CN213468025U - Main shaft structure of filament kneading machine - Google Patents

Abstract

The utility model discloses a rub silk owner axle construction, cut the module, rub silk module and arrange the material module including rotatory main shaft, hand hay cutter, rotatory main shaft level sets up, and the both ends of rotatory main shaft are equipped with the bearing frame respectively, and the tip of rotatory main shaft is worn to establish on the bearing frame that corresponds, and the hand hay cutter is cut the module, is rubbed silk module and is arranged the material module and install on rotatory main shaft in proper order, cuts the module, rubs silk module and arranges the material module and be located between two bearing frames. Adopt the utility model discloses an in-process of rubbing silk owner axle construction, rubbing silk at the material utilizes the hand hay cutter earlier to cut the module and carry out preliminary broken back to the material, and the silk module is rubbed to the material to the reuse, discharges the material through arranging the material module at last, and is effectual to the hammer leaf protect, and the efficient is accomplished simultaneously broken, is rubbed silk and is arranged material work.

Description

Main shaft structure of filament kneading machine

Technical Field

The utility model relates to a main shaft structure, concretely relates to rub silk owner shaft structure.

Background

In agricultural production, straws of a plurality of crops can be produced, the straws can be used as firewood after fruits are harvested, and can also be used as raw materials of livestock feed, in the prior art for treating the straws, a silk kneading machine is usually used for cutting and crushing the straws and forage into filaments, a rotary main shaft of the silk kneading machine is usually only provided with a relatively single hammer piece, the hammer piece is used for simultaneously crushing, kneading and the like the materials, and finally the materials are discharged by self weight;

in order to ensure the kneading effect, a plurality of groups of hammer sheets are usually arranged on a rotating main shaft, and are used for kneading materials at the same time, and the materials are directly crushed by the hammer sheets with certain strength just entering a kneading roller, so that the hammer sheets are easily damaged to a certain extent, and the kneading effect is reduced.

The prior art has the defects that the rotary main shaft only has a single wire kneading function, and easily damages the hammer sheet when directly facing uncrushed materials.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a rub silk machine main shaft structure helps the main shaft to carry out breakage, rub silk and row material respectively at rotatory in-process to the material.

The technical scheme is as follows:

a main shaft structure of a kneading machine is characterized by comprising a rotating main shaft, a chopping module, a kneading module and a discharging module, wherein the rotating main shaft is horizontally arranged, two ends of the rotating main shaft are respectively provided with a bearing seat, and the end part of the rotating main shaft penetrates through the corresponding bearing seats;

the chopping module, the kneading module and the discharging module are sequentially mounted on the rotating main shaft, and the chopping module, the kneading module and the discharging module are positioned between the two bearing seats.

The effect of adopting above technical scheme: utilize the hand hay cutter to cut the module earlier and carry out preliminary broken back to the material, reuse is rubbed a module and is rubbed the silk to the material, discharges the material through row material module at last, protects the hammer leaf, and the silk work is rubbed to the efficient completion simultaneously.

The chopping module comprises a chopping base, two mounting bases and two moving blades, the chopping base is cylindrical, the chopping base is fixedly sleeved on the rotating main shaft, the two mounting bases are distributed in a divergent manner by taking the rotating main shaft as a center, all the mounting bases are fixed on the chopping base at equal intervals, the mounting bases correspond to the moving blades one by one, the moving blades are mounted on the corresponding mounting bases, the moving blades are perpendicular to the rotating main shaft, and the blades of the moving blades extend out of the edges of the mounting bases.

The rotary main shaft is provided with a bearing seat, the bearing seat is provided with a cutting seat, the cutting seat is adjacent to the bearing seat, a first protective sleeve is further arranged between the cutting seat and the adjacent bearing seat, the first protective sleeve is sleeved on the rotary main shaft, one end of the first protective sleeve abuts against the corresponding bearing seat, and the other end of the first protective sleeve abuts against the cutting seat.

