CN114904476A - High-efficient reation kettle of ageing resistance thick liquids - Google Patents

Abstract

The invention relates to an anti-aging slurry high-efficiency reaction kettle, which relates to the technical field of anti-aging slurry production equipment.A feeding part is arranged on a support, the outlet end of the feeding part is arranged in a stirring kettle, a stirring part is arranged on the support, the stirring part is inserted in the stirring kettle, a driving part is arranged on the support, and the driving part is in transmission arrangement with the feeding part and the stirring part; according to the transmission structure of the planetary gear set, different power systems are driven by using a group of motors, and then the switching of the power systems is realized by switching the transmission mode, so that the number of standby systems of the equipment is reduced, and the energy consumption of the equipment during working is reduced.

Description

High-efficient reation kettle of ageing resistance thick liquids

Technical Field

The invention relates to the technical field of anti-aging slurry production equipment, in particular to an anti-aging slurry efficient reaction kettle.

Background

Slurry material adds the processing of stirring in getting into the stirred tank through adding dry material and wet material when production man-hour, and make the material react in the stirred tank, and then make finished product material, stirred tank among the prior art, its charging system and mixing system adopt different drive structure, thereby make this type of stirred tank have the drive structure more than two sets of, this makes equipment during operation have drive system's standby phenomenon, thereby increased the energy consumption of equipment, make material production energy consumption great, and too much power consumption is unfavorable for protecting natural environment in the production activity, to the above-mentioned problem, need optimize the driving system of stirred tank structure.

Disclosure of Invention

Aiming at the defects and shortcomings of the prior art, the invention provides the anti-aging slurry high-efficiency reaction kettle, which utilizes a group of motors to drive different power systems through a transmission structure of a planetary gear set, further realizes the switching of the power systems by switching a transmission mode, reduces the number of equipment standby systems and reduces the working energy consumption of the equipment.

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

it contains base, support, stirred tank, and wherein stirred tank, support are all fixed to be set up on the base, and the support adjustable shelf establishes the top at stirred tank, and it still contains:

the feeding part is arranged on the bracket, and the outlet end of the feeding part is arranged in the stirring kettle;

the stirring piece is arranged on the support and is inserted into the stirring kettle;

the driving piece is arranged on the bracket and is in transmission arrangement with the feeding piece and the stirring piece;

when materials are processed, firstly, dry materials are put into a stirring kettle, then wet materials are added through a feeding piece, then stirring is carried out through a stirring piece, and further, slurry is prepared through reaction; when putting in wet material, through the work of driving piece drive material loading, when stirring, through the work of driving piece drive stirring.

Preferably, the driving member comprises:

the driving motor is fixedly arranged on the bracket;

the driving shaft is fixedly arranged on an output shaft of the driving motor;

the driving gear is sleeved and fixed on the driving shaft;

the planet carrier is sleeved on the driving shaft in a rotating mode through a sealing bearing and is arranged above the driving gear;

the planetary gear is rotationally arranged on the planet carrier through a rotating shaft, is wound around the periphery of the driving gear and is meshed with the driving gear;

the driven gear ring is arranged on the driving shaft in a rotating mode through a sealing bearing, the driven gear ring is sleeved on the periphery of the planetary gear, and the driven gear ring is meshed with the planetary gear;

at the driving piece during operation, driving motor drives the drive shaft rotatory, and the drive shaft drives drive gear rotatory, and drive gear drives planetary gear rotatory, and when fixing the planet carrier, drive gear rotation, and then it is rotatory to drive driven ring gear, and when fixing driven ring gear, planetary gear rotation and the revolution of drive gear pair winding, and then it is rotatory to drive the planet carrier.

