters the stirring barrel, the lantern ring generates buoyancy on the surface of the liquid through the buoy and the floating ring, so that the liquid floats on the surface of the liquid in the stirring barrel, when the liquid is stirred, the liquid surface cannot generate too large water bloom to generate foam, water bloom and the like when the liquid is mixed, and the liquid stirring efficiency is improved.

Description

Fluid reservoir is joined in marriage in high efficiency stirring

Technical Field

The utility model relates to the technical field of liquid preparation tanks, in particular to a high-efficiency stirring liquid preparation tank.

Background

At present, generally use in production fields such as medicine, chemical industry to join in marriage fluid reservoir stirred material and make the material dissolve or misce bene, this kind of fluid reservoir of joining in marriage of prior art is including joining in marriage the fluid reservoir jar body, joins in marriage the internal stirring rake that is equipped with of fluid reservoir jar, and this kind of stirring rake includes the (mixing) shaft of vertical setting and fixes at the epaxial stirring vane of stirring, and this kind of fluid reservoir of joining in marriage utilizes the setting to be joining in marriage the external motor drive (mixing) shaft rotation of fluid reservoir jar when the operation, and the (mixing) shaft drives stirring vane and rotates, makes the internal material of fluid reservoir jar of joining in marriage turn.

However, the existing liquid preparation tank needs to mix a certain amount of liquid in a manual way before stirring, and the mixed liquid cannot be quantitatively discharged during filling, so that the amount of discharged liquid cannot be quantified during liquid preparation and error in proportion or discharge.

Therefore, the utility model provides a high-efficiency stirring liquid preparation tank to solve the problems in the background art.

Disclosure of Invention

The utility model aims to provide a high-efficiency stirring liquid preparation tank to solve the problems in the background technology.

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

a high-efficiency stirring liquid distribution tank comprises a base, wherein a bearing plate is fixed at the top of the base, a plurality of fixing plates are fixed on one side of the bearing plate, a stirring barrel is fixed on one side of each fixing plate, a quantifying device is arranged below the stirring barrel, the quantifying device comprises a quantifying barrel, the quantifying barrel is fixed on the side wall of the bearing plate through the fixing plates, and a moving mechanism is arranged at the bottom of the base;

the first motor is mounted at the top of the stirring barrel, a mounting frame is mounted on the outer side of the first motor, the first motor is mounted at the top of the stirring barrel through the mounting frame, an output end of the first motor is connected with an output rod, the output rod rotates to penetrate through the stirring barrel, a plurality of stirring plates are fixed on the outer wall of the bottom of the stirring barrel, a plurality of liquid discharging holes and liquid discharging grooves are formed in the side wall of each stirring plate, and a liquid inlet is formed in one side of the first motor and connected to the top of the stirring barrel;

a lantern ring is slidably sleeved outside the output rod, a plurality of floating rods are fixed on the outer side wall of the lantern ring, floating rings are installed outside the floating rods, a plurality of floats are installed on the outer side walls of the floating rods, and a blocking net is arranged at the bottom of each floating ring;

the stirring barrel is characterized in that a base plate is fixed to the bottom of the stirring barrel, a plurality of holes are formed in the inner wall of the base plate, connecting pipes are connected to the bottoms of the holes, a quantifying cylinder is penetrated through the bottom of each connecting pipe and located inside the quantifying cylinder, a quantifying plate is arranged on the outer wall of each connecting pipe in a sealing sliding mode, and a first electromagnetic valve is installed on the outer side of each connecting pipe.

As a further scheme of the utility model, the quantitative device also comprises a quantitative plate, the quantitative plate is positioned in the quantitative cylinder, and the inner wall of the quantitative plate is provided with a hole and a nut.

As a further scheme of the utility model, a screw rod is arranged in the nut, the top end of the screw rod rotatably penetrates through the quantifying cylinder and is connected with a second motor, an installation plate is arranged on one side of the second motor, the second motor is arranged on the top wall of the quantifying cylinder through the installation plate, a support plate is rotatably arranged at the bottom end of the screw rod, and the support plate is arranged on the inner side wall of the quantifying cylinder.

As a further proposal of the utility model, the quantitative device also comprises an exhaust valve which is arranged on the inner wall of the quantitative plate, the top of the exhaust valve is connected with a telescopic pipe, and the top of the telescopic pipe is connected with the outer side of the quantitative cylinder.

