CN116099423A - Vertical detachable fodder mixing machine - Google Patents

Abstract

The invention relates to the technical field of feed mixers, and provides a vertical detachable feed mixer, which comprises a mixing bin, a mixing device, a plurality of partition plates and a stirring device, wherein the mixing device is positioned in the mixing bin, the mixing bin is provided with a through hole, the partition plates are arranged on the through hole in a sliding manner, and the mixing bin is divided into an upper part and a lower part by the partition plates; the stirring device comprises: the second telescopic piece is arranged on the top or the bottom of the stirring bin; the stirring driving piece is arranged on the second telescopic piece; the stirring shaft is arranged on the stirring driving piece; the first stirring assemblies are arranged on the stirring shaft at intervals in a sliding way; the second stirring assemblies are arranged on the stirring shaft at intervals; the abutting plate is arranged on the stirring shaft in a rotating mode, the abutting plate is located between the adjacent second stirring assembly and the first stirring assembly, the abutting plate is located above the second stirring assembly, and the partition plate abuts against the abutting plate after moving. Through the technical scheme, the problem that the vertical mixer in the prior art is less in single-time mixing of feed is solved.

Description

Vertical detachable fodder mixing machine

Technical Field

The invention relates to the technical field of feed mixers, in particular to a vertical detachable feed mixer.

Background

The feed mixer is a small compound feed processing device designed for rural farmers, small-sized farms and small-sized compound feed factories; has the advantages of simple and compact structure, disposable small investment, economy, practicality, convenient maintenance, no need of special production field and the like; mixing uniformly, and can produce premix, concentrate, full-value powder, etc. The feed stirrer improves the stirring efficiency of feed, and greatly saves labor.

The fodder stirring machine in the prior art is generally divided into a horizontal type and a vertical type, wherein the fodder is stirred by a screw conveyer, the height is low, the length is large, and the fodder stirring machine is suitable for being used in open places. The vertical feed mixer is high, and the length is less, is applicable to the space that does not have the shelter from in the height and uses. However, the vertical mixer in the prior art has less stirring amount each time, and the feed is stacked, so that the stirring is uneven when the feed amount is too large, and the discharge amount each time is small.

Disclosure of Invention

The invention provides a vertical detachable feed mixer, which solves the problem that the vertical mixer in the related art can mix feed for a small time.

The technical scheme of the invention is as follows:

vertical dismouting version fodder mixing machine, including stirring storehouse and agitating unit, agitating unit is located in the stirring storehouse, have feed inlet and discharge gate on the stirring storehouse, the feed inlet is located stirring storehouse top, the discharge gate is located stirring storehouse bottom, have through hole on the stirring storehouse, still include:

the plurality of separation plates are arranged on the passing holes in a sliding manner, the plurality of separation plates are abutted in the stirring bin after sliding, and the plurality of separation plates divide the stirring bin into an upper part and a lower part;

the stirring device comprises:

the second telescopic piece is arranged at the top or bottom of the stirring bin;

the stirring driving piece is arranged on the second telescopic piece;

the stirring shaft is arranged on the stirring driving piece and is positioned in the stirring bin;

the first stirring assemblies are provided with a plurality of sliding intervals and are arranged on the stirring shaft;

the limiting piece is arranged in the stirring bin and is abutted with the first stirring assembly, and the limiting piece is used for limiting the first stirring assembly to move;

the second stirring assemblies are arranged on the stirring shafts at intervals, and one second stirring assembly is arranged between two adjacent first stirring assemblies;

the abutting plate is rotatably arranged on the stirring shaft and located between the second stirring assembly and the first stirring assembly, the abutting plate is located above the second stirring assembly, and the partition plate is abutted to the abutting plate after moving.

As a further technical solution, the second stirring assembly includes:

the supporting seat is arranged on the stirring shaft;

the rotating shaft is arranged on the supporting seat, and the axis of the rotating shaft is perpendicular to the axis of the supporting seat;

the rotating blade group is provided with a plurality of rotating blades, the rotating blades are arranged on the rotating shaft in a rotating way at intervals, and the rotating axis of the rotating blade group is parallel to the axis of the rotating shaft.

