CN221982104U - Mixing mechanism for high-yield sow feed production system - Google Patents

Abstract

The utility model relates to the technical field of feed production, in particular to a mixing mechanism for a high-productivity sow feed production system, which can simultaneously promote and rapidly mix different feed raw material layers, and has good mixing effect; comprises a mixing tank and a discharging pipe; still include inner tube, a plurality of churn, a plurality of cloth pipe, interior auger and actuating mechanism, the vertical rotation of inner tube is installed in the compounding cavity of blending tank, a plurality of churn are installed on the lower part outer wall of inner tube, a plurality of churn all communicate with the inside of inner tube, the outer end of a plurality of churn all sets up the feed inlet, a plurality of cloth pipes are installed on the upper portion outer wall of inner tube, a plurality of cloth pipes all communicate with the inside of inner tube, the outer end of a plurality of cloth pipes all sets up the discharge gate, interior auger rotates the inside of installing at the inner tube, actuating mechanism installs on the blending tank, actuating mechanism drives inner tube and interior auger reverse rotation.

Description

Mixing mechanism for high-yield sow feed production system

Technical Field

The utility model relates to the technical field of feed production, in particular to a mixing mechanism for a high-yield sow feed production system.

Background

The sow feed production system needs to mix different feed powders during operation, and the patent with the application number of CN202122363296.1 in the prior art proposes a feed production mixing device, wherein the mixing device enters a stirring tank after being pre-crushed by a feeding mechanism, and is used for mixing materials through the mixing mechanism, if the materials are hardened, the feeding mechanism can well realize the pre-crushing of the hardened materials, so that the quality of finished feed is improved; meanwhile, the mixing mechanism is formed by the inner stirring rod and the outer stirring frame, and the inner stirring rod and the outer stirring frame rotate in opposite directions and are matched with the action of the mixing part, so that materials can be more fully mixed; the technical scheme disclosed by the utility model well solves the problems existing in the prior art and is beneficial to popularization.

However, in the prior art, only horizontal stirring is performed in the tank body, and only the auger is used for lifting the feed up and down, so that the rapid mixing of layered feed components is not facilitated, and the mixing effect is poor.

Disclosure of utility model

In order to solve the technical problems, the utility model provides the mixing mechanism for the sow feed production system, which can simultaneously promote and rapidly mix different feed raw material layers and has good mixing effect.

The utility model relates to a mixing mechanism for a high-productivity sow feed production system, which comprises a mixing tank and a discharging pipe, wherein a mixing cavity is arranged in the mixing tank, the bottom of the mixing tank is provided with the discharging pipe, the discharging pipe is communicated with the mixing cavity, and the bottom of the mixing tank is provided with a plurality of feeding ports; the inner pipe is vertically and rotatably arranged in a mixing cavity of the mixing tank, the plurality of stirring pipes are arranged on the outer wall of the lower part of the inner pipe and are communicated with the inside of the inner pipe, the outer ends of the plurality of stirring pipes are provided with feed inlets, the plurality of distributing pipes are arranged on the outer wall of the upper part of the inner pipe and are communicated with the inside of the inner pipe, the outer ends of the plurality of distributing pipes are provided with discharge outlets, the inner auger is rotatably arranged in the inner pipe, the driving mechanism is arranged on the mixing tank, and the driving mechanism drives the inner pipe and the inner auger Long Fanxiang to rotate; during operation, different feed raw materials are respectively input into the mixing cavity of the mixing tank through a plurality of feed inlets, the inner pipe and the inner winch Long Fanxiang are driven by the driving mechanism to rotate, the inner pipe drives a plurality of stirring pipes to stir the feed raw materials horizontally, meanwhile, feed raw materials with different heights in the mixing cavity of the mixing tank enter the inner pipe through a plurality of stirring pipes respectively, the inner winch rotates relative to the inner pipe to lift the feed to the high position of the inner pipe, and the feed raw materials are scattered on the upper part of the mixing cavity of the mixing tank through a plurality of feed distribution pipes, so that the feed raw materials are stirred up and down, and different feed raw material layers can be simultaneously and rapidly mixed, the mixing effect is good, and after the feed mixing is completed, the feed discharging pipe is opened to discharge the feed.