The wire kneading module comprises a cutting seat and at least two annular mounting plates, the cutting seat is cylindrical, the cutting seat is fixedly sleeved on the rotating main shaft and is tightly abutted against the chopping seat, all the annular mounting plates are uniformly distributed on the cutting seat along the axial direction of the rotating main shaft, the inner ring of the annular mounting plate is fixedly connected with the outer wall of the cutting seat, and the annular mounting plates are vertical to the axial lead of the cutting seat;

the silk rubbing module further comprises a plurality of fixing pieces and a plurality of hammer groups, all the fixing pieces are distributed in a divergent mode by taking the rotating main shaft as the center, all the fixing pieces are fixed on the annular mounting plate at equal intervals, the fixing pieces correspond to the hammer groups one by one, and the hammer groups are mounted on the corresponding fixing pieces.

The fixing piece comprises two hammer leaf shafts, the two hammer leaf shafts of the same fixing piece are radially arranged by taking the rotating main shaft as a center, and the hammer leaf shafts are parallel to the rotating main shaft;

a plurality of fixing holes are formed in the annular mounting plate and penetrate through the hammer leaf shafts correspondingly, two ends of the hammer leaf shafts penetrate through the corresponding fixing holes respectively, and locking bolts are arranged at penetrating ends of all the hammer leaf shafts;

all the hammer piece groups comprise a plurality of hammer pieces, two mounting holes are formed in the hammer pieces, the mounting holes correspond to the hammer piece shafts one by one, the hammer piece shafts penetrate through the corresponding mounting holes, and all the hammer pieces are located between the two annular mounting plates on the outermost side.

A limiting sleeve is further arranged between any two adjacent hammer sheets in the same group, the limiting sleeve is sleeved on the hammer sheet shaft, and two ends of the limiting sleeve are respectively abutted against the corresponding hammer sheets;

all the hammer sheets on the same group and all the hammer sheets on the other group are arranged in an axially staggered mode.

The discharging module comprises a discharging seat, a plurality of mounting brackets and a plurality of discharging plates, the discharging seat is cylindrical, the discharging seat is fixedly sleeved on the rotating main shaft, all the mounting brackets are distributed in a radiating manner by taking the rotating main shaft as the center, all the mounting brackets are circumferentially and equidistantly fixed on the discharging seat, the mounting brackets correspond to the discharging plates one to one, all the discharging plates are fixed on the corresponding mounting brackets, and the discharging plates are parallel to the rotating main shaft.

And a second protective sleeve is arranged between the discharging seat and the adjacent bearing seat, one end of the discharging seat is tightly abutted against the cutting seat, and the other end of the discharging seat is tightly abutted against the second protective sleeve.

A plurality of positioning holes are formed in the chopping seat, the cutting seat and the discharging seat in a penetrating mode, and fixing bolts penetrate through the positioning holes.

Has the advantages that: the utility model discloses rubbing the in-process of silk at the material, utilizing the hand hay cutter earlier to cut the module and carry out preliminary broken back to the material, the reuse is rubbed the silk module and is rubbed the silk to the material, discharges the material through row material module at last, and is effectual protected the hammer leaf, and the efficient is accomplished breakage simultaneously, is rubbed the silk and is arranged material work.

Drawings

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

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a right side view of FIG. 1;

fig. 4 is a schematic view of the installation structure of the present invention;

FIG. 5 is a front view of FIG. 4;

fig. 6 is a schematic sectional view taken along line a-a of fig. 5.

Detailed Description

The present invention will be further described with reference to the following examples and accompanying drawings.