As a further technical scheme, the stirring shaft is provided with teeth, the teeth are divided into a plurality of sections, the teeth are arranged on the stirring shaft at intervals, and the first stirring assembly is meshed and matched with the teeth.

As a further technical scheme, the method further comprises:

a bracket;

the first telescopic parts are provided with a plurality of telescopic parts, are all arranged on the bracket, and are circumferentially arranged around the stirring bin at intervals;

the connecting rod is hinged to the first telescopic piece, the partition plate is hinged to one end, close to the first telescopic piece, of the connecting rod, and the first telescopic piece drives the partition plate to slide.

As a further technical scheme, the method further comprises:

the stirring bin is connected with the output end of the rotation driving device, the rotation driving device is used for driving the stirring bin to rotate, the rotation axis of the stirring bin is perpendicular to the axis of the stirring device, and the expansion direction of the first expansion piece is parallel to the rotation axis of the rotation driving device.

As a further technical scheme, the method further comprises:

the sealing plate is hinged to the inner wall of the stirring bin and is positioned at the passing hole, the sealing plate is used for sealing the passing hole, and the hinged point of the sealing plate and the stirring bin is positioned below the passing hole;

and the two ends of the reset elastic piece are respectively connected with the sealing plate and the stirring bin, and the reset elastic piece is used for providing force for the sealing plate to approach the outer wall of the stirring bin.

As a further technical scheme, one side of the partition plate, which is close to the stirring shaft, is provided with a slope.

As a further technical scheme, the method further comprises:

the two opening plates are respectively and rotatably arranged in the stirring bin and positioned below the stirring shaft;

the overturning driving piece is arranged on the outer wall of the stirring bin and used for driving the two opening and closing plates to rotate, and the stirring bin is divided into two parts after the two opening and closing plates rotate.

As a further technical scheme, the stirring bin comprises a bottom bin, a plurality of material bins, a plurality of supporting bins and a top bin, wherein the opening and closing plates are arranged in the bottom bin, the material bins and the supporting bins are arranged at intervals, the lowest layer of the material bins is connected with the bottom bin, the topmost material bins are connected with the top bin, and the bottom bin, the plurality of material bins, the plurality of supporting bins and the top bin are used as a further technical scheme between the supporting bins.

The working principle and the beneficial effects of the invention are as follows:

1. in the invention, the opening and closing plate is closed firstly, then the materials are fed, the stirring bin is divided into a plurality of layers by the partition plate, namely, a large amount of feeds are divided into a plurality of layers, and each layer is a small amount of feeds, so that the feeds can be simultaneously stirred, the stirring is uniform, the stirring effect is good, the stirring efficiency is also improved, and a large amount of feeds can be stirred by one-time stirring;

2. according to the invention, after layered stirring is completed, the multiple layers of feeds are mixed together again, and then the stirring bin is driven to rotate by the rotation driving device, so that the stirring device is also stirring when the stirring bin rotates, and the stirring effect is further improved;

3. in the invention, the separation plate is positioned outside the stirring bin when the stirring bin rotates, so that the interference between the rotation of the stirring bin and the separation plate is avoided; and the partition plate is supported by the connecting rod and the abutting plate, so that the support is firm and stable.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

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

FIG. 2 is a cross-sectional view of the structure of the present invention;

FIG. 3 is an enlarged view of FIG. 2 at A;

FIG. 4 is an enlarged view at B in FIG. 2;

FIG. 5 is an enlarged view at C in FIG. 2;

in the figure: 1. stirring bin, 2, stirring device, 3, through hole, 4, support, 5, first extensible member, 6, connecting rod, 7, division board, 201, second extensible member, 202, stirring driving member, 203, stirring shaft, 204, first stirring subassembly, 205, second stirring subassembly, 206, abutting plate, 2051, supporting seat, 2052, rotation axis, 2053, rotor blade group, 207, tooth, 208, supporting rod, 8, closing plate, 9, reset elastic member, 10, opening and closing plate, 11, turnover driving member, 101, bottom bin, 102, material bin, 103, supporting bin, 104, top bin, 12, rotation driving device.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 5, the present embodiment proposes:

vertical dismouting version fodder mixing machine, including stirring storehouse 1 and agitating unit 2, agitating unit 2 is located stirring storehouse 1, has feed inlet and discharge gate on the stirring storehouse 1, and the feed inlet is located stirring storehouse 1 top, and the discharge gate is located stirring storehouse 1 bottom, has through hole 3 on the stirring storehouse 1, still includes:

the plurality of partition plates 7 are arranged on the through holes 3 in a sliding manner, the plurality of partition plates 7 are abutted in the stirring bin 1 after sliding, and the stirring bin 1 is divided into an upper part and a lower part by the plurality of partition plates 7;

the stirring device 2 includes:

a second telescopic member 201 arranged on the top or bottom of the stirring bin 1;

a stirring driving member 202 provided on the second telescopic member 201;

a stirring shaft 203, which is arranged on the stirring driving piece 202, wherein the stirring shaft 203 is positioned in the stirring bin 1;

the first stirring assemblies 204 are provided with a plurality of sliding intervals and are arranged on the stirring shaft 203;

the limiting piece 208 is arranged in the stirring bin 1, the limiting piece 208 is in abutting connection with the first stirring assembly 204, and the limiting piece 208 is used for limiting the movement of the first stirring assembly 204;

the second stirring assemblies 205 are arranged on the stirring shaft 203 at intervals, and one second stirring assembly 205 is arranged between two adjacent first stirring assemblies 204;

the abutting plate 206 is rotatably arranged on the stirring shaft 203, the abutting plate 206 is positioned between the adjacent second stirring assembly 205 and the first stirring assembly 204, the abutting plate 206 is positioned above the second stirring assembly 205, and the partition plate 7 abuts against the top of the abutting plate 206 after moving.

In this embodiment, the feed enters the stirring bin 1 through the feed inlet, but the whole stirring bin 1 cannot be filled; the partition plate 7 slides into the stirring chamber 1, and an opening is formed at a position where the partition plate 7 abuts against the stirring shaft 203, so that the stirring shaft 203 is prevented from being locked by the partition plate 7, which is a technical means well known to those skilled in the art. The second telescopic piece 201 drives the stirring driving piece 202 to ascend, meanwhile, the stirring shaft 203 also ascends, and the abutting plate 206 drives the partition plate 7 to ascend; after the partition plate 7 is lifted to a certain height, the second telescopic member 201 stops moving, at this time, the feed is divided into an upper layer and a lower layer in the stirring bin 1, and then the stirring driving member 202 drives the stirring shaft 203 to rotate, and the first stirring assembly 204 and the second stirring assembly 205 stir the feed.

The fodder in the stirring bin 1 is divided into two layers through the partition plate 7, and is stirred in a layered manner, and each layer is used for stirring a small amount of fodder, so that the fodder can be stirred more uniformly, and a large amount of fodder can be stirred simultaneously. When the stirring shaft 203 ascends, the first stirring assembly 204 is in sliding connection with the stirring shaft 203, and the first stirring assembly 204 is fixed relative to the stirring bin 1 due to the limiting effect of the limiting piece 208, but the second stirring assembly 205 ascends, and the two stirring assemblies stir in layers in the same stirring bin 1, so that the stirring uniformity is further improved. The uniformity of the feed can be ensured while the stirring efficiency is improved. When the fodder is required to be released after the stirring is completed, the second telescopic piece 201 drives the stirring shaft 203 to descend, the partition plate 7 also descends, after the partition plate 7 descends to the original position, the partition plate 7 slides away from each other, the upper layer material contacts with the lower layer material, and then the discharging hole is opened for discharging. Preferably, stirring can be continued by stirring shaft 203 during the descent process, so that second stirring assembly 205 can easily enter the feed, and the feed is prevented from interfering with second stirring assembly 205.

