CN214416661U - Massa Medicata Fermentata machine - Google Patents

Abstract

The application relates to a medicated leaven machine, including pelletization mechanism, the one side that is located pelletization mechanism is provided with the screen cloth, is located one side of screen cloth is provided with the first vibrating structure of drive screen cloth vibration, is located the below of screen cloth is provided with first support frame, is located first support frame with be provided with first elastic component between the screen cloth. This application has and makes can directly sieve the medicine grain after the pelletization to reduce the effect of later stage operating personnel's work load.

Description

Massa Medicata Fermentata machine

Technical Field

The application relates to the field of traditional Chinese medicine equipment, in particular to a medicated leaven machine.

Background

Medicated leaven, name of traditional Chinese medicine. The yeast is prepared by adding flour or bran into medicine such as polygonum hydropiper, sweet wormwood, almond and the like, mixing and fermenting, and has the effects of promoting digestion and harmonizing stomach. The finished product has a gray-white to yellowish surface, is rough, crisp and fragile; it is stale and slightly bitter.

The preparation method comprises the following steps: pulverizing semen Armeniacae amarum and semen Phaseoli into coarse powder, mixing with flour and testa Tritici, decocting herba Polygoni Hydropiperis, herba Artemisiae Annuae and herba Xanthii in water for 1 hr, filtering, concentrating the filtrate into fluid extract, mixing with the above medicinal powder while hot, maintaining appropriate temperature and humidity, naturally fermenting until yellow-white or off-white mildew coat is formed on the surface, taking out, pulverizing, and drying.

The traditional medicated leaven support generally adopts a medicated leaven machine, and medicated leaven is made into granular medicine granules, so that the medicated leaven is convenient for patients to use and is convenient for later transportation, storage and other operations.

In view of the above-mentioned related technologies, the inventor believes that the granular medicine granules obtained by self-taking in the existing medicated leaven machine will generate smaller medicine dregs which do not meet the regulations, so that the later stage needs to be filtered by a screen manually, and the filtering process is time-consuming and labor-consuming.

SUMMERY OF THE UTILITY MODEL

In order to make can directly sieve the medicine grain after the pelletization to reduce later stage operating personnel's work load, this application provides a medicated leaven machine.

The application provides a medicated leaven machine adopts following technical scheme:

the utility model provides a medicated leaven machine, is provided with the screen cloth including pelletization mechanism, the one side that is located pelletization mechanism, is located one side of screen cloth is provided with the first vibrating structure of drive screen cloth vibration, is located the below of screen cloth is provided with first support frame, is located first support frame with be provided with first elastic component between the screen cloth.

Through adopting above-mentioned technical scheme, vibrate the screen cloth through first vibrating structure, make the screen cloth vibrate the material that is located on the screen cloth, the material drops less dregs of a decoction from the hole of screen cloth at the in-process that rocks to the medicine grain that will accord with the regulation separates with the dregs of a decoction that is not conform to the regulation, makes directly sieve the medicine grain after the pelletization, thereby reduces later stage operating personnel's work load.

Optionally, pelletization mechanism is including the pelletization shell, the inside level of pelletization shell is provided with the flight, is located the flight deviates from one side of screen cloth is provided with the drive the flight carries out pivoted first driving piece, the pelletization shell is close to a plurality of pelletization holes have been seted up to one side of screen cloth, are close to rotate on the pelletization shell of screen cloth one side and be connected with the cutting knife.

Through adopting above-mentioned technical scheme, drive the flight through first driving piece and rotate, make and be located the inside raw materials orientation of pelletization shell and remove near one side of screen cloth to keep away from and extrude through the inside in flight extrusion self-control grain hole, form long banding medicine strip, and then cut the medicine strip through pivoted cutting knife, make the medicine strip become regular graininess.

Optionally, first vibrating structure is including the first cam that the level set up, is located one side of first cam is provided with the drive first cam pivoted second driving piece is located first cam is close to one side of screen cloth is provided with first vibrating arm, the last fixed cover of first vibrating arm is equipped with first flange, is located fixed being provided with first limiting plate on the first vibrating arm, is located first flange with be provided with the second elastic component between the first limiting plate.