As shown in fig. 1 to 6, a main shaft structure of a filament kneading machine mainly includes a movable support 9, a power device 10, a filament kneading machine body 11 and a feeding bin 12, wherein the power device 10, the filament kneading machine body 11 and the feeding bin 12 are all mounted on the movable support 9, the power device 10 is mounted on the filament kneading machine body 11, the feeding bin 1 is mounted on the filament kneading machine body 11, and the feeding bin 1 is connected to the filament kneading machine body 11, and is characterized in that:

the silk kneading machine body 11 comprises a rotating main shaft 1, two ends of the rotating main shaft 1 are respectively provided with a bearing seat 2, two ends of the rotating main shaft 1 are respectively arranged in the silk kneading machine body 11 through the corresponding bearing seats 2,

the cutting module, the silk kneading module and the discharging module are arranged on the rotating main shaft 1, the rotating main shaft 1 is horizontally arranged, bearing seats 2 are respectively arranged at two ends of the rotating main shaft 1, and the end part of the rotating main shaft 1 penetrates through the corresponding bearing seats 2;

the chopping module, the kneading module and the discharging module are sequentially arranged on the rotating main shaft 1, and the chopping module, the kneading module and the discharging module are positioned between the two bearing seats 2.

Wherein:

the chopping module comprises a chopping base 2a, two installation bases 2b and two moving blades 2c, the chopping base 2a is cylindrical, the chopping base 2a is fixedly sleeved on the rotating main shaft 1, the two installation bases 2b are distributed in a divergent mode by taking the rotating main shaft 1 as the center, all the installation bases 2b are fixed on the chopping base 2a at equal intervals, the installation bases 2b correspond to the moving blades 2c one by one, the moving blades 2c are installed on the corresponding installation bases 2b, the moving blades 2c are perpendicular to the rotating main shaft 1, and the blades of the moving blades 2c extend out of the edges of the installation bases 2 b.

A first protective sleeve 7 is further arranged between the chopping seat 2a and the adjacent bearing seat 2, the first protective sleeve 7 is sleeved on the rotating main shaft 1, one end of the first protective sleeve 7 is tightly abutted to the corresponding bearing seat 2, and the other end of the first protective sleeve 7 is tightly abutted to the chopping seat 2 a.

The wire kneading module comprises a cutting seat 3a and at least two annular mounting plates 3d, the cutting seat 3a is cylindrical, the cutting seat 3a is fixedly sleeved on the rotating main shaft 1, the cutting seat 3a is tightly abutted against the chopping seat 2a, all the annular mounting plates 3d are uniformly distributed on the cutting seat 3a along the axial direction of the rotating main shaft 1, the inner ring of the annular mounting plate 3d is fixedly connected with the outer wall of the cutting seat 3a, and the annular mounting plate 3d is perpendicular to the axial lead of the cutting seat 3 a;

the silk rubbing module further comprises a plurality of fixing pieces and a plurality of hammer groups, all the fixing pieces are distributed in a divergent manner by taking the rotating main shaft 1 as a center, all the fixing pieces are fixed on the annular mounting plate 3d at equal intervals, the fixing pieces correspond to the hammer groups one by one, and the hammer groups are mounted on the corresponding fixing pieces.

The fixing piece comprises two hammer leaf shafts 5, the two hammer leaf shafts 5 of the same fixing piece are radially arranged by taking the rotating main shaft 1 as a center, and the hammer leaf shafts 5 are parallel to the rotating main shaft 1;

a plurality of fixing holes are formed in the annular mounting plate 3d corresponding to the hammer leaf shafts 5 in a penetrating manner, two ends of each hammer leaf shaft 5 are respectively arranged in the corresponding fixing holes in a penetrating manner, and locking bolts are arranged at penetrating ends of all the hammer leaf shafts 5;

all the hammer leaf group includes a plurality of hammer leaves 6, be equipped with two mounting holes on the hammer leaf 6, the mounting hole with hammer leaf axle 5 one-to-one, hammer leaf axle 5 passes the correspondence the mounting hole, all the hammer leaf 6 is located two in the outside between the annular mounting panel 3 d.

A limiting sleeve 6a is further arranged between any two adjacent hammer sheets 6 in the same group, the limiting sleeve 6a is sleeved on the hammer sheet shaft 5, and two ends of the limiting sleeve 6a are respectively abutted against the corresponding hammer sheets 6;

all the hammer sheets 6 on the same group are axially staggered with all the hammer sheets 6 on the other group.