As a further scheme of the utility model, the quantitative device further comprises a first observation plate, the first observation plate is arranged on the quantitative cylinder, a first scale is carved on the surface of the first observation plate, a sliding groove is formed in the inner side of the quantitative cylinder, a sliding block is arranged in the sliding groove in a sliding mode, and the sliding block is fixed on the side wall of the quantitative plate.

As a further scheme of the utility model, the bottom of the quantitative cylinder is connected with a blanking pipe, the outer side of the blanking pipe is provided with a second electromagnetic valve, the bottom of one end of the blanking pipe is connected with a blanking head, and a hand valve is arranged above the blanking head.

As a further scheme of the utility model, the moving mechanism comprises a plurality of shock absorbers, the tops of the shock absorbers are all arranged on the bottom wall of the base, the bottom ends of the shock absorbers are provided with moving plates, and the bottom walls of the moving plates are provided with a plurality of moving wheels.

As a further scheme of the utility model, the top end of the liquid inlet is connected with a material conveying pipe, the bottom end of the material conveying pipe is connected with a plurality of material conveying pumps, and one side of each material conveying pump is connected with a material conveying box.

As a further scheme of the utility model, one side of the material conveying box is provided with a groove and is provided with a second observation plate, and the outer walls of the two sides of the second observation plate are provided with a second dial gauge in a carving way.

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

1. when the stirring device is used for stirring, liquid to be mixed is discharged into the stirring barrel from the liquid inlet, the motor I is started through the external controller, the motor I rotates and drives the output rod to rotate when being started, the rotating output rod drives the stirring plate to rotate, when the stirring device is rotated for stirring, the liquid to be mixed is discharged into the stirring barrel from the liquid inlet, the motor I is started through the external controller, the motor I rotates and drives the output rod to rotate when being started, the rotating output rod drives the stirring rod to rotate, the rotating stirring rod rotates to mix and stir the liquid in the stirring barrel, when the liquid to be mixed enters the stirring barrel, the lantern ring generates buoyancy on the liquid surface through the float and the floating ring, so that the liquid floats on the surface of the liquid in the stirring barrel, when the liquid is stirred, the liquid surface cannot generate too large water splash to cause the liquid to be mixed, foam is generated, The conditions of water splash and the like occur, and the efficiency of stirring liquid is accelerated.

2. When the quantitative liquid discharging device is used for quantitatively discharging liquid, the motor II is started through the external controller, the motor II rotates and drives the screw rod to rotate when being started, the rotating screw rod is meshed with the nut in the quantitative plate, so that the quantitative plate moves in the chute through the sliding block, the capacity in the quantitative cylinder is adjusted, the liquid discharging amount is conveniently adjusted, when the electromagnetic valve is opened, the liquid in the stirring barrel is discharged into the quantitative cylinder through the connecting pipe, and then the electromagnetic valves II are sequentially opened, so that quantitative discharging is conveniently performed.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of a high-efficiency stirring liquid preparation tank.

FIG. 2 is a schematic view of the internal structure of a quantitative cylinder in an embodiment of a high-efficiency stirring liquid-dispensing tank.

Fig. 3 is a schematic view of the internal structure of a stirring barrel in an embodiment of a high-efficiency stirring liquid-dispensing tank.

FIG. 4 is a schematic view of a floating ring of an embodiment of the high-efficiency stirring liquid-dispensing tank.

FIG. 5 is a schematic structural view of the first embodiment A of the high-efficiency stirring liquid-dispensing tank.

FIG. 6 is a schematic structural diagram of a high-efficiency stirring liquid preparation tank in the first embodiment B.

FIG. 7 is a schematic view of a second material delivery box of an embodiment in a high-efficiency stirring liquid-dispensing tank.

In the figure: 1. a base; 2. a bearing plate; 3. a fixing plate; 4. a stirring barrel; 5. a first motor; 6. a mounting frame; 7. a liquid inlet; 8. an output rod; 9. a stirring plate; 10. a drain hole;

11. a liquid discharge tank; 12. a chassis; 13. a collar; 14. a float rod; 15. a floating ring; 16. floating; 17. blocking; 18. a connecting pipe; 19. a first electromagnetic valve; 20. a dosing cylinder;

21. a first observation plate; 22. a first dial gauge; 23. a quantitative plate; 24. a nut; 25. a screw rod; 26. a second motor; 27. mounting a plate; 28. a support plate; 29. a slider; 30. a chute;

31. a discharging pipe; 32. a second electromagnetic valve; 33. blanking head; 34. a hand valve; 35. a shock absorber; 36. moving the plate; 37. a moving wheel;

38. a delivery pipe; 39. a delivery pump; 40. a material conveying box; 41. a second observation plate; 42. a second dial gauge; 43. an exhaust valve; 44. A telescopic tube.