Further, the second stirring assembly 205 includes:

a support 2051 provided on the stirring shaft 203;

the rotating shaft 2052 is arranged on the supporting seat 2051, and the axis of the rotating shaft 2052 is perpendicular to the axis of the supporting seat 2051;

the rotor blade group 2053 has a plurality of rotor blades, and is rotatably disposed on the rotor shaft 2052 at intervals, and the rotational axis of the rotor blade group 2053 is parallel to the rotational axis of the rotor shaft 2052.

In this embodiment, the structure of the second stirring assembly 205 is described in detail, specifically: when the stirring shaft 203 is lifted, the second stirring assembly 205 is lifted, when the stirring shaft 203 stops lifting, a part of the rotating blade set 2053 is positioned above the feed, that is, is not in contact with the feed, and the other part of the rotating blade set 2053 is positioned inside the feed, when the stirring shaft 203 is rotated, the rotating shaft 2052 follows the stirring shaft 203, and at this time, the rotating blade set 2053 is positioned inside the feed, and a part of the rotating blade set 2053 is positioned outside the feed, so that an acting force is formed between the rotating blade set 2053 and the feed, and the acting force pushes the rotating blade set 2053 to rotate around the rotating shaft 2052, so that the feed inside the rotating blade set 2053 is turned to the top to form a stirring effect, and when the stirring shaft 203 reaches a certain rotating speed, the rotating blade set 2053 also lifts the feed to form a better stirring effect. Preferably, if there are multiple layers of partition plates 7, the abutting plates 206 are also multiple, the spacing is arranged on the stirring shaft 203, the distance between two adjacent abutting plates 206 increases from top to bottom in sequence, the uppermost layer of partition plate 7 advances into the stirring bin 1 to abut against the abutting plates 206, after the second telescopic member 201 drives the stirring shaft 203 to rise for a certain distance, the next layer of partition plate 7 enters the stirring bin 1, the partition plate 7 abuts against the abutting plates 206, the second telescopic member 201 continues to drive the stirring shaft 203 to rise for a certain distance, and then the next layer of partition plate 7 enters the stirring bin 1 to abut against the abutting plates 206, and the sequential operation is performed. This has the advantage that when the feed is released, the stirring shaft 203 is lowered, the feed follows the partition plate 7, the second stirring assembly 205 is prevented from completely entering the feed, and a space for the second stirring assembly 205 to rise is provided.

Further, the stirring shaft 203 is provided with teeth 207, the teeth 207 are divided into a plurality of sections, the sections are arranged on the stirring shaft 203 at intervals, and the first stirring assembly 204 is meshed with the teeth 207.

In this embodiment, the sliding manner of the first stirring assembly 204 is described, specifically: the first stirring assembly 204 and the stirring shaft 203 are engaged and matched through the teeth 207, the stirring shaft 203 drives the first stirring assembly 204 to rotate when rotating, but when the stirring shaft 203 ascends, the first stirring assembly 204 descends along the teeth 207 relative to the stirring shaft 203 because the first stirring assembly 204 contacts with the feed and the first stirring assembly 204 has gravity. The limiting member 208 is used for limiting the movement of the first stirring assembly 204, so that the first stirring assembly 204 does not fall due to gravity when no feed is supplied, and the limiting member 208 also limits the first stirring assembly 204 to rise when the stirring shaft 203 rises after the feed is added.

Further, the method further comprises the following steps:

a bracket 4;

the first telescopic pieces 5 are arranged on the bracket 4 and are circumferentially arranged around the stirring bin 1 at intervals;

the connecting rod 6 is hinged to the first telescopic piece 5, the partition plate 7 is hinged to one end, close to the first telescopic piece 5, of the connecting rod 6, and the first telescopic piece 5 drives the partition plate 7 to slide.

In this embodiment, the first telescopic member 5 drives the partition plate 7 through the connecting rod 6 to enter the stirring bin 1, the partition plate 7 layers the stirring bin 1, the partition plate 7 is abutted against the abutting plate 206, when the partition plate 7 ascends, the first telescopic member 5 continues to stretch, the connecting rod 6 rotates, the connecting rod 6 and the first telescopic member 5 form a supporting structure, and the partition plate 7 is supported; a plurality of first telescopic members 5 can be connected to one partition plate 7, and the partition plate 7 is pushed up by the fodder at this time, so the partition plate 7 can be supported by the abutting plate 206 and the connecting rod 6, and the partition plate 7 is prevented from falling. When the partition plate 7 is lowered, the first telescopic member 5 is contracted, and after the partition plate 7 is lowered to be flush with the passing hole 3, the first telescopic member 5 is continued to be contracted, and then the partition plate 7 is pulled out of the agitation chamber 1.