Preferably, the feeding member comprises:

the feeding sleeve is sleeved on the driving shaft in a screwing mode through a sealing bearing, the feeding sleeve is fixedly arranged on the bracket, and an opening is formed in the lower end of the feeding sleeve;

the guide sleeve is sleeved on the driving shaft in a screwing manner through a sealing bearing, the guide sleeve is fixedly arranged on the upper surface of the planet carrier, an opening is formed in the upper end of the guide sleeve, and the upper end of the guide sleeve is sleeved on the lower port of the feeding sleeve in a screwing manner through the bearing;

the feeding frame is fixedly arranged on the outer side wall of the guide sleeve;

the guide pipe is fixedly arranged on the lower side wall of the feeding frame, and the inlet end of the guide pipe is inserted and fixed on the side wall of the guide sleeve;

the feeding pipe is inserted and fixed on the side plate of the feeding sleeve;

when wet material loading, be connected the material loading pipe with outside feeding equipment, and then through the material loading pipe feed, wet material passes through material loading cover, uide bushing, finally flows out from the uide bushing, and it is rotatory to drive the uide bushing through the driving piece this moment, and then the uide bushing drives the material loading frame rotatory, and the material loading frame drives the uide bushing and rotates, will wet in the material evenly sends into stirred tank.

Preferably, the stirring member comprises:

the stirring seat is fixedly arranged on the lower side wall of the driven gear ring;

the stirring roller is fixedly arranged on the lower side wall of the stirring seat and extends into the stirring kettle;

the stirring frame is fixedly arranged on the side wall of the stirring seat and is arranged below the guide pipe;

when stirring, it is rotatory to drive the stirring seat through the driving piece, and then the stirring seat drives the stirring roller rotation, and the stirring roller stirs the interior material of stirred tank.

Preferably, a slot is fixedly arranged on the inner side wall of the stirring kettle, a baffle is movably arranged in the slot, the baffle is matched with the stirring frame, a notch is formed in the baffle, and the notch is matched with the feeding frame;

when the feeding part works, the baffle plate is inserted into the slot, the notch groove is aligned with the feeding frame, the baffle plate blocks the stirring frame, the driven gear ring drives the stirring frame to rotate through the stirring seat, the stirring frame stops rotating after abutting against the baffle plate, namely the driven gear ring stops rotating, the planet carrier rotates at the moment, the planet carrier drives the feeding frame to rotate through the guide sleeve, and the stirring frame rotates and penetrates through the notch groove; when the stirring machine works, the baffle is pulled upwards, the baffle blocks the motion path of the feeding frame, the planet carrier stops rotating, the driven gear ring rotates, and the stirring seat rotates.

Preferably, a supporting spring is fixedly arranged on the lower inner side wall of the slot, and the upper end of the supporting spring movably abuts against the lower side edge of the baffle;

the baffle is pushed upwards by the supporting spring, so that the baffle is separated from the motion path of the stirring frame, the baffle is blocked on the advancing path of the feeding frame, and when the stirring frame is blocked by the baffle, the baffle is pressed downwards.

Compared with the prior art, the invention has the beneficial effects that:

according to the transmission mechanism, a group of motors are utilized to drive different power systems through the transmission structure of the planetary gear set, and then the switching of the power systems is realized by switching the transmission mode, so that the number of standby systems of the equipment is reduced, and the energy consumption of the equipment during working is reduced.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a sectional view a-a in fig. 2.

Fig. 4 is an enlarged view of a portion B in fig. 3.

Fig. 5 is a schematic view of the driving member of the present invention.

Description of reference numerals:

the device comprises a base 1, a support 2, a stirring kettle 3, a feeding part 4, a feeding sleeve 4-1, a guide sleeve 4-2, a feeding frame 4-3, a guide pipe 4-4, a feeding pipe 4-5, a stirring part 5, a stirring seat 5-1, a stirring roller 5-2, a stirring frame 5-3, a driving part 6, a driving motor 6-1, a driving shaft 6-2, a driving gear 6-3, a planet carrier 6-4, a planet gear 6-5, a driven gear ring 6-6, a slot 7, a baffle 8, a slot-lacking 9 and a supporting spring 10.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings, and the preferred embodiments in the description are only examples, and all other embodiments obtained by those skilled in the art without any inventive work belong to the protection scope of the present invention.

Example 1:

as shown in fig. 1, 2 and 3, the present embodiment includes a base 1, a support 2 and a stirring kettle 3, wherein the stirring kettle 3 and the support 2 are both fixed on the base 1 by screws, and the support 2 is movably erected above the stirring kettle 3, and it further includes:

the feeding part 4 is arranged on the bracket 2, and the outlet end of the feeding part 4 is arranged in the stirring kettle 3;

the stirring piece 5 is arranged on the support 2, and the stirring piece 5 is inserted into the stirring kettle 3;

the driving piece 6 is arranged on the bracket 2, and the driving piece 6 is in transmission arrangement with the feeding piece 4 and the stirring piece 5;

by adopting the design scheme, when materials are processed, firstly dry materials are put into the stirring kettle 3, then wet materials are added through the feeding piece 4, then stirring is carried out through the stirring piece 5, and further reaction is carried out to prepare slurry; when wet materials are put in, the feeding part 4 is driven to work through the driving part 6, and when stirring is carried out, the stirring part 5 is driven to work through the driving part 6.

Example 2:

as shown in fig. 3 and 5, in the above embodiment 1, the driving member 6 includes:

the driving motor 6-1 is fixed on the bracket 2 through a screw;

the driving shaft 6-2, the said driving shaft 6-2 is fixedly arranged on output shaft of the driving motor 6-1;

the driving gear 6-3 is sleeved and fixed on the driving shaft 6-2;

the planet carrier 6-4 is sleeved on the driving shaft 6-2 in a screwing manner through a sealing bearing, and the planet carrier 6-4 is arranged above the driving gear 6-3;

the planet gear 6-5 is rotatably arranged on the planet carrier 6-4 through a rotating shaft, the planet gear 6-5 is wound around the driving gear 6-3, and the planet gear 6-5 is meshed with the driving gear 6-3;

the driven gear ring 6-6 is arranged on the driving shaft 6-2 in a rotating mode through a sealed bearing, the driven gear ring 6-6 is sleeved on the periphery of the planetary gear 6-5, and the driven gear ring 6-6 is meshed with the planetary gear 6-5;

by adopting the design scheme, when the driving piece 6 works, the driving motor 6-1 drives the driving shaft 6-2 to rotate, the driving shaft 6-2 drives the driving gear 6-3 to rotate, the driving gear 6-3 drives the planetary gear 6-5 to rotate, when the planet carrier 6-4 is fixed, the driving gear 6-3 rotates, and then the driven gear ring 6-6 is driven to rotate, and when the driven gear ring 6-6 is fixed, the planetary gear 6-5 rotates and revolves around the driving gear 6-3, and then the planet carrier 6-4 is driven to rotate.

Example 3:

as shown in fig. 3, on the basis of the above embodiment 2, the feeding member 4 includes:

the feeding sleeve 4-1 is connected with the driving shaft 6-2 in a rotating mode through a sealing bearing in a sleeved mode, the feeding sleeve 4-1 is fixed on the support 2 through screws, and an opening is formed in the lower end of the feeding sleeve 4-1;

the guide sleeve 4-2 is sleeved on the driving shaft 6-2 in a screwing manner through a sealing bearing, the guide sleeve 4-2 is fixed on the upper surface of the planet carrier 6-4 through a screw, an opening is formed in the upper end of the guide sleeve 4-2, and the upper end of the guide sleeve 4-2 is sleeved on the lower port of the feeding sleeve 4-1 in a screwing manner through a bearing;

the feeding frame 4-3 is fixed on the outer side wall of the guide sleeve 4-2 through screws, and the feeding frame 4-3 is fixed on the outer side wall of the guide sleeve 4-2 through screws;

the guide pipe 4-4 is fixed on the lower side wall of the feeding frame 4-3 through screws, and the inlet end of the guide pipe 4-4 is inserted and fixed on the side wall of the guide sleeve 4-2;

the feeding pipe 4-5 is inserted and fixed on a side plate of the feeding sleeve 4-1;

by adopting the design scheme, when wet materials are fed, the feeding pipe 4-5 is connected with external feeding equipment, the materials are fed through the feeding pipe 4-5, the wet materials pass through the feeding sleeve 4-1 and the guide sleeve 4-2 and finally flow out of the guide pipe 4-4, the guide sleeve 4-2 is driven to rotate by the driving piece 6, the feeding frame 4-3 is driven to rotate by the guide sleeve 4-2, the feeding frame 4-3 drives the guide pipe 4-4 to rotate, and the wet materials are uniformly fed into the stirring kettle 3.

Example 4:

as shown in fig. 2 and 3, in addition to the above embodiment 3, the stirring member 5 includes:

the stirring seat 5-1 is fixed on the lower side wall of the driven gear ring 6-6 through a screw, and the stirring seat 5-1 is fixed on the lower side wall of the driven gear ring 6-6 through a screw;

the stirring roller 5-2 is fixed on the lower side wall of the stirring seat 5-1 through a screw, and the stirring roller 5-2 is arranged in the stirring kettle 3 in an extending manner;

the stirring frame 5-3 is fixed on the side wall of the stirring seat 5-1 through screws, and the stirring frame 5-3 is arranged below the guide pipe 4-4;

by adopting the design scheme, when stirring, the driving piece 6 drives the stirring seat 5-1 to rotate, then the stirring seat 5-1 drives the stirring roller 5-2 to rotate, and the stirring roller 5-2 stirs the materials in the stirring kettle 3.

Example 5:

as shown in fig. 3 and 4, on the basis of the above embodiment 4, the inner side wall of the stirring kettle 3 is fixed with a slot 7 through a screw, a baffle 8 is movably arranged in the slot 7, the baffle 8 is arranged in cooperation with the stirring frame 5-3, the baffle 8 is provided with a notch 9, and the notch 9 is arranged in cooperation with the feeding frame 4-3;

by adopting the design scheme, when the feeding part 4 works, the baffle plate 8 is inserted into the slot 7, the notch 9 is aligned with the feeding frame 4-3, the baffle plate 8 blocks the stirring frame 5-3, when the driven gear ring 6-6 drives the stirring frame 5-3 to rotate through the stirring seat 5-1, and the stirring frame 5-3 is abutted against the baffle plate 8, the stirring frame 5-3 stops rotating, namely the driven gear ring 6-6 stops rotating, at the moment, the planet carrier 6-4 rotates, and the planet carrier 6-4 drives the feeding frame 4-3 to rotate through the guide sleeve 4-2, so that the stirring frame 5-3 rotates and penetrates through the notch 9; when the stirring machine works, the baffle plate 8 is pulled upwards, the baffle plate 8 blocks the motion path of the feeding frame 4-3, the planet carrier 6-4 stops rotating, the driven gear ring 6-6 rotates, and the stirring seat 5-1 rotates.

Example 6:

as shown in fig. 3 and 4, on the basis of the above embodiment 5, the supporting spring 10 is fixed on the lower inner side wall of the slot 7 through a screw, and the upper end of the supporting spring 10 is movably abutted against the lower side edge of the baffle plate 8;

by adopting the design scheme, the baffle 8 is pushed upwards by the supporting spring 10, then the baffle 8 is separated from the movement path of the stirring frame 5-3, then the baffle 8 is blocked on the advancing path of the feeding frame 4-3, and when the stirring frame 5-3 is blocked by the baffle 8, the baffle 8 is pressed downwards.

By adopting the technical scheme disclosed by the invention, the following effects can be realized:

when the materials are produced, the materials are added into the feeding sleeve 4-1 through the feeding pipe 4-5, then the material enters the guide pipe 4-4 through the guide sleeve 4-2, is discharged through the guide pipe 4-4 and is added into the stirring kettle 3, at the moment, the baffle 8 is pressed down, the notch 9 is aligned with the feeding rack 4-3, then the driving motor 6-1 is started, the driving motor 6-1 drives the driving shaft 6-2 to rotate, the baffle 8 blocks the stirring frame 5-3, the driven gear ring 6-6 stops rotating, the planet carrier 6-4 rotates and drives the guide sleeve 4-2 to rotate, the guide sleeve 4-2 drives the feeding rack 4-3 to rotate, the feeding frame 4-3 drives the guide pipe 4-4 to rotate, and the guide pipe 4-4 uniformly sprays the materials in the stirring kettle 3; when materials are stirred and mixed, the baffle plate 8 is loosened, the baffle plate 8 is separated from the stirring frame 5-3, the baffle plate 8 blocks the feeding frame 4-3, the guide sleeve 4-2 stops rotating, namely the planet carrier 6-4 stops rotating, the driven gear ring 6-6 rotates and drives the stirring seat 5-1 to rotate, and the stirring seat 5-1 drives the stirring roller 5-2 to rotate so as to stir the materials.

By adopting the technical scheme, the following technical advantages can be achieved:

driving motor carries out speed reduction transmission through the planetary gear structure, and then sets up the work or material rest on the planet carrier, sets up stirring seat and material rest on driven ring gear, goes up work or material rest, stirring frame stop rotation between them through the restriction to make another this rotate, and then realize the mode of material loading or stirring but change, equipment adopts one set of actuating system, carries out the drive of different functions through preventing of switching the mode, and then reduces the energy consumption of equipment.

It will be appreciated by those skilled in the art that modifications and equivalents may be made to the embodiments described above, and that various modifications, equivalents, improvements and the like may be made without departing from the spirit and scope of the invention.

Claims (6)

1. An anti-aging slurry high-efficiency reaction kettle comprises a base (1), a support (2) and a stirring kettle (3), wherein the stirring kettle (3) and the support (2) are both fixedly arranged on the base (1), and the support (2) is movably erected above the stirring kettle (3); it is characterized in that it also comprises:

the feeding part (4) is arranged on the support (2), and the outlet end of the feeding part (4) is arranged in the stirring kettle (3);

the stirring piece (5) is arranged on the support (2), and the stirring piece (5) is inserted into the stirring kettle (3);

the driving piece (6) is arranged on the bracket (2), and the driving piece (6) is in transmission arrangement with the feeding piece (4) and the stirring piece (5);

when materials are processed, firstly, dry materials are put into a stirring kettle (3), then wet materials are added through a feeding piece (4), then stirring is carried out through a stirring piece (5), and further reaction is carried out to prepare slurry; when wet materials are put in, the feeding part (4) is driven to work through the driving part (6), and when stirring is carried out, the stirring part (5) is driven to work through the driving part (6).

2. The anti-aging slurry high-efficiency reaction kettle according to claim 1, is characterized in that: the driving member (6) comprises:

the driving motor (6-1), the said driving motor (6-1) is fixedly arranged on support (2);

the driving shaft (6-2), the said driving shaft (6-2) is fixedly set up on the output shaft of the driving motor (6-1);

the driving gear (6-3), the said driving gear (6-3) is fixed on drive shaft (6-2) in the cover;

the planet carrier (6-4) is sleeved on the driving shaft (6-2) in a screwing manner through a sealing bearing, and the planet carrier (6-4) is arranged above the driving gear (6-3);

the planet gear (6-5) is rotatably arranged on the planet carrier (6-4) through a rotating shaft, the planet gear (6-5) is wound around the driving gear (6-3), and the planet gear (6-5) is meshed with the driving gear (6-3);

the driven gear ring (6-6) is rotatably arranged on the driving shaft (6-2) through a sealing bearing, the driven gear ring (6-6) is sleeved on the periphery of the planetary gear (6-5), and the driven gear ring (6-6) is meshed with the planetary gear (6-5);

when the driving piece (6) works, the driving motor (6-1) drives the driving shaft (6-2) to rotate, the driving shaft (6-2) drives the driving gear (6-3) to rotate, the driving gear (6-3) drives the planetary gear (6-5) to rotate, when the planet carrier (6-4) is fixed, the driving gear (6-3) rotates to drive the driven gear ring (6-6) to rotate, and when the driven gear ring (6-6) is fixed, the planetary gear (6-5) rotates and revolves around the driving gear (6-3) to drive the planet carrier (6-4) to rotate.

3. The anti-aging slurry high-efficiency reaction kettle according to claim 2, characterized in that: the feeding part (4) comprises:

the feeding sleeve (4-1) is sleeved on the driving shaft (6-2) in a screwing manner through a sealing bearing, the feeding sleeve (4-1) is fixedly arranged on the bracket (2), and the lower end of the feeding sleeve (4-1) is provided with an opening;

the guide sleeve (4-2) is sleeved on the driving shaft (6-2) in a screwing manner through a sealing bearing, the guide sleeve (4-2) is fixedly arranged on the upper surface of the planet carrier (6-4), an opening is formed in the upper end of the guide sleeve (4-2), and the upper end of the guide sleeve (4-2) is sleeved on the lower port of the feeding sleeve (4-1) in a screwing manner through a bearing;

the feeding frame (4-3), the feeding frame (4-3) is fixedly arranged on the outer side wall of the guide sleeve (4-2);

the guide pipe (4-4) is fixedly arranged on the lower side wall of the upper material rack (4-3), and the inlet end of the guide pipe (4-4) is inserted and fixed on the side wall of the guide sleeve (4-2);

the feeding pipe (4-5) is inserted and fixed on a side plate of the feeding sleeve (4-1);

when wet materials are fed, the feeding pipe (4-5) is connected with external feeding equipment, the materials are fed through the feeding pipe (4-5), the wet materials finally flow out of the guide pipe (4-4) through the feeding sleeve (4-1) and the guide sleeve (4-2), the guide sleeve (4-2) is driven to rotate through the driving piece (6), the feeding frame (4-3) is driven to rotate through the guide sleeve (4-2), the feeding frame (4-3) drives the guide pipe (4-4) to rotate, and the wet materials are uniformly fed into the stirring kettle (3).

4. The anti-aging slurry high-efficiency reaction kettle according to claim 3, characterized in that: the stirring piece (5) comprises:

the stirring seat (5-1), the stirring seat (5-1) is fixedly arranged on the lower side wall of the driven gear ring (6-6);

the stirring roller (5-2) is fixedly arranged on the lower side wall of the stirring seat (5-1), and the stirring roller (5-2) extends into the stirring kettle (3);

the stirring frame (5-3) is fixedly arranged on the side wall of the stirring seat (5-1), and the stirring frame (5-3) is arranged below the guide pipe (4-4);

when stirring, the driving piece (6) drives the stirring seat (5-1) to rotate, the stirring seat (5-1) drives the stirring roller (5-2) to rotate, and the stirring roller (5-2) stirs materials in the stirring kettle (3).

5. The anti-aging slurry high-efficiency reaction kettle according to claim 4, is characterized in that: an inserting groove (7) is fixedly arranged on the inner side wall of the stirring kettle (3), a baffle (8) is movably arranged in the inserting groove (7), the baffle (8) is matched with the stirring frame (5-3), a notch (9) is formed in the baffle (8), and the notch (9) is matched with the upper material frame (4-3);

when the feeding part (4) works, the baffle (8) is inserted into the slot (7), the notch (9) is aligned with the feeding frame (4-3), the baffle (8) blocks the stirring frame (5-3), when the driven gear ring (6-6) drives the stirring frame (5-3) to rotate through the stirring seat (5-1), and then the stirring frame (5-3) abuts against the baffle (8), the stirring frame (5-3) stops rotating, namely the driven gear ring (6-6) stops rotating, the planet carrier (6-4) rotates at the moment, the planet carrier (6-4) drives the feeding frame (4-3) to rotate through the guide sleeve (4-2), and then the stirring frame (5-3) rotates and penetrates through the notch (9); when the stirring machine works, the baffle plate (8) is pulled upwards, the baffle plate (8) blocks the motion path of the feeding rack (4-3), the planet carrier (6-4) stops rotating, the driven gear ring (6-6) rotates, and the stirring seat (5-1) rotates.

6. The anti-aging slurry high-efficiency reaction kettle according to claim 5, characterized in that: a supporting spring (10) is fixedly arranged on the lower inner side wall of the slot (7), and the upper end of the supporting spring (10) movably abuts against the lower side edge of the baffle plate (8);

the baffle (8) is pushed upwards by the supporting spring (10), then the baffle (8) is separated from the motion path of the stirring frame (5-3), then the baffle (8) is blocked on the traveling path of the feeding frame (4-3), and when the stirring frame (5-3) is blocked by the baffle (8), the baffle (8) is pressed downwards.

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