CN219363579U - Auxiliary yeast adding and leveling device and yeast adding and spreading and airing equipment - Google Patents

Abstract

The utility model provides a yeast adding auxiliary pushing device and a yeast adding device for spreading and airing. This add bent supplementary pushing equipment installs the mounting frame at the output of hopper, install along horizontal direction slidable mounting on the frame inner wall and push away the flat piece, push away the bottom wall of flat piece and the output of hopper and flush, and push away flat piece and power assembly drive connection, power assembly can drive push away flat piece along horizontal direction reciprocating motion, like this, when the curved medicine is added in the hopper, along with the rise of height, its sectional area reduces, the clearance between the surface of curved medicine and the inner wall of hopper is bigger and bigger, and finally form conical structure in the top of output, at this moment, move along the horizontal direction through power assembly drive push away flat piece, because the diapire of push away flat piece flushes with the output, consequently, can push away the curved medicine that discharges the hopper between curved medicine surface in the hopper and the inner wall of hopper, thereby effectively reduce the waste of curved medicine in-hopper space, guarantee the production efficiency of mixing the curved in-process.

Description

Auxiliary yeast adding and leveling device and yeast adding and spreading and airing equipment

Technical Field

The utility model relates to the technical field of white spirit brewing equipment, in particular to a yeast adding auxiliary pushing device and a yeast adding equipment for spreading and airing.

Background

In the process of mixing yeast in the white spirit brewing process, yeast medicine is required to be added into the grain lees after spreading and airing through a hopper, and mixing and stirring are carried out, so that the grain lees after adding yeast after stirring is obtained, and the subsequent fermentation process is carried out.

At present, when yeast is added through a hopper, yeast medicine is firstly added into the hopper, and when the grain lees after spreading and airing are passed through the output end of the hopper, the yeast medicine is placed on the grain lees through the output end, so that the yeast adding process is completed.

However, the hopper is of an inverted cone structure, and after the yeast is added into the hopper, the cross section area of the hopper is gradually reduced while the height of the hopper is increased, so that a gap exists between the outer surface of the yeast in the hopper and the inner wall of the hopper, the space of the hopper is easy to waste, the number of times of adding the yeast into the hopper is increased, and the production efficiency of the yeast stirring process is seriously influenced.

Disclosure of Invention

The utility model solves the problem of reducing the waste of the space in the hopper so as to ensure the production efficiency in the process of mixing the yeast.

In order to solve the problems, in one aspect, the utility model provides a yeast adding auxiliary pushing device, which comprises a frame body, a hopper, a pushing block, a power assembly and a mounting frame, wherein the hopper is mounted on the frame body and is used for placing yeast, the axis of the hopper is parallel to the vertical direction, the mounting frame is mounted on the output end of the hopper, the pushing block is slidably mounted on the inner wall of the mounting frame along the horizontal direction, the bottom wall of the pushing block is flush with the output end of the hopper, the pushing block is in driving connection with the power assembly, and the power assembly is used for driving the pushing block to reciprocate along the horizontal direction.

Compared with the prior art, the auxiliary bending and flattening device has the beneficial effects that: the frame body is used as a supporting structure, the hopper is used as a containing structure of yeast, and the hopper is arranged on the frame body along the vertical direction, so that yeast is conveniently put into the hopper from top to bottom, and the yeast is conveniently dropped into a grain tank to be added with yeast under the combined action of gravity and the supporting force of the side wall of the hopper; the installation frame is installed at the output of hopper, install on the frame inner wall along horizontal direction slidable mounting push down the piece, push down the diapire of piece and the output of hopper flush, and push down the piece and be connected with the power assembly drive, the power assembly can drive push down the piece along horizontal direction reciprocating motion, in the time of the curved medicine is added to the hopper, along with the rise of height, its sectional area reduces, the clearance between the outer surface of curved medicine and the inner wall of hopper is bigger and bigger, and finally form the taper structure in the top of output, at this moment, through the power assembly drive push down the piece along horizontal direction removal, because the diapire of push down the piece flushes with the output, consequently, can push out the curved medicine of hopper between curved medicine surface in the hopper and the inner wall of hopper, thereby effectively reduce the waste of hopper inner space, guarantee the production efficiency in the curved process of mixing.