Detailed Description

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

The first embodiment is as follows: referring to fig. 1 to 6, in an embodiment of the present invention, a high-efficiency stirring liquid preparation tank includes a base 1, a bearing plate 2 is fixed on a top of the base 1, a plurality of fixing plates 3 are fixed on one side of the bearing plate 2, a stirring barrel 4 is fixed on one side of the fixing plates 3, a quantifying device is arranged below the stirring barrel 4, the quantifying device includes a quantifying barrel 20, the quantifying barrel 20 is fixed on a side wall of the bearing plate 2 through the fixing plates 3, and a moving mechanism is arranged at a bottom of the base 1;

a first motor 5 is mounted at the top of the stirring barrel 4, an installation frame 6 is mounted on the outer side of the first motor 5, the first motor 5 is mounted at the top of the stirring barrel 4 through the installation frame 6, an output rod 8 is connected to the output end of the first motor 5, the output rod 8 rotatably penetrates through the stirring barrel 4, a plurality of stirring plates 9 are fixed on the outer wall of the bottom of the stirring barrel, a plurality of liquid discharging holes 10 and liquid discharging grooves 11 are formed in the side wall of each stirring plate 9, a liquid inlet 7 is formed in one side of the first motor 5, and the liquid inlet 7 is connected to the top of the stirring barrel 4;

a lantern ring 13 is slidably sleeved outside the output rod 8, a plurality of floating rods 14 are fixed on the outer side wall of the lantern ring 13, floating rings 15 are installed outside the floating rods 14, a plurality of floats 16 are installed on the outer side walls of the floating rods 14, and blocking nets 17 are arranged at the bottoms of the floating rings 15;

a base plate 12 is fixed at the bottom of the stirring barrel 4, a plurality of holes are formed in the inner wall of the base plate 12, connecting pipes 18 are connected to the bottoms of the holes, the bottom of each connecting pipe 18 penetrates through the quantifying barrel 20 and is located inside the quantifying barrel 20, a quantifying plate 23 is arranged on the outer wall of each connecting pipe 18 in a sealing sliding mode, and a first electromagnetic valve 19 is installed on the outer side of each connecting pipe 18;

the quantifying device further comprises a quantifying plate 23, the quantifying plate 23 is located inside the quantifying cylinder 20, a hole is formed in the inner wall of the quantifying plate 23, a nut 24 is installed on the inner wall of the quantifying plate 23, a lead screw 25 is arranged in the nut 24, the top end of the lead screw 25 rotatably penetrates through the quantifying cylinder 20 and is connected with a second motor 26, an installation plate 27 is installed on one side of the second motor 26, the second motor 26 is installed on the top wall of the quantifying cylinder 20 through the installation plate 27, a support plate 28 is rotatably installed at the bottom end of the lead screw 25, and the support plate 28 is installed on the inner side wall of the quantifying cylinder 20;

the quantitative device also comprises an exhaust valve 43, the exhaust valve 43 is arranged on the inner wall of the quantitative plate 23, the top of the exhaust valve 43 is connected with a telescopic pipe 44, and the top of the telescopic pipe 44 is connected with the outer side of the quantitative cylinder 20;

the quantifying device further comprises an observation plate I21, the observation plate I21 is installed on the quantifying cylinder 20, a scale meter I22 is carved on the surface of the observation plate I21, a sliding groove 30 is formed in the inner side of the quantifying cylinder 20, a sliding block 29 is arranged in the sliding groove 30 in a sliding mode, and the sliding block 29 is fixed on the side wall of the quantifying plate 23;

the bottom of the quantitative cylinder 20 is connected with a blanking pipe 31, a second electromagnetic valve 32 is installed on the outer side of the blanking pipe 31, the bottom of one end of the blanking pipe 31 is connected with a blanking head 33, and a hand valve 34 is installed above the blanking head 33;

the moving mechanism comprises a plurality of shock absorbers 35, the tops of the shock absorbers 35 are all installed on the bottom wall of the base 1, a moving plate 36 is installed at the bottom ends of the shock absorbers 35, and a plurality of moving wheels 37 are installed on the bottom wall of the moving plate 36;