Preferably, the device also comprises an outer auger, wherein the outer auger is arranged on the outer wall of the inner pipe; the outer auger follows the inner tube and rotates for the fodder in the compounding cavity of outer auger with the compounding jar promotes upwards from the middle part and carries out the compounding, improves the compounding effect.

Preferably, the plurality of stirring pipes are all arc-shaped, and the feed inlets of the plurality of stirring pipes face the rotation direction of the stirring pipes; the curved stirring pipe can feed raw materials more quick through the feed inlet input stirring pipe and interior pipe in, improves the compounding efficiency.

Preferably, the plurality of stirring pipes are different in length; the mixing pipes with different lengths enable the feeding holes to be respectively arranged at different radial positions of the mixing cavity of the mixing tank, so that feed at different positions is mixed horizontally and mixed up and down, and mixing efficiency is improved.

Preferably, the driving mechanism comprises a motor, a driving wheel, a driven wheel, a transmission belt and a reverse shaft assembly, the motor is arranged on the mixing tank, the driving wheel is concentrically arranged on an output shaft of the motor, the driven wheel is concentrically arranged on the inner pipe, the transmission belt is sleeved on the driving wheel and the driven wheel, and the inner auger is in transmission connection with the inner pipe through the reverse shaft assembly; the motor drives the driving wheel to rotate, the driving wheel drives the driven wheel and the inner pipe to rotate through the driving belt, and the inner pipe drives the inner winch Long Fanxiang to rotate through the counter shaft assembly, so that the inner pipe and the inner winch coaxially rotate reversely, and the practicability is good.

Preferably, the counter shaft assembly comprises a first bevel gear, a second bevel gear and a third bevel gear, wherein the first bevel gear, the second bevel gear and the third bevel gear are arranged on the inner pipe in a concentric manner, the second bevel gear is arranged on the inner auger in a concentric manner, the third bevel gear is arranged on the mixing tank through a bracket, and the third bevel gear is meshed with the first bevel gear and the second bevel gear; when the inner tube drives the first bevel gear to rotate, the first bevel gear is meshed with the third bevel gear to rotate, and the third bevel gear is meshed with the third bevel gear to rotate, so that the first bevel gear and the second bevel gear rotate reversely, and the structure is simple and the practicability is good.

Preferably, the automatic weighing machine further comprises a weighing bin, a flashboard, a turnover motor and a weighing device, wherein the weighing bin is arranged on the mixing tank, the lower port of the weighing bin extends into the feeding port of the mixing tank, the flashboard is rotatably arranged in the lower port of the weighing bin through a rotating shaft, the turnover motor is arranged on the weighing bin, the output shaft of the turnover motor is in transmission connection with the rotating shaft of the flashboard, the weighing device is arranged on the mixing tank, and the upper part of the weighing device is connected with the weighing bin; the fodder raw materials are put into weigh the workbin, and the weighing machine symmetry workbin weighs, and after the fodder raw materials reaches the setting value, upset motor drive flashboard rotates for in the compounding cavity of the compounding jar that the fodder raw materials in the weigh the workbin was put into, realize the ration and throw the material.

Compared with the prior art, the utility model has the beneficial effects that: during operation, different feed raw materials are respectively input into the mixing cavity of the mixing tank through a plurality of feed inlets, the inner pipe and the inner winch Long Fanxiang are driven by the driving mechanism to rotate, the inner pipe drives a plurality of stirring pipes to stir the feed raw materials horizontally, meanwhile, feed raw materials with different heights in the mixing cavity of the mixing tank enter the inner pipe through a plurality of stirring pipes respectively, the inner winch rotates relative to the inner pipe to lift the feed to the high position of the inner pipe, and the feed raw materials are scattered on the upper part of the mixing cavity of the mixing tank through a plurality of feed distribution pipes, so that the feed raw materials are stirred up and down, and different feed raw material layers can be simultaneously and rapidly mixed, the mixing effect is good, and after the feed mixing is completed, the feed discharging pipe is opened to discharge the feed.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic illustration of an axially measured structure of the present utility model;

FIG. 3 is a schematic structural view of the inner tube, stirring tube, distributing tube and driving mechanism;

FIG. 4 is a schematic view of the structure of the inner tube, the stirring tube, the material distribution tube, the inner auger, the outer auger and the like in a partial cross-section;

FIG. 5 is a schematic view of the structure of the inner tube, the stirring tube, the distributing tube, the inner auger and the outer auger in an exploded state;

fig. 6 is a schematic view of the structure of the material box, the shutter, the turning motor, the weighing machine, and the like in an exploded state.