Optionally, the power assembly includes flexible driving piece and slider, be equipped with on the installing frame lateral wall along the spout that the horizontal direction set up, the slider is located the outside of installing frame, and pass the spout with the pushing away the flat piece and be connected, the slider with flexible driving piece drive connection, flexible driving piece is used for the drive the slider is followed horizontal direction reciprocating motion.

Optionally, the power assembly further includes a first sliding rail assembly and a pulley assembly, the first sliding rail assembly is disposed on an outer wall of the mounting frame along the horizontal direction, the pulley assembly is mounted on the first sliding rail assembly and connected with the sliding block, and the pulley assembly is used for reciprocating along the first sliding rail assembly.

Optionally, the first slide rail subassembly includes two slide bars and two mounting panels, two the mounting panel is followed the horizontal direction interval sets up, and all with the outer wall of mounting frame is connected, the both ends of slide bar are connected with two respectively the mounting panel, two the slide bar is followed the vertical direction interval sets up, the pulley assembly installs two between the slide bar, and with slide bar butt.

Optionally, the pulley assembly includes backup pad, first pulley and second pulley, the backup pad is the recess board, two vertical ends of recess board are located respectively the both sides of slide bar, first pulley has a plurality ofly, and a plurality of first pulley symmetry sets up the both sides of slide bar, and respectively with two vertical ends are connected, the second pulley is installed two between the slide bar, a vertical end of recess board with the slider is connected, another vertical end of recess board with the second pulley is connected, first pulley with the second pulley all is used for following slide bar reciprocating motion.

Optionally, the flattening device of the adding Qu Fuchu further comprises a supporting frame and a shell, the frame body is used for being installed on the supporting frame, so that the hopper outputs the yeast to a yeast adding area, the telescopic driving piece is installed on the supporting frame, the shell covers the power assembly and is connected with the installation frame, and the telescopic driving piece is an air cylinder.

Optionally, the flattening device of the flattening device Qu Fuchu further comprises a second sliding rail assembly and a sealing layer, wherein the second sliding rail assembly is arranged on the inner wall of the mounting frame along the horizontal direction, the side wall of the flattening block is in sliding connection with the second sliding rail assembly, and the sealing layer is respectively arranged on the side wall of the flattening block and the second sliding rail assembly.

Optionally, the second sliding rail assembly includes first slide and second slide, first slide with the second slide is all followed the horizontal direction is installed on the inner wall of installing the frame, first slide with the second slide is followed the vertical direction interval sets up, the spout is located first slide with between the second slide, the sealing layer is located respectively first slide with on the second slide.

Optionally, the flattening device of adding Qu Fuchu still includes feeding ring and rotary driving piece, feeding ring is the shaft-like structure, the recess is located along circumference interval on the axial wall of feeding ring, the recess sets up along the axial, feeding ring is located the output of hopper, and with the hopper rotates to be connected, feeding ring rotary driving piece drive connection, rotary driving piece is used for the drive feeding ring is rotatory, in order to break up curved medicine and output.

On the other hand, the utility model also provides a spreading and airing yeast adding device, which comprises the yeast adding auxiliary pushing device.

Compared with the prior art, the beneficial effects of the spreading and airing yeast adding device are the same as those of the yeast adding auxiliary pushing device, and are not repeated here.

Drawings

FIG. 1 is a schematic structural diagram of a device for assisting in flattening by adding yeast in an embodiment of the utility model;

FIG. 2 is a schematic diagram of a part of a structure of a device for assisting in flattening by adding yeast in an embodiment of the utility model;

FIG. 3 is an enlarged schematic view of A shown in FIG. 2;

FIG. 4 is a schematic diagram of a feeding ring according to an embodiment of the present utility model.

Reference numerals illustrate:

1-a frame body; 2-a hopper; 3-flattening blocks; 4-a power assembly; 41-telescoping drive; 42-sliding blocks; 43-a first slide rail assembly; 431-slide bar; 432-mounting plate; 44-pulley assembly; 441-supporting plates; 442-a first pulley; 443-a second pulley; 5-a second slide rail assembly; 51-a first sled; 52-a second slide; 6-a feeding circular ring; 7-supporting frames; 8-a housing; 9-mounting frame.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the coordinate system XYZ provided herein, the forward direction of the X axis represents the right direction, the reverse direction of the X axis represents the left direction, the forward direction of the Y axis represents the rear direction, the reverse direction of the Y axis represents the front direction, the forward direction of the Z axis represents the upper direction, and the reverse direction of the Z axis represents the lower direction. Also, it is noted that the terms "first," "second," and the like in the description and claims of the present utility model and in the above-described figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the utility model described herein may be implemented in sequences other than those illustrated or otherwise described herein.

On the one hand, a add bent supplementary device that pushes away, including support body 1, hopper 2, push away flat piece 3, power assembly 4 and mounting frame 9, hopper 2 is installed on support body 1, and be used for putting into bent medicine, the axis of hopper 2 is parallel with vertical direction, mounting frame 9 installs on the output of hopper 2, push away flat piece 3 along horizontal direction slidable mounting on the inner wall of mounting frame 9, push away flat piece 3's diapire and the output of hopper 2 flush, push away flat piece 3 and power assembly 4 drive connection, power assembly 4 is used for driving to push away flat piece 3 along horizontal direction reciprocating motion.

As shown in fig. 1 to 3, the horizontal direction is parallel to the XY plane, and the vertical direction is parallel to the Z axis.

In this embodiment, as shown in fig. 1 to 3, a frame 1 is provided as a supporting structure, a hopper 2 is provided as a containing structure of yeast, and the device is installed on the frame 1 along a vertical direction, so that yeast is conveniently placed into the hopper 2 from top to bottom, and the yeast is conveniently dropped into a grain tank to be added under the combined action of gravity and supporting force of the side wall of the hopper 2; the installation frame 9 is installed at the output of hopper 2, install flat piece 3 along horizontal direction slidable mounting on the installation frame 9 inner wall, the diapire of flat piece 3 flushes with the output of hopper 2, and flat piece 3 is connected with power assembly 4 drive, power assembly 4 can drive flat piece 3 along horizontal direction reciprocating motion, in this way, when the curved medicine is added in hopper 2, along with the increase in height, its cross-sectional area reduces, the clearance between the surface of curved medicine and the inner wall of hopper 2 is bigger and bigger, and finally at the top of output square taper structure, at this moment, move along the horizontal direction through power assembly 4 drive flat piece 3, because the diapire of flat piece 3 is fluctuated with the output, consequently, can push out the curved medicine of hopper 2 to the curved medicine surface in hopper 2 and the inner wall of hopper 2 between, thereby effectively reduce the waste of space in the hopper 2, guarantee the production efficiency of mixing the curved in-process.

Optionally, the power assembly 4 includes a telescopic driving member 41 and a sliding block 42, a sliding groove arranged along a horizontal direction is formed in a side wall of the mounting frame 9, the sliding block 42 is located outside the mounting frame 9 and connected with the pushing block 3 through the sliding groove, the sliding block 42 is in driving connection with the telescopic driving member 41, and the telescopic driving member 41 is used for driving the sliding block 42 to reciprocate along the horizontal direction.

As shown in fig. 1 to 3, in the present embodiment, the power assembly 4 is composed of a telescopic driving member 41 and a sliding block 42, a sliding groove arranged along a horizontal direction is provided on a side wall of the installation frame 9, wherein the sliding block 42 is provided outside the installation frame 9 and is connected with the pushing block 3 through the sliding groove, the telescopic driving member 41 is in driving connection with the sliding block 42, and the telescopic driving member 41 can drive the sliding block 42 to reciprocate along the horizontal direction, so that a driving force is output through the telescopic driving member 41, and then the pushing block 3 can be driven to reciprocate through the transmission of the sliding block 42, thereby achieving the purpose of pushing the drug.

Optionally, the powertrain 4 further includes a first slide rail assembly 43 and a pulley assembly 44, the first slide rail assembly 43 is disposed on the outer wall of the mounting frame 9 in the horizontal direction, the pulley assembly 44 is mounted on the first slide rail assembly 43 and connected with the slider 42, and the pulley assembly 44 is configured to reciprocate along the first slide rail assembly 43.

As shown in fig. 1 to 3, in the present embodiment, the power assembly 4 further includes a first sliding rail assembly 43 and a pulley assembly 44, where the first sliding rail assembly 43 is mounted on an outer wall of the mounting frame 9 along a horizontal direction, and the pulley assembly 44 is mounted on the first sliding rail assembly 43 and connected with the sliding block 42, and the pulley assembly 44 can reciprocate along the first sliding rail assembly 43, so after the driving force is output by the telescopic driving member 41, the sliding block 42 is driven to move, and at the same time, friction force generated when the sliding block 42 moves is reduced by rolling cooperation of the first sliding rail assembly 43 and the pulley assembly 44, so that smoothness of movement of the driving leveling block 3 is improved, and a sliding structure of the pulley assembly 44 and the first sliding rail assembly 43 is not required, so that greater positioning accuracy is not required, and dust in a workshop can be avoided from affecting use smoothness of the workshop, and applicability is improved.