The discharging module comprises a discharging seat 4a, a plurality of mounting brackets 4b and a plurality of discharging plates 4c, wherein the discharging seat 4a is cylindrical, the discharging seat 4a is fixedly sleeved on the rotating main shaft 1, all the mounting brackets 4b are distributed in a diverging manner by taking the rotating main shaft 1 as the center, all the mounting brackets 4b are fixed on the discharging seat 4a in an annular equidistant manner, the mounting brackets 4b correspond to the discharging plates 4c one to one, all the discharging plates 4c are fixed on the corresponding mounting brackets 4b, and the discharging plates 4c are parallel to the rotating main shaft 1.

A second protective sleeve 8 is further arranged between the discharging seat 4a and the adjacent bearing seat 2, one end of the discharging seat 4a is tightly abutted to the cutting seat 3a, and the other end of the discharging seat 4a is tightly abutted to the second protective sleeve 8.

A plurality of positioning holes are formed in the chopping seat 2a, the cutting seat 3a and the discharging seat 4a in a penetrating manner, and fixing bolts are arranged in the positioning holes in a penetrating manner.

The lower part of the silk kneading machine body 11 is also penetrated with a discharge opening, a discharge pipe 17 is arranged on the discharge opening, the discharge pipe 17 is obliquely arranged, and the upper end of the discharge pipe 17 is communicated with the inner cavity of the silk kneading machine body 11.

The feeding bin 12 comprises a feeding plate, a protective cover and a material distributing cover, the feeding plate is horizontally arranged, the protective cover is of an arc-shaped structure, the protective cover is buckled on the feeding plate to form a feeding area, the material distributing cover is installed on the upper surface of the feeding plate, and the material distributing cover is close to the edge of the feeding plate connected with the silk kneading machine body 11;

a placing opening penetrates through the material distributing cover, the bearing seat 2 close to the feeding bin 12 extends into the placing opening, a wire kneading area of the wire kneading machine body 11 is formed around an annular area of the rotating main shaft 1, and the edge of the placing opening is close to the edge of an inner ring of the wire kneading area;

the feeding plate is also provided with a mounting opening in a penetrating manner, the material distributing cover is positioned right above the mounting opening, the mounting opening is communicated with the placing opening, and the bearing seat 2 close to the feeding bin 12 is positioned in the mounting opening at the same time.

Finally, it should be noted that the above description is only a preferred embodiment of the present invention, and those skilled in the art can make various similar representations without departing from the spirit and the scope of the present invention.

Claims (9)

1. The utility model provides a knead silk owner axle construction which characterized in that: the cutting machine comprises a rotating main shaft (1), a chopping module, a kneading module and a discharging module, wherein the rotating main shaft (1) is horizontally arranged, bearing seats (2) are respectively arranged at two ends of the rotating main shaft (1), and the end part of the rotating main shaft (1) penetrates through the corresponding bearing seats (2);

the chopping module, the kneading module and the discharging module are sequentially arranged on the rotating main shaft (1), and the chopping module, the kneading module and the discharging module are positioned between the two bearing seats (2).

2. A main shaft structure of a filament kneading machine according to claim 1, characterized in that: the chopping module comprises a chopping base (2a), two installation bases (2b) and two movable blades (2c), the chopping base (2a) is cylindrical, the chopping base (2a) is fixedly sleeved on the rotating main shaft (1), the two installation bases (2b) are distributed in a divergent mode by taking the rotating main shaft (1) as the center, all the installation bases (2b) are fixed on the chopping base (2a) at equal intervals, the installation bases (2b) correspond to the movable blades (2c) one to one, the movable blades (2c) are installed on the corresponding installation bases (2b), the movable blades (2c) are perpendicular to the rotating main shaft (1), and the blades of the movable blades (2c) extend out of the edges of the installation bases (2 b).

3. A main shaft structure of a filament kneading machine according to claim 2, characterized in that: the cutting machine is characterized in that a first protective sleeve (7) is further arranged between the cutting seat (2a) and the adjacent bearing seat (2), the first protective sleeve (7) is sleeved on the rotating main shaft (1), one end of the first protective sleeve (7) is tightly abutted to the corresponding bearing seat (2), and the other end of the first protective sleeve (7) is tightly abutted to the cutting seat (2 a).

4. A main shaft structure of a filament kneading machine according to claim 3, characterized in that: the silk rubbing module comprises a cutting seat (3a) and at least two annular mounting plates (3d), the cutting seat (3a) is cylindrical, the cutting seat (3a) is fixedly sleeved on the rotating main shaft (1), the cutting seat (3a) is tightly abutted to the chopping seat (2a), all the annular mounting plates (3d) are uniformly distributed on the cutting seat (3a) along the axial direction of the rotating main shaft (1), the inner ring of the annular mounting plate (3d) is fixedly connected with the outer wall of the cutting seat (3a), and the annular mounting plates (3d) are perpendicular to the axial lead of the cutting seat (3 a);

the silk rubbing module further comprises a plurality of fixing pieces and a plurality of hammer groups, all the fixing pieces are distributed in a divergent mode by taking the rotating main shaft (1) as the center, all the fixing pieces are fixed on the annular mounting plate (3d) in equal distance, the fixing pieces correspond to the hammer groups one by one, and the hammer groups are mounted on the corresponding fixing pieces.

5. A main shaft structure of a filament kneading machine according to claim 4, characterized in that: the fixing piece comprises two hammer leaf shafts (5), the two hammer leaf shafts (5) of the same fixing piece are radially arranged by taking the rotating main shaft (1) as a center, and the hammer leaf shafts (5) are parallel to the rotating main shaft (1);

a plurality of fixing holes are formed in the annular mounting plate (3d) in a penetrating mode and correspond to the hammer leaf shafts (5), two ends of each hammer leaf shaft (5) penetrate through the corresponding fixing holes respectively, and locking bolts are arranged at penetrating ends of all the hammer leaf shafts (5);

all the hammer leaf group includes a plurality of hammer leaf (6), be equipped with two mounting holes on hammer leaf (6), the mounting hole with hammer leaf axle (5) one-to-one, hammer leaf axle (5) pass the correspondence the mounting hole, all hammer leaf (6) are located two of the outside between annular mounting panel (3 d).

6. A main shaft structure of a filament kneading machine according to claim 5, characterized in that: a limiting sleeve (6a) is further arranged between any two adjacent hammer sheets (6) in the same group, the limiting sleeve (6a) is sleeved on the hammer sheet shaft (5), and two ends of the limiting sleeve (6a) are respectively abutted against the corresponding hammer sheets (6);

all the hammer sheets (6) on the same group and all the hammer sheets (6) on the other group are arranged in an axially staggered mode.

7. A main shaft structure of a filament kneading machine according to claim 6, characterized in that: the discharging module comprises a discharging seat (4a), a plurality of mounting brackets (4b) and a plurality of discharging plates (4c), the discharging seat (4a) is cylindrical, the discharging seat (4a) is fixedly sleeved on the rotating main shaft (1), all the mounting brackets (4b) are distributed in a diverging mode by taking the rotating main shaft (1) as the center, all the mounting brackets (4b) are fixed on the discharging seat (4a) in an annular equal distance mode, the mounting brackets (4b) correspond to the discharging plates (4c) in a one-to-one mode, all the discharging plates (4c) are fixed on the corresponding mounting brackets (4b), and the discharging plates (4c) are parallel to the rotating main shaft (1).

8. A main shaft structure of a filament kneading machine according to claim 7, characterized in that: a second protective sleeve (8) is further arranged between the discharging seat (4a) and the adjacent bearing seat (2), one end of the discharging seat (4a) is tightly abutted to the cutting seat (3a), and the other end of the discharging seat (4a) is tightly abutted to the second protective sleeve (8).

9. A main shaft structure of a filament kneading machine according to claim 8, characterized in that: a plurality of positioning holes are formed in the chopping seat (2a), the cutting seat (3a) and the discharging seat (4a) in a penetrating mode, and fixing bolts penetrate through the positioning holes.

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