The reference numerals in the drawings: 1. a mixing tank; 2. a discharge pipe; 3. an inner tube; 4. a stirring tube; 5. a material distribution pipe; 6. an inner auger; 7. an outer auger; 8. a motor; 9. a driving wheel; 10. driven wheel; 11. a transmission belt; 12. bevel gears I; 13. bevel gears II; 14. bevel gears III; 15. weighing a material box; 16. a flashboard; 17. a turnover motor; 18. a weighing device.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. This utility model may be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Example 1

As shown in fig. 1, 2 and 4, the mixing mechanism for the high-yield sow feed production system comprises a mixing tank 1 and a discharging pipe 2, wherein a mixing cavity is formed in the mixing tank 1, the discharging pipe 2 is arranged at the bottom of the mixing tank 1, the discharging pipe 2 is communicated with the mixing cavity, and a plurality of feeding ports are formed in the bottom of the mixing tank 1; the mixing device further comprises an inner pipe 3, a plurality of stirring pipes 4, a plurality of distributing pipes 5, an inner auger 6 and a driving mechanism, wherein the inner pipe 3 is vertically and rotatably installed in a mixing cavity of the mixing tank 1, the plurality of stirring pipes 4 are installed on the outer wall of the lower portion of the inner pipe 3, the plurality of stirring pipes 4 are all communicated with the inner portion of the inner pipe 3, the outer ends of the plurality of stirring pipes 4 are all provided with feeding ports, the plurality of distributing pipes 5 are installed on the outer wall of the upper portion of the inner pipe 3, the plurality of distributing pipes 5 are all communicated with the inner portion of the inner pipe 3, the outer ends of the plurality of distributing pipes 5 are all provided with discharge ports, the inner auger 6 is rotatably installed in the inner pipe 3, the driving mechanism is installed on the mixing tank 1, and the driving mechanism drives the inner pipe 3 and the inner auger 6 to reversely rotate; the device also comprises an outer auger 7, wherein the outer auger 7 is arranged on the outer wall of the inner pipe 3; the stirring pipes 4 are arc-shaped, and the feed inlets of the stirring pipes 4 face the rotation direction of the stirring pipes 4; the plurality of stirring pipes 4 are different in length.

During operation, different feed raw materials are respectively input into the mixing cavity of the mixing tank 1 through a plurality of feed inlets, the inner pipe 3 and the inner auger 6 are driven to reversely rotate by the driving mechanism, the inner pipe 3 drives a plurality of stirring pipes 4 to horizontally stir the feed raw materials, feed raw materials with different heights in the mixing cavity of the mixing tank 1 enter the inner pipe 3 through a plurality of stirring pipes 4 respectively, the inner auger 6 rotates relative to the inner pipe 3 to lift the feed to the high position of the inner pipe 3, and spread the upper part of the mixing cavity of the mixing tank 1 through a plurality of feed distribution pipes 5, thereby lift and stir the feed raw materials up and down, and can carry out simultaneous lifting and quick mixing with different feed raw material layers, the mixing effect is good, after the feed mixing is completed, the discharge pipe 2 is opened, the outer auger 7 follows the inner pipe 3 to rotate, feed in the mixing cavity of the mixing tank 1 is lifted upwards from the middle, the mixing effect is improved, the curved stirring pipes 4 can be more rapidly input into the stirring pipes 4 and the inner pipe 3 through the feed inlets, the stirring pipes 4 with different lengths are respectively arranged at different radial positions of the feed inlets and different positions of the mixing cavity, and the mixing cavity is different in the mixing cavity positions.

Example 2

As shown in fig. 3 and 5, the driving mechanism comprises a motor 8, a driving wheel 9, a driven wheel 10, a transmission belt 11 and a reverse shaft assembly, wherein the motor 8 is arranged on the mixing tank 1, the driving wheel 9 is concentrically arranged on an output shaft of the motor 8, the driven wheel 10 is concentrically arranged on the inner pipe 3, the transmission belt 11 is sleeved on the driving wheel 9 and the driven wheel 10, and the inner auger 6 is in transmission connection with the inner pipe 3 through the reverse shaft assembly; the counter shaft assembly comprises a first bevel gear 12, a second bevel gear 13 and a third bevel gear 14, wherein the first bevel gear 12 is concentrically arranged on the inner pipe 3, the second bevel gear 13 is concentrically arranged on the inner auger 6, the third bevel gear 14 is arranged on the mixing tank 1 through a bracket, and the third bevel gear 14 is meshed with the first bevel gear 12 and the second bevel gear 13.

The motor 8 drives the driving wheel 9 to rotate, the driving wheel 9 drives the driven wheel 10 and the inner tube 3 to rotate through the transmission belt 11, and when the inner tube 3 drives the bevel gear I12 to rotate, the bevel gear I12 is meshed with the bevel gear III 14 to rotate, and the bevel gear III 14 is meshed with the bevel gear III 14 to rotate, so that the bevel gears I12 and II 13 reversely rotate.

Example 3

As shown in fig. 6, the automatic weighing and feeding device further comprises a weighing bin 15, a gate plate 16, a turnover motor 17 and a weighing device 18, wherein the weighing bin 15 is arranged on the mixing tank 1, the lower port of the weighing bin 15 extends into the feeding port of the mixing tank 1, the gate plate 16 is rotatably arranged in the lower port of the weighing bin 15 through a rotating shaft, the turnover motor 17 is arranged on the weighing bin 15, an output shaft of the turnover motor 17 is in transmission connection with the rotating shaft of the gate plate 16, the weighing device 18 is arranged on the mixing tank 1, and the upper part of the weighing device 18 is connected with the weighing bin 15.

The fodder raw materials are put into the weighing workbin 15, the weighing device 18 is symmetrical to the workbin 15 for weighing, and after the fodder raw materials reach a set value, the turning motor 17 drives the flashboard 16 to rotate, so that the fodder raw materials in the weighing workbin 15 are put into the mixing chamber of the mixing tank 1, and quantitative feeding is realized.

As shown in fig. 1 to 6, in the mixing mechanism for a high-productivity sow feed production system, when the mixing mechanism works, firstly different feed raw materials are respectively quantitatively input into a mixing cavity of a mixing tank 1 through a plurality of weighing boxes 15, then a motor 8 drives a driving wheel 9 to rotate, the driving wheel 9 drives a driven wheel 10 and an inner pipe 3 to rotate through a transmission belt 11, when the inner pipe 3 drives a bevel gear I12 to rotate, the bevel gear I12 is meshed with a bevel gear III 14 to rotate, the bevel gear III 14 is meshed with the bevel gear III 14 to rotate, so that the bevel gear I12 and the bevel gear II 13 reversely rotate, the inner pipe 3 drives a plurality of stirring pipes 4 to stir the feed raw materials horizontally, meanwhile, the feed raw materials with different heights in the mixing cavity of the mixing tank 1 respectively enter the inner pipe 3 through the plurality of stirring pipes 4, then the inner auger 6 rotates relative to the inner pipe 3 to lift the feed to the high position of the inner pipe 3, and is distributed to the upper part of the mixing cavity of the mixing tank 1 through the plurality of the feeding pipes 5, and the outer auger 7 rotates along with the inner pipe 3, so that the feed in the mixing cavity of the mixing tank 1 is lifted upwards through the bevel gear I12, the bevel gear I14, the stirring the feed is lifted from the middle of the mixing cavity of the mixing tank, so that the feed raw materials are lifted up and the feed raw materials in the mixing tank 1 are lifted up, and the feed raw materials are lifted up and mixed up, and the feed raw materials are discharged simultaneously, and the feed raw materials are discharged and mixed.

The main functions realized by the utility model are as follows:

1. Different feed raw material layers can be simultaneously and rapidly mixed, and the mixing effect is good;

2. The material mixing can be horizontally stirred;

3. the mixed feed can be lifted up and down from the middle part of the mixing chamber.