during stirring, liquid to be mixed is discharged into the stirring barrel 4 from the liquid inlet 7, the motor I5 is started through the external controller, the motor I5 rotates and drives the output rod 8 to rotate when being started, the rotating output rod 8 drives the stirring plate 9 to rotate, the liquid to be mixed is discharged into the stirring barrel 4 from the liquid inlet 7 during rotating stirring, the motor I5 is started through the external controller, the motor I5 rotates and drives the output rod 8 to rotate when being started, the rotating output rod 8 drives the stirring rod 9 to rotate, the rotating stirring rod 9 rotates to mix and stir the liquid in the stirring barrel 4, when the liquid to be mixed enters the stirring barrel 4, the lantern ring 13 generates buoyancy on the liquid surface through the floating ring 16 and the floating ring 15, so that the liquid floats on the surface of the liquid in the stirring barrel 4, when the liquid is stirred, foam is generated when the liquid surface cannot generate too large water splash to cause the liquid to be mixed, The conditions of water splash and the like occur, and the efficiency of stirring liquid is accelerated.

During quantitative flowing back, through external controller starter motor two 26, motor two 26 rotates and drives lead screw 25 and rotates when starting, the nut 24 in the pivoted lead screw 25 meshing quantitative board 23, thereby make quantitative board 23 pass through slider 29 and move in 30 insides of spout, adjust the inside capacity of a quantitative section of thick bamboo 20, conveniently adjust the volume of flowing back, and when opening solenoid valve one 19, with the inside liquid of agitator 4 inside through connecting pipe 18 arrange into quantitative section of thick bamboo 20 inside, open solenoid valve two 32 again in proper order, conveniently carry out the ration ejection of compact.

Example two: referring to fig. 7, in the embodiment of the present invention, as a further improvement of the previous embodiment, a specific difference is that a top end of the liquid inlet 7 is connected to a material conveying pipe 38, a plurality of material conveying pumps 39 are connected to a bottom end of the material conveying pipe 38, one side of each material conveying pump 39 is connected to a material conveying box 40, one side of each material conveying box 40 is slotted and provided with a second observation plate 41, and outer walls of two sides of each second observation plate 41 are provided with a second scale 42;

during quantitative feeding, liquid needing to be mixed and stirred is guided into the material conveying box 40, the amount of the mixed liquid is observed according to the second scale gauge 42 of the second observation plate 41 of the material conveying box 40, the material conveying pump 39 is started through the external controller, and the liquid in the material conveying box 40 is discharged into the stirring barrel 4 through the material conveying pipe 38 when the material conveying pump 39 is started, so that quantitative stirring is convenient to carry out.

9 rotate and mix the liquid in agitator 4 and stir, and when the liquid that needs to mix gets into agitator 4 inside, lantern ring 13 produces buoyancy at the liquid surface through cursory 16 and floating collar 15 to float on the surface of agitator 4 inside liquid, when liquid stirs, make the liquid surface can not produce the too big splash and produce the condition such as foam, splash and take place when leading to liquid to mix for the efficiency of stirring liquid.

During quantitative flowing back, through external controller starter motor two 26, motor two 26 rotates and drives lead screw 25 and rotates when starting, the nut 24 in the pivoted lead screw 25 meshing quantitative board 23, thereby make quantitative board 23 pass through slider 29 and move in 30 insides of spout, adjust the inside capacity of a quantitative section of thick bamboo 20, conveniently adjust the volume of flowing back, and when opening solenoid valve one 19, with the inside liquid of agitator 4 inside through connecting pipe 18 arrange into quantitative section of thick bamboo 20 inside, open solenoid valve two 32 again in proper order, conveniently carry out the ration ejection of compact.

Example two: referring to fig. 7, in the embodiment of the present invention, as a further improvement of the previous embodiment, a specific difference is that,

during quantitative feeding, liquid needing to be mixed and stirred is guided into the material conveying box 40, the amount of the mixed liquid is observed according to the second scale gauge 42 of the second observation plate 41 of the material conveying box 40, the material conveying pump 39 is started through the external controller, and the liquid in the material conveying box 40 is discharged into the stirring barrel 4 through the material conveying pipe 38 when the material conveying pump 39 is started, so that quantitative stirring is convenient to carry out.