Through adopting above-mentioned technical scheme, the second driving piece drives first cam and rotates, make first cam drive first vibrating arm remove along the axis direction of first vibrating arm, through the second elastic component on the first vibrating arm, make the second elastic component promote first vibrating arm towards one side of first cam, thereby be the state of butt constantly with first vibrating arm and first cam, along with the rotation of first cam, make first vibrating arm can carry out reciprocating motion, and then vibrate the screen cloth.

Optionally, the screen is inclined downwardly towards a side facing away from the granulating mechanism.

Through adopting above-mentioned technical scheme, the screen cloth orientation deviates from one side downward sloping of pelletization structure for the in-process of material vibration on the screen cloth can move towards the one side that deviates from pelletization mechanism, reduces the piling up of the material that is located on the screen cloth, also can be convenient for continue to make the material move to next step, accelerate the speed of processing.

Optionally, be located one side that the screen cloth deviates from pelletization mechanism is provided with stoving mechanism, stoving mechanism is including the stoving shell, is located the inside of stoving shell is provided with the drying-machine, is located the inside of stoving shell is provided with time delay subassembly.

Through adopting above-mentioned technical scheme, can carry out the drying with the air that is located drying shell inside through the drying-machine to the inside material that will enter into drying shell can fast drying, and then can reduce because the emergence of the mutual bonding or the damaged condition that the medicinal material humidity caused, increased final off-the-shelf quality.

Optionally, the delay assembly includes a first drying plate and a second drying plate which are arranged in a staggered manner, and the first drying plate and the second drying plate are inclined downwards towards the opposite side.

Through adopting above-mentioned technical scheme, can increase the time of material in the inside of stoving shell through the first stoving board and the second stoving board that set up mutually in the wrong position to increase the dry effect of material, and make the material along with can be dried more abundant in the inside roll of stoving shell.

Optionally, be located one side of the discharge gate of time delay subassembly is provided with wraps up in whitewashed subassembly, wrap up in whitewashed subassembly including wrapping up in whitewashed shell, be located one side of wrapping up in whitewashed shell is provided with second vibrating structure, is located wrap up in the below of whitewashed shell and be provided with the third elastic component.

Through adopting above-mentioned technical scheme, dry powder such as flour is put into through the inside to wrapping up in the powder shell to with the even surface of rolling to the medicinal material granule of powder, thereby the condition of production bonding between the medicinal material granule when can reducing the later stage and store makes off-the-shelf material quality better.

Optionally, the second vibrating structure is including the second cam that the level set up, is located one side of second cam is provided with the drive second cam pivoted third driving piece is located the second cam is close to one side of wrapping up in the powder shell is provided with the second vibrating arm, the last fixed cover of second vibrating arm is equipped with the second flange, is located the fixed second limiting plate that is provided with on the second vibrating arm, is located the second flange with be provided with the fourth elastic component between the second limiting plate.

Through adopting above-mentioned technical scheme, the third driving piece drives the second cam and rotates, make the second cam drive the second vibrating arm and remove along the axis direction of second vibrating arm, through the fourth elastic component on the second vibrating arm, make the fourth elastic component promote the second vibrating arm towards one side of second cam, thereby be the state of butt with second vibrating arm and second cam constantly, along with the rotation of second cam, make the second vibrating arm can carry out reciprocating motion, and then vibrate the wrapping up in the powder shell.

Optionally, the powder wrapping shell is inclined downwards towards one side departing from the drying shell.

Through adopting above-mentioned technical scheme, wrap up in one side downward sloping that the powder shell orientation deviates from the stoving shell for the material can move towards the one side that deviates from the stoving shell at the in-process of wrapping up in the vibration on the powder shell, reduces the piling up of the material that is located the stoving shell, also can be convenient for continue to make the material move to next step, accelerate the speed of processing.

Optionally, a first sealing door is arranged at the feed inlet of the powder wrapping shell, a fourth driving part for driving the first sealing door to move up and down is arranged on one side of the first sealing door, a second sealing door is arranged at the discharge outlet of the powder wrapping shell, and a fifth driving part for driving the second sealing door to move up and down is arranged on one side of the second sealing door.

Through adopting above-mentioned technical scheme, through opening and closing of first sealing door and second sealing door, can reduce to be located inside the powder dispersion outside air of wrapping up in the inside powder shell, reduce the waste of material, and can protect operating personnel's operational environment.