Optionally, the first sliding rail assembly 43 includes two sliding bars 431 and two mounting plates 432, the two mounting plates 432 are disposed at intervals along a horizontal direction and are connected with an outer wall of the mounting frame 9, two ends of the sliding bars 431 are respectively connected with the two mounting plates 432, the two sliding bars 431 are disposed at intervals along a vertical direction, and the pulley assembly 44 is mounted between the two sliding bars 431 and is abutted with the sliding bars 431.

As shown in fig. 1 to 3, in the present embodiment, the first sliding rail assembly 43 includes two sliding bars 431 and two mounting plates 432, the two mounting plates 432 are disposed at intervals along a horizontal direction and are connected with an outer wall of the mounting frame 9, two ends of the sliding bars 431 are respectively connected with the two mounting plates 432, the two sliding bars 431 are disposed at intervals along a vertical direction, and the pulley assembly 44 is mounted between the sliding bars 431 and abuts against the sliding bars 431, so that stability of a sliding way formed by the two sliding bars 431 is ensured by the mounting plates 432, and the pulley assembly 44 slides along the sliding bars 431 conveniently, thereby improving smoothness of movement of the driving leveling block 3.

Optionally, the pulley assembly 44 includes a supporting plate 441, a first pulley 442 and a second pulley 443, the supporting plate 441 is a concave plate, two vertical ends of the concave plate are respectively located at two sides of the sliding rod 431, the first pulley 442 has a plurality of first pulleys 442 symmetrically disposed at two sides of the sliding rod 431 and respectively connected with the two vertical ends, the second pulley 443 is mounted between the two sliding rods 431, one vertical end of the concave plate is connected with the sliding block 42, the other vertical end of the concave plate is connected with the second pulley 443, and the first pulley 442 and the second pulley 443 are both used for reciprocating along the sliding rod 431.

As shown in fig. 1 to 3, in the present embodiment, the pulley assembly 44 is composed of a supporting plate 441, a first pulley 442 and a second pulley 443, wherein the supporting plate 441 is a concave plate, two vertical ends of the concave plate are respectively located at two sides of the sliding rod 431, and a plurality of opposite sides of the first pulley 442 are disposed at two sides of the sliding rod 431 and are respectively connected with the two vertical ends, so that when the first pulley 442 rolls along the sliding rod 431, the stress at two sides of the sliding rod 431 is balanced, and the smoothness of rolling is improved; the second pulley 443 is mounted between the two slide bars 431, one vertical end of the concave plate is connected with the slide block 42, and the other vertical end is connected with the second pulley 443, so that the second pulley 443 can roll along the slide bars 431, thereby further improving the smoothness of the movement of the slide block 42 and further improving the smoothness of the movement of the driving flattening block 3.

Optionally, the auxiliary bending pushing device further comprises a supporting frame 7 and a housing 8, the frame body 1 is used for being installed on the supporting frame 7, so that the hopper 2 outputs bending medicines to a bending area, the telescopic driving piece 41 is installed on the supporting frame 7, the housing 8 covers the power assembly 4 and is connected with the installation frame 9, and the telescopic driving piece 41 is an air cylinder.

As shown in fig. 1 to 3, in this embodiment, a supporting frame 7 and a housing 8 are further provided, and considering that the height of the grain tank spreading and airing platform is higher, the supporting frame 7 is provided, the frame body 1 can be mounted on the supporting frame 7, so as to raise the height of the hopper 2, and the telescopic driving member 41 can also be mounted on the supporting frame 7, so as to facilitate stable output of driving force, and the housing 8 covers the power assembly 4 and is connected with the mounting frame 9, so as to protect the power assembly 4 and avoid the influence of impurities such as dust in workshops on the stability of operation.

The telescopic driving tool 41 is a cylinder.