The mixing mechanism for the high-productivity sow feed production system has the advantages that the installation mode, the connection mode or the setting mode of the mixing mechanism are common mechanical modes, and the mixing mechanism can be implemented as long as the beneficial effects of the mixing mechanism can be achieved; the mixing tank 1, the discharging pipe 2, the inner auger 6, the outer auger 7, the motor 8, the driving wheel 9, the driven wheel 10, the driving belt 11, the first bevel gear 12, the second bevel gear 13, the third bevel gear 14, the overturning motor 17 and the weighing device 18 of the mixing mechanism for the high-yield sow feed production system are purchased in the market, and a person skilled in the art only needs to install and operate according to the attached using instruction, and does not need creative labor of the person skilled in the art.

All technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (7)

1. The high-productivity sow feed production system is with compounding mechanism, including compounding jar (1) and discharging pipe (2), the inside of compounding jar (1) sets up the compounding cavity, and the bottom of compounding jar (1) sets up discharging pipe (2), and discharging pipe (2) and compounding cavity intercommunication, the bottom of compounding jar (1) sets up a plurality of feed inlets; the novel material mixing device is characterized by further comprising an inner pipe (3), a plurality of stirring pipes (4), a plurality of material distribution pipes (5), an inner auger (6) and a driving mechanism, wherein the inner pipe (3) is vertically rotatably installed in a material mixing cavity of the material mixing tank (1), the plurality of stirring pipes (4) are installed on the outer wall of the lower portion of the inner pipe (3), the plurality of stirring pipes (4) are all communicated with the inner portion of the inner pipe (3), the outer ends of the plurality of stirring pipes (4) are all provided with a feeding hole, the plurality of material distribution pipes (5) are installed on the outer wall of the upper portion of the inner pipe (3), the plurality of material distribution pipes (5) are all communicated with the inner portion of the inner pipe (3), the outer ends of the plurality of material distribution pipes (5) are all provided with a discharging hole, the inner auger (6) is rotatably installed in the inner portion of the inner pipe (3), the driving mechanism is installed on the material mixing tank (1), and the driving mechanism drives the inner pipe (3) and the inner auger (6) to reversely rotate.

2. The mixing mechanism for a high-yield sow feed production system as claimed in claim 1, further comprising an outer auger (7), wherein the outer auger (7) is mounted on the outer wall of the inner tube (3).

3. The mixing mechanism for a high-yield sow feed production system as claimed in claim 1, wherein the plurality of stirring pipes (4) are all arc-shaped, and the feed inlets of the plurality of stirring pipes (4) face the rotation direction of the stirring pipes (4).

4. A mixing mechanism for a high-productivity sow feed production system as claimed in claim 3, characterised in that the plurality of stirring tubes (4) are different in length.

5. The mixing mechanism for the high-yield sow feed production system according to claim 1, wherein the driving mechanism comprises a motor (8), a driving wheel (9), a driven wheel (10), a transmission belt (11) and a counter shaft assembly, the motor (8) is arranged on the mixing tank (1), the driving wheel (9) is concentrically arranged on an output shaft of the motor (8), the driven wheel (10) is concentrically arranged on the inner tube (3), the transmission belt (11) is sleeved on the driving wheel (9) and the driven wheel (10), and the inner auger (6) is in transmission connection with the inner tube (3) through the counter shaft assembly.

6. The mixing mechanism for the high-yield sow feed production system as claimed in claim 5, wherein the counter shaft assembly comprises a first bevel gear (12), a second bevel gear (13) and a third bevel gear (14), wherein the first bevel gear (12) is concentrically arranged on the inner pipe (3), the second bevel gear (13) is concentrically arranged on the inner auger (6), the third bevel gear (14) is arranged on the mixing tank (1) through a bracket, and the third bevel gear (14) is meshed with the first bevel gear (12) and the second bevel gear (13).

7. The mixing mechanism for the high-yield sow feed production system according to claim 1, further comprising a weighing box (15), a flashboard (16), a turnover motor (17) and a weighing device (18), wherein the weighing box (15) is arranged on the mixing tank (1), a lower port of the weighing box (15) stretches into a feeding port of the mixing tank (1), the flashboard (16) is rotatably arranged in a lower port of the weighing box (15) through a rotating shaft, the turnover motor (17) is arranged on the weighing box (15), an output shaft of the turnover motor (17) is in transmission connection with the rotating shaft of the flashboard (16), the weighing device (18) is arranged on the mixing tank (1), and the upper part of the weighing device (18) is connected with the weighing box (15).