Further, the method further comprises the following steps:

the rotation driving device 12 is arranged on the support 4, the stirring bin 1 is connected with the output end of the rotation driving device 12, the rotation driving device 12 is used for driving the stirring bin 1 to rotate, the rotation axis of the stirring bin 1 is perpendicular to the axis of the stirring device 2, and the telescopic direction of the first telescopic piece 5 is parallel to the rotation axis of the rotation driving device 12.

In this embodiment, in order to further increase the stirring effect, after the stirring device 2 stirs for a period of time, the second telescopic member 201 drives the stirring shaft 203 to descend, the partition plate 7 descends, then the second telescopic member 201 drives the partition plate 7 to withdraw from the stirring bin 1, the stirring driving member 202 continues to drive the stirring shaft 203 to rotate, then the rotation driving device 12 drives the stirring bin 1 to rotate 180 ° or less than 180 °, then reversely reset, and sequentially circulates, so that the stirring bin 1 rotates, the feed rolls in the stirring bin 1, the stirring device 2 also stirs, the stirring effect is increased, and the stirring efficiency is improved. When the stirring bin 1 rotates, the feeding hole and the discharging hole are both closed and are not connected with other structures.

Further, the method further comprises the following steps:

the sealing plate 8 is hinged to the inner wall of the stirring bin 1, the sealing plate 8 is positioned at the through hole 3, the sealing plate 8 is used for sealing the through hole 3, and the hinge point of the sealing plate 8 and the stirring bin 1 is positioned below the through hole 3;

and the two ends of the reset elastic piece 9 are respectively connected in the sealing plate 8 and the stirring bin 1, and the reset elastic piece 9 is used for providing force for the sealing plate 8 to approach the outer wall of the stirring bin 1.

In this embodiment, in order to prevent the feed from leaking out of the through hole 3 when the stirring chamber 1 rotates, a sealing plate 8 is added to the through hole 3, specifically: the sealing plate 8 is connected with the inner wall of the stirring bin 1 through the reset elastic piece 9, the connecting part is positioned below the through hole 3, when the first telescopic piece 5 drives the partition plate 7 to enter the stirring bin 1, the partition plate 7 is abutted with the sealing plate 8, then the sealing plate 8 is pushed to rotate, the partition plate 7 enters the stirring bin 1, and the sealing plate 8 is continuously abutted with the partition plate 7 or the connecting rod 6 or the telescopic rod of the first telescopic piece 5; after the partition plate 7 is withdrawn from the stirring chamber 1, the sealing plate 8 seals the through hole 3, and the fodder is not leaked out from the through hole 3 when the stirring chamber 1 rotates.

Further, the partition plate 7 has a slope on the side close to the stirring shaft 203.

In this embodiment, in order to facilitate the partition plate 7 to enter the stirring bin 1, one end of the partition plate 7, which is close to the stirring shaft 203, is provided with a slope, and when the partition plate 7 enters the stirring bin 1, the slope contacts with feed, so that resistance is reduced, and the partition plate 7 is facilitated to enter.

Further, the method further comprises the following steps:

the two opening plates 10 are respectively and rotatably arranged in the stirring bin 1 and positioned below the stirring shaft 203;

the overturning driving piece 11 is arranged on the outer wall of the stirring bin 1, the overturning driving piece 11 is used for driving the two opening and closing plates 10 to rotate, and after the two opening and closing plates 10 rotate, the stirring bin 1 is divided into two parts.