Optionally, the auxiliary bending pushing device further comprises a second sliding rail assembly 5 and a sealing layer, the second sliding rail assembly 5 is arranged on the inner wall of the mounting frame 9 along the horizontal direction, the side wall of the pushing block 3 is in sliding connection with the second sliding rail assembly 5, and the sealing layer is respectively arranged on the side wall of the pushing block 3 and the second sliding rail assembly 5.

As shown in fig. 1 to 3, in the present embodiment, a second slide rail assembly 5 is further provided on the inner wall of the mounting frame 9 in the horizontal direction, and the side wall of the pushing block 3 is slidably connected with the second slide rail assembly 5, so that stability and smoothness in moving the pushing block 3 are improved.

In addition, the side wall of the pushing block 3 and the second sliding rail component 5 are provided with sealing layers, and the sealing layers are hairbrush layers, so that the curved powder dust can be effectively prevented from flowing into the air.

Alternatively, the second slide rail assembly 5 includes a first slide plate 51 and a second slide plate 52, the first slide plate 51 and the second slide plate 52 are mounted on the inner wall of the mounting frame 9 along the horizontal direction, the first slide plate 51 and the second slide plate 52 are arranged at intervals along the vertical direction, the sliding groove is located between the first slide plate 51 and the second slide plate 52, and the sealing layers are respectively arranged on the first slide plate 51 and the second slide plate 52.

As shown in fig. 1 to 3, in the present embodiment, the second slide rail assembly 5 is composed of a first slide plate 51 and a second slide plate 52, the first slide plate 51 and the second slide plate 52 are both mounted on the inner wall of the mounting frame 9 in the horizontal direction and are disposed at intervals in the vertical direction, and the slide groove is located between the first slide plate 51 and the second slide plate 52, so that the movement stability and smoothness of the leveling block 3 can be improved through the second slide rail assembly 5, and the stable connection between the slide block 42 and the leveling block 3 is ensured.

In addition, the sealing layers are respectively arranged on the first sliding plate 51 and the second sliding plate 52, so that the flow of the yeast powder dust into the air can be further effectively stopped

Optionally, the auxiliary bending pushing device further comprises a feeding circular ring 6 and a rotary driving piece, the feeding circular ring 6 is of a rod-shaped structure, grooves are formed in the shaft wall of the feeding circular ring 6 at intervals along the circumferential direction, the grooves are axially formed, the feeding circular ring 6 is located at the output end of the hopper 2 and is rotationally connected with the hopper 2, the rotary driving piece of the feeding circular ring 6 is in driving connection, and the rotary driving piece is used for driving the feeding circular ring 6 to rotate so as to break up the bending medicine and output the bending medicine.

As shown in fig. 1 to 4, in this embodiment, a feeding ring 6 and a rotary driving member are further provided, where the feeding ring 6 is in a rod-shaped structure, grooves are circumferentially spaced on the shaft wall and axially provided, the feeding ring 6 is provided at the output end of the hopper 2 and rotationally connected with the hopper 2, and the rotary driving member can drive the feeding ring 6 to rotate around the axial direction, so that when the yeast falls to the output end of the hopper 2, the rotating feeding ring 6 can break up the yeast due to the grooves on the surface and the rotation of itself, and the uniformity of adding the yeast into the grain tank is improved.

In the present embodiment, the rotary driving member is a driving motor.

On the other hand, an embodiment of the utility model provides a spreading and airing yeast adding device, which comprises the yeast adding auxiliary pushing device.

As shown in fig. 1 to 4, the technical effects of the spreading and airing yeast adding device of the present embodiment are similar to those of the yeast adding auxiliary pushing device described above, and will not be described again here.

Although the present disclosure is described above, the scope of protection of the present disclosure is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the disclosure, and these changes and modifications will fall within the scope of the utility model.

Claims (10)

1. The utility model provides a add bent supplementary device of pushing away, its characterized in that, includes support body (1), hopper (2), pushes away flat piece (3), power assembly (4) and installing frame (9), hopper (2) are installed on support body (1), and be used for putting into bent medicine, the axis of hopper (2) is parallel with vertical direction, installing frame (9) are installed on the output of hopper (2), push away flat piece (3) along horizontal direction slidable mounting on the inner wall of installing frame (9), push away flat piece (3) diapire with the output of hopper (2) flushes, push away flat piece (3) with power assembly (4) drive connection, power assembly (4) are used for the drive push away flat piece (3) along horizontal direction reciprocating motion.

2. The yeast adding auxiliary pushing device according to claim 1, wherein the power assembly (4) comprises a telescopic driving piece (41) and a sliding block (42), a sliding groove arranged along the horizontal direction is formed in the side wall of the mounting frame (9), the sliding block (42) is located outside the mounting frame (9) and penetrates through the sliding groove to be connected with the pushing block (3), the sliding block (42) is in driving connection with the telescopic driving piece (41), and the telescopic driving piece (41) is used for driving the sliding block (42) to reciprocate along the horizontal direction.

3. The curved auxiliary pushing and leveling device according to claim 2, wherein the power assembly (4) further comprises a first slide rail assembly (43) and a pulley assembly (44), the first slide rail assembly (43) is arranged on the outer wall of the mounting frame (9) along the horizontal direction, the pulley assembly (44) is mounted on the first slide rail assembly (43) and connected with the sliding block (42), and the pulley assembly (44) is used for reciprocating along the first slide rail assembly (43).

4. A curved auxiliary pushing and leveling device according to claim 3, wherein the first sliding rail assembly (43) comprises two sliding bars (431) and two mounting plates (432), the two mounting plates (432) are arranged at intervals along the horizontal direction and are connected with the outer wall of the mounting frame (9), two ends of the sliding bars (431) are respectively connected with the two mounting plates (432), the two sliding bars (431) are arranged at intervals along the vertical direction, and the pulley assembly (44) is mounted between the two sliding bars (431) and is abutted to the sliding bars (431).

5. The auxiliary bending and leveling device according to claim 4, wherein the pulley assembly (44) comprises a supporting plate (441), a first pulley (442) and a second pulley (443), the supporting plate (441) is a concave plate, two vertical ends of the concave plate are respectively located at two sides of the sliding rod (431), the first pulley (442) is provided with a plurality of first pulleys (442) symmetrically arranged at two sides of the sliding rod (431) and respectively connected with two vertical ends, the second pulley (443) is mounted between the two sliding rods (431), one vertical end of the concave plate is connected with the sliding block (42), the other vertical end of the concave plate is connected with the second pulley (443), and the first pulley (442) and the second pulley (443) are both used for reciprocating along the sliding rod (431).

6. The auxiliary bending and leveling device according to any one of claims 2 to 5, further comprising a supporting frame (7) and a housing (8), wherein the frame (1) is configured to be mounted on the supporting frame (7) so that the hopper (2) outputs the bending agent to a bending area, the telescopic driving member (41) is mounted on the supporting frame (7), and the housing (8) covers the power assembly (4) and is connected with the mounting frame (9), and the telescopic driving member (41) is a cylinder.

7. The bending-assisted leveling device according to any one of claims 2 to 5, further comprising a second sliding rail assembly (5) and a sealing layer, wherein the second sliding rail assembly (5) is arranged on the inner wall of the mounting frame (9) along the horizontal direction, the side wall of the leveling block (3) is in sliding connection with the second sliding rail assembly (5), and the sealing layer is respectively arranged on the side wall of the leveling block (3) and the second sliding rail assembly (5).

8. The curved auxiliary pushing and leveling device according to claim 7, wherein the second sliding rail assembly (5) comprises a first sliding plate (51) and a second sliding plate (52), the first sliding plate (51) and the second sliding plate (52) are both mounted on the inner wall of the mounting frame (9) along the horizontal direction, the first sliding plate (51) and the second sliding plate (52) are arranged at intervals along the vertical direction, the sliding groove is located between the first sliding plate (51) and the second sliding plate (52), and the sealing layer is respectively arranged on the first sliding plate (51) and the second sliding plate (52).

9. The auxiliary bending and leveling device according to claim 1, further comprising a feeding circular ring (6) and a rotary driving piece, wherein the feeding circular ring (6) is of a rod-shaped structure, grooves are circumferentially formed in the shaft wall of the feeding circular ring (6) at intervals, the grooves are axially formed, the feeding circular ring (6) is located at the output end of the hopper (2) and is rotationally connected with the hopper (2), the rotary driving piece is in driving connection with the feeding circular ring (6), and the rotary driving piece is used for driving the feeding circular ring (6) to rotate so as to break up and output the bending medicine.

10. A spread-airing starter propagation device, characterized by comprising a starter propagation auxiliary pushing device as claimed in any one of claims 1 to 9.