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

Claims (9)

1. A high-efficiency stirring liquid mixing tank comprises a base (1) and is characterized in that a bearing plate (2) is fixed to the top of the base (1), a plurality of fixing plates (3) are fixed to one side of the bearing plate (2), a stirring barrel (4) is fixed to one side of each fixing plate (3), a quantifying device is arranged below each stirring barrel (4), the quantifying device comprises a quantifying barrel (20), the quantifying barrel (20) is fixed to the side wall of the bearing plate (2) through the fixing plates (3), and a moving mechanism is arranged at the bottom of the base (1);

a first motor (5) is installed at the top of the stirring barrel (4), an installation frame (6) is installed on the outer side of the first motor (5), the first motor (5) is installed at the top of the stirring barrel (4) through the installation frame (6), an output end of the first motor (5) is connected with an output rod (8), the output rod (8) penetrates through the stirring barrel (4) in a rotating mode, a plurality of stirring plates (9) are fixed on the outer wall of the bottom of the stirring barrel, a plurality of liquid discharging holes (10) and liquid discharging grooves (11) are formed in the side wall of each stirring plate (9), a liquid inlet (7) is formed in one side of the first motor (5), and the liquid inlet (7) is connected to the top of the stirring barrel (4);

a lantern ring (13) is slidably sleeved on the outer side of the output rod (8), a plurality of floating rods (14) are fixed on the outer side wall of the lantern ring (13), floating rings (15) are installed on the outer sides of the floating rods (14), a plurality of floats (16) are installed on the outer side walls of the floating rods (14), and a blocking net (17) is arranged at the bottom of each floating ring (15);

the quantitative mixing device is characterized in that a base plate (12) is fixed to the bottom of the mixing barrel (4), a plurality of holes are formed in the inner wall of the base plate (12), connecting pipes (18) are connected to the bottoms of the holes, the bottom of each connecting pipe (18) penetrates through a quantitative barrel (20) and is located inside the quantitative barrel (20), a quantitative plate (23) is arranged on the outer wall of each connecting pipe (18) in a sealing sliding mode, and a first electromagnetic valve (19) is installed on the outer side of each connecting pipe (18).

2. The high-efficiency stirring liquid preparation tank as claimed in claim 1, wherein the quantifying device further comprises a quantifying plate (23), the quantifying plate (23) is positioned inside the quantifying cylinder (20), and the inner wall of the quantifying plate (23) is provided with an opening and a nut (24).

3. The high-efficiency stirring liquid preparation tank as claimed in claim 2, wherein a screw rod (25) is arranged in the nut (24), the top end of the screw rod (25) rotatably penetrates through the dosing cylinder (20) and is connected with a second motor (26), a mounting plate (27) is mounted on one side of the second motor (26), the second motor (26) is mounted on the top wall of the dosing cylinder (20) through the mounting plate (27), a support plate (28) is rotatably mounted at the bottom end of the screw rod (25), and the support plate (28) is mounted on the inner side wall of the dosing cylinder (20).

4. The high-efficiency stirring liquid preparation tank according to claim 1, wherein the quantitative device further comprises an exhaust valve (43), the exhaust valve (43) is mounted on the inner wall of the quantitative plate (23), a telescopic pipe (44) is connected to the top of the exhaust valve (43), and the top of the telescopic pipe (44) is connected to the outer side of the quantitative cylinder (20).

5. The high-efficiency stirring liquid preparation tank as claimed in claim 1, wherein the quantifying device further comprises a first observation plate (21), the first observation plate (21) is mounted on the quantifying cylinder (20), a first scale (22) is engraved on the surface of the first observation plate, a sliding groove (30) is formed in the inner side of the quantifying cylinder (20), a sliding block (29) is slidably arranged in the sliding groove (30), and the sliding block (29) is fixed on the side wall of the quantifying plate (23).

6. The high-efficiency stirring liquid preparation tank as claimed in claim 1, wherein a blanking pipe (31) is connected to the bottom of the dosing cylinder (20), a second electromagnetic valve (32) is installed on the outer side of the blanking pipe (31), a blanking head (33) is connected to the bottom of one end of the blanking pipe (31), and a hand valve (34) is installed above the blanking head (33).

7. The high-efficiency stirring liquid preparation tank as claimed in claim 1, wherein the moving mechanism comprises a plurality of shock absorbers (35), the tops of the shock absorbers (35) are all mounted on the bottom wall of the base (1), a moving plate (36) is mounted at the bottom ends of the shock absorbers (35), and a plurality of moving wheels (37) are mounted on the bottom wall of the moving plate (36).

8. The high-efficiency stirring liquid-mixing tank as claimed in claim 1, wherein the top end of the liquid inlet (7) is connected with a material conveying pipe (38), the bottom end of the material conveying pipe (38) is connected with a plurality of material conveying pumps (39), and one side of each material conveying pump (39) is connected with a material conveying box (40).

9. The high-efficiency stirring liquid mixing tank as claimed in claim 8, wherein one side of the material conveying box (40) is grooved and provided with a second observation plate (41), and the outer walls of the two sides of the second observation plate (41) are provided with a second scale (42) in a carving way.

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