In this embodiment, in order to further promote stirring effect, set up opening and closing plate 10 in (mixing) shaft 203 below, drive opening and closing plate 10 through upset driving piece 11 and rotate, can divide into two-layer with stirring storehouse 1 after opening and closing plate 10 rotates, and concrete process is: the opening plate 10 rotates to divide the stirring bin 1 into two layers, then the stirring bin 1 is fed, the partition plate 7 enters the stirring bin 1, the second driving piece drives the stirring shaft 203 to ascend, the partition plate 7 ascends, a stirring space is formed between the partition plate 7 and the opening plate 10, a stirring space is formed above the partition plate 7, the stirring shaft 203 rotates to start stirring, after the stirring is finished, the opening plate 10 rotates, feed between the opening plate 10 and the partition plate 7 enters the stirring bin 1 below the opening plate 10, then the stirring shaft 203 descends, and at the moment, the second stirring assembly 205 does not need to enter the interior of the feed; after the partition plate 7 is withdrawn from the stirring bin 1, the rotation driving device 12 drives the stirring bin 1 to rotate, the movable space of the feed is increased, the overturning effect is better, and the feed uniformity is better.

Further, the stirring bin 1 comprises a bottom bin 101, a plurality of material bins 102, a plurality of supporting bins 103 and a top bin 104, the opening and closing plate 10 is arranged in the bottom bin 101, the material bins 102 and the supporting bins 103 are arranged at intervals, the bottommost material bin 102 is connected with the bottom bin 101, the topmost material bin 102 is connected with the top bin 104, and the bottom bin 101, the plurality of material bins 102, the plurality of supporting bins 103 and the top bin 104 are arranged on the supporting bins 103 as a further technical scheme.

The working process of the vertical detachable feed mixer is as follows:

s1, a turnover driving piece 11 drives an opening plate 10 to rotate so as to divide stirring into two parts, and feed begins to be fed through a feed inlet;

s2, after feeding is finished, the top of the feed is at a certain distance from the top of the stirring bin 1, the second telescopic piece 201 drives the stirring shaft 203 to ascend, when the top of the abutting plate 206 is positioned at the lower edge of the passing hole 3 and is level, the first telescopic piece 5 drives the partition plate 7 to enter the stirring bin 1, and the partition plate 7 abuts against the abutting plate 206 to layer the feed;

s3, the second telescopic piece 201 continuously drives the stirring shaft 203 to ascend, the abutting plate 206 drives the partition plate 7 to ascend, the first telescopic piece 5 continuously stretches, and after the stirring shaft 203 stops ascending, the first telescopic piece 5 drives the connecting rod 6 to support the partition plate 7, and the abutting plate 206 also supports the partition plate 7;

s4, the stirring driving piece 202 drives the stirring shaft 203 to rotate, and the first stirring assembly 204 and the second stirring assembly 205 stir;

s5, after stirring is completed, the second telescopic piece 201 drives the stirring shaft 203 to descend, the partition plate 7 resets, and multiple layers of feeds are mixed together;

s6, the rotation driving device 12 drives the stirring bin 1 to rotate, and the stirring device 2 continuously stirs the feed;

and S7, discharging the feed through a discharge hole after stirring.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (9)

1. Vertical dismouting version fodder mixing machine, including stirring storehouse (1) and agitating unit (2), agitating unit (2) are located in stirring storehouse (1), have feed inlet and discharge gate on stirring storehouse (1), the feed inlet is located stirring storehouse (1) top, the discharge gate is located stirring storehouse (1) bottom, its characterized in that, have through hole (3) on stirring storehouse (1), still include:

the plurality of separation plates (7) are arranged on the passing holes (3) in a sliding manner, the plurality of separation plates (7) are abutted in the stirring bin (1) after sliding, and the plurality of separation plates (7) divide the stirring bin (1) into an upper part and a lower part;

the stirring device (2) comprises:

the second telescopic piece (201) is arranged on the top or the bottom of the stirring bin (1);

a stirring driving member (202) provided on the second telescopic member (201);

a stirring shaft (203) arranged on the stirring driving piece (202), wherein the stirring shaft (203) is positioned in the stirring bin (1);

the first stirring assemblies (204) are provided with a plurality of stirring shafts (203) at intervals in a sliding way;

the limiting piece (208) is arranged in the stirring bin (1), the limiting piece (208) is in abutting connection with the first stirring assembly (204), and the limiting piece (208) is used for limiting the movement of the first stirring assembly (204);

the second stirring assemblies (205) are arranged on the stirring shafts (203) at intervals, and one second stirring assembly (205) is arranged between two adjacent first stirring assemblies (204);

the abutting plate (206) is rotatably arranged on the stirring shaft (203), the abutting plate (206) is located between the second stirring assembly (205) and the first stirring assembly (204) adjacently, the abutting plate (206) is located above the second stirring assembly (205), and the separation plate (7) abuts against the abutting plate (206) after moving.

2. The vertical removable feed mixer of claim 1, wherein the second mixing assembly (205) comprises:

a support base (2051) provided on the stirring shaft (203);

a rotation shaft (2052) disposed on the support base (2051), wherein the axis of the rotation shaft (2052) is perpendicular to the axis of the support base (2051);

and the rotating blade group (2053) is provided with a plurality of rotating blades which are arranged on the rotating shaft (2052) in a rotating way at intervals, and the rotating axis of the rotating blade group (2053) is parallel to the axis of the rotating shaft (2052).

3. The vertical detachable feed mixer according to claim 1, wherein the mixer shaft (203) is provided with teeth (207), the teeth (207) are divided into a plurality of sections, the sections are arranged on the mixer shaft (203) at intervals, and the first mixing component (204) is meshed with the teeth (207).

4. The vertical removable feed mixer of claim 1 further comprising:

a bracket (4);

the first telescopic pieces (5) are arranged on the bracket (4) and circumferentially arranged around the stirring bin (1) at intervals;

the connecting rod (6) is hinged to the first telescopic piece (5), the partition plate (7) is hinged to one end, close to the first telescopic piece (5), of the connecting rod (6), and the first telescopic piece (5) drives the partition plate (7) to slide.

5. The vertical removable feed mixer of claim 4 further comprising:

the stirring bin (1) is connected with the output end of the rotation driving device (12), the rotation driving device (12) is used for driving the stirring bin (1) to rotate, the rotation axis of the stirring bin (1) is perpendicular to the axis of the stirring device (2), and the expansion direction of the first expansion piece (5) is parallel to the rotation axis of the rotation driving device (12).

6. The vertical removable version of a feed mixer of claim 5 further comprising:

the sealing plate (8) is hinged to the inner wall of the stirring bin (1), the sealing plate (8) is positioned at the position of the passing hole (3), the sealing plate (8) is used for sealing the passing hole (3), and the hinge point of the sealing plate (8) and the stirring bin (1) is positioned below the passing hole (3);

and the two ends of the reset elastic piece (9) are respectively connected with the sealing plate (8) and the stirring bin (1), and the reset elastic piece (9) is used for providing force for the sealing plate (8) to approach the outer wall of the stirring bin (1).

7. The vertical removable feed mixer according to claim 1, wherein the partition plate (7) has a slope on the side close to the mixing shaft (203).

8. The vertical removable feed mixer of claim 1 further comprising:

the two opening plates (10) are respectively and rotatably arranged in the stirring bin (1) and positioned below the stirring shaft (203);

the overturning driving piece (11) is arranged on the outer wall of the stirring bin (1), the overturning driving piece (11) is used for driving two opening plates (10) to rotate, and after the two opening plates (10) rotate, the stirring bin (1) is divided into two parts.

9. The vertical disassembly and assembly type feed mixer according to claim 8, wherein the mixing bin (1) comprises a bottom bin (101), a plurality of material bins (102), a plurality of supporting bins (103) and a top bin (104), the opening plate (10) is arranged in the bottom bin (101), the material bins (102) and the supporting bins (103) are arranged at intervals, the lowest layer of the material bins (102) is connected with the bottom bin (101), the topmost material bins (102) are connected with the top bin (104), and the bottom bin (101), the plurality of material bins (102), the plurality of supporting bins (103) and the top bin (104) are sequentially communicated according to a connection sequence and are connected through flanges, and the through holes (3) are formed in the supporting bins (103).

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