In summary, the present application includes at least one of the following beneficial technical effects:

1. vibrate the screen cloth through first vibrating structure, make the screen cloth vibrate the material that is located on the screen cloth, the material drops less dregs of a decoction from the hole of screen cloth at the in-process that rocks to the medicine grain that will accord with the regulation separates with the dregs of a decoction that is not conform to the regulation, makes and can directly sieve the medicine grain after the pelletization, thereby reduces later stage operating personnel's work load.

2. The second driving piece drives the first cam to rotate, the first cam drives the first vibrating rod to move along the axis direction of the first vibrating rod, the second elastic piece on the first vibrating rod enables the second elastic piece to push the first vibrating rod towards one side of the first cam, the first vibrating rod and the first cam are in a butt state constantly, and the first vibrating rod can reciprocate along with rotation of the first cam and further vibrate the screen.

Drawings

Fig. 1 is a schematic view of the overall structure of a medicated leaven machine in an embodiment of the present application;

FIG. 2 is a schematic view of a granulation mechanism of a Massa Medicata Fermentata machine in an embodiment of the present application;

FIG. 3 is a schematic diagram of a screen structure of a Massa Medicata Fermentata machine in an embodiment of the present application;

FIG. 4 is an enlarged view of portion A of FIG. 3;

fig. 5 is a schematic view of a drying structure of a medicated leaven machine in an embodiment of the present application;

FIG. 6 is a schematic view of a breading assembly of a Massa Medicata Fermentata machine in an embodiment of the present application;

fig. 7 is an enlarged view of a portion B in fig. 6.

Description of reference numerals: 1. a granulation mechanism; 11. granulating the shell; 12. a granulation feed inlet; 13. a spiral sheet; 14. a first rotating electric machine; 15. granulating holes; 16. a rotating shaft; 17. a cutting knife; 2. screening a screen; 21. a first support frame; 22. a first spring; 23. a first material storage box; 3. a first vibrating structure; 31. a first support plate; 32. a first cam; 33. a second rotating electric machine; 34. a first vibratory rod; 341. a first flange; 342. a first limit plate; 343. a second spring; 4. a drying mechanism; 41. drying the shell; 42. a dryer; 43. a first drying plate; 44. a second drying plate; 45. a bearing plate; 5. a powder wrapping assembly; 51. a second support frame; 52. wrapping the powder shell; 53. a third spring; 54. a first sealing door; 541. a first hydraulic cylinder; 55. a second sealing door; 551. a second hydraulic cylinder; 56. a second material storage tank; 6. a second vibrating structure; 61. a second support plate; 62. a second cam; 63. a third rotating electric machine; 64. a second vibratory rod; 641. a second flange; 642. a second limiting plate; 643. and a fourth spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses a medicated leaven machine. Referring to fig. 1 and 2, a medicated leaven machine comprises a granulating mechanism 1, wherein the granulating mechanism 1 comprises a cylindrical granulating shell 11, a screen 2 is arranged on one side of a discharge port of the granulating shell 11, a drying mechanism 4 is arranged on one side of the screen 2 departing from the granulating mechanism 1, the drying mechanism 4 comprises a rectangular drying shell 41, a powder wrapping component 5 is arranged on one side of the discharge port of the drying shell 41, and the powder wrapping component 5 and the screen 2 are arranged on the same side of the drying mechanism 4.

The granulation shell 11 is horizontally arranged, and a granulation feeding hole 12 is formed in one side, deviating from the screen 2, above the granulation shell 11. A spiral slice 13 is horizontally and rotatably connected in the granulating shell 11, and the spiral slice 13 and the granulating shell 11 are coaxially arranged. Lie in the granulation shell 11 and deviate from one side level of screen cloth 2 and be provided with first rotation motor 14, fixed connection between first rotation motor 14 and the granulation shell 11, and the motor shaft of first rotation motor 14 stretches into and rotates the connection from the lateral wall of granulation shell 11, and coaxial setting and fixed connection between first rotation motor 14's motor shaft and the flight 13. The first rotary motor 14 thus rotates the screw 13, which moves the material inside the granulation housing 11 towards the side of the screen 2.

The lateral wall that is located pelletization shell 11 and is close to one side of screen cloth 2 has seted up a plurality of pelletization holes 15, and pelletization hole 15 runs through the lateral wall of pelletization shell 11, and the centre of a circle position that is located the lateral wall of pelletization shell 11 rotates and is connected with axis of rotation 16, and axis of rotation 16 runs through the lateral wall of pelletization shell 11, and with coaxial setting and fixed connection between 13 of flight. The side wall of the part of the rotating shaft 16, which is positioned at the outer side of the granulating shell 11, is fixedly connected with a cutting knife 17, and one side of the cutting knife 17, which is close to the granulating shell 11, is abutted against the granulating shell 11.

Drive the flight 13 through first rotation motor 14 and rotate to drive the material and remove towards one side of screen cloth 2, along with the rotation of flight 13, drive axis of rotation 16 and rotate, and then drive cutting knife 17 and rotate, the material is from the medicine strip that granule hole 15 formed rectangular shape, forms graininess medicine grain through the rotation of cutting knife 17.

Referring to fig. 1 and 3, a first support frame 21 is arranged below the screen 2, the upper surface of the first support frame 21 is inclined downwards towards the side away from the granulating shell 11, the screen 2 is connected with the first support frame 21 through a first spring 22, and the screen 2 is inclined downwards towards the side away from the granulating shell 11. The first springs 22 are respectively located on two opposite sides of the first support frame 21 along the length direction, and are equidistantly arranged along the length direction of the first support frame 21, one end of each first spring 22 is fixedly connected with the lower surface of the screen 2, and the other end of each first spring 22 is fixedly connected with the upper surface of the first support frame 21.

Referring to fig. 3 and 4, a first vibration structure 3 is arranged at one end of the screen 2 in the width direction, the first vibration structure 3 includes a first support plate 31 horizontally and fixedly connected to the first support frame 21, a first cam 32 is horizontally arranged above the first support plate 31, a second rotation motor 33 is vertically arranged at the rotation center of the first cam 32, a motor shaft of the second rotation motor 33 is fixedly connected to the first cam 32, and the second rotation motor 33 is fixedly connected to the first support plate 31.

A first vibratory rod 34 is horizontally provided at one end of the side wall of the first cam 32 close to the mesh 2, both ends of the first vibratory rod 34 are respectively abutted against the first cam 32 and the mesh 2, a first flange 341 is fixedly provided on the shaft of the first vibratory rod 34, and the first flange 341 and the first vibratory rod 34 are coaxially provided. One side of the first flange 341, which is away from the first cam 32, is vertically provided with a first limiting plate 342, the first limiting plate 342 is slidably connected with the first vibrating rod 34, and the bottom end of the first limiting plate 342 is fixedly connected with the first supporting plate 31. The second spring 343 is sleeved on a portion of the first oscillating rod 34 located between the first limiting plate 342 and the first flange 341, and two ends of the second spring 343 are respectively fixedly connected with the first limiting plate 342 and the first flange 341.

The second rotating motor 33 drives the first cam 32 to rotate, so as to drive the first vibrating rod 34 to move along the axial direction, and when the first cam 32 moves the first vibrating rod 34 towards the side close to the screen 2, the first vibrating rod 34 moves the screen 2 towards the side far away from the first cam 32; when the first cam 32 continues to rotate, the second spring 343 pushes the first vibrating rod 34 to move toward the side close to the first cam 32, so that the screen 2 is moved toward the side close to the first cam 32 by the first spring 22; as the first cam 32 continues to rotate, the first vibratory rod 34 is allowed to reciprocate, thereby allowing the screen 2 to vibrate reciprocally.

Referring to fig. 1 and 3, a first storage tank 23 is disposed below the screen 2, the first storage tank 23 is a rectangular hollow tank with an open upper end, and unqualified materials screened by the screen 2 can be collected by the first storage tank 23 for reprocessing.

Referring to fig. 1 and 5, the drying casing 41 is a rectangular hollow casing, and an opening is opened at a position of the drying casing 41 relative to the screen 2, so that the material moves from the screen 2 to the inside of the drying casing 41. A dryer 42 is disposed on the upper surface of the drying casing 41, an air inlet of the dryer 42 is disposed on the outer side of the drying casing 41, and an air outlet of the dryer 42 is disposed inside the drying casing 41. The inside of the drying casing 41 is dried by the dryer 42, thereby drying the materials located inside the drying casing 41.

The first drying plates 43 and the second drying plates 44 are respectively arranged inside the dryer 42 in a vertically staggered manner, the number of the first drying plates 43 is three, and the second drying plates 44 are respectively arranged between the two first drying plates 43 and are arranged in parallel relatively.

The first drying plate 43 is provided to be gradually inclined downward from the side close to the screen 2 to the side far from the screen 2 in the width direction of the screen 2, and the second drying plate 44 is provided to be gradually inclined downward from the side far from the screen 2 to the side close to the screen 2 in the width direction of the screen 2. The lowest end of the first drying plate 43 is spaced apart from the drying casing 41, and the lowest end of the second drying plate 44 is spaced apart from the drying casing 41. The lowest end of the first drying plate 43 located at the lowest position is horizontally and fixedly provided with a bearing plate 45, and the bearing plate 45 is fixedly connected with the drying shell 41. An opening is formed at a position of the drying casing 41 opposite to the receiving plate 45.

Referring to fig. 1 and 6, the powder wrapping component 5 includes a second support frame 51, the upper surface of the second support frame 51 is inclined downward toward the side away from the drying shell 41, a powder wrapping shell 52 is arranged above the second support frame 51, the powder wrapping shell 52 is a rectangular hollow shell, openings are respectively arranged at two ends of the powder wrapping shell 52 close to the drying shell 41 and far away from the drying shell 41, the lower portion of the side wall of the drying shell 41 at the side close to the drying shell 41 and wrapped by the powder wrapping shell 52 is communicated, and the bottom wall of the inner side of the drying shell 41 is flush with the upper surface of the bearing plate 45. The powder wrapping shell 52 is connected with the second support frame 51 through a third spring 53, and the powder wrapping shell 52 is obliquely arranged towards one side departing from the drying shell 41. The third springs 53 are respectively located on two side walls of the second support frame 51 along the length direction, and are equidistantly arranged along the length direction of the second support frame 51, one end of each third spring 53 is fixedly connected with the lower surface of the powder wrapping shell 52, and the other end of each third spring 53 is fixedly connected with the lower surface of the second support frame 51.

Referring to fig. 6 and 7, a second vibration structure 6 is arranged at one end of the powder wrapping housing 52 in the width direction, the second vibration structure 6 includes a second support plate 61 horizontally and fixedly connected to the second support frame 51, a second cam 62 is horizontally arranged above the second support plate 61, a third rotating motor 63 is vertically arranged at the rotation center of the second cam 62, a motor shaft of the third rotating motor 63 is fixedly connected to the second cam 62, and the third rotating motor 63 is fixedly connected to the second support plate 61.

A second vibrating rod 64 is horizontally arranged on the side of the side wall of the second cam 62 close to the powder coating outer shell 52, both ends of the second vibrating rod 64 are respectively abutted against the second cam 62 and the powder coating outer shell 52, a second flange 641 is fixedly arranged on the rod body of the second vibrating rod 64, and the second flange 641 and the second vibrating rod 64 are coaxially arranged. One side of the second flange 641 departing from the second cam 62 is vertically provided with a second limiting plate 642, the second limiting plate 642 is slidably connected with the second vibrating rod 64, and the bottom end of the second limiting plate 642 is fixedly connected with the second supporting plate 61. A fourth spring 643 is sleeved on a portion of the second oscillating rod 64 located between the second limiting plate 642 and the second flange 641, and two ends of the fourth spring 643 are fixedly connected to the second limiting plate 642 and the second flange 641 respectively.

The third rotating motor 63 drives the second cam 62 to rotate, so as to drive the second vibrating rod 64 to move along the axial direction, and when the second cam 62 moves the second vibrating rod 64 towards the side close to the powder coating shell 52, the second vibrating rod 64 moves the powder coating shell 52 towards the side away from the second cam 62; when the second cam 62 continues to rotate, the fourth spring 643 pushes the second vibrating rod 64 to move towards the side close to the second cam 62, so that the powder coating shell 52 moves towards the side close to the second cam 62 under the driving of the third spring 53; with the continuous rotation of the second cam 62, the second vibrating rod 64 is enabled to perform reciprocating movement, and thus the powder coating housing 52 is enabled to perform reciprocating vibration.

Referring to fig. 1 and 6, a first sealing door 54 is vertically arranged on a side wall of the powder wrapping casing 52 close to the drying casing 41, the first sealing door 54 is in sliding connection with the powder wrapping casing 52, a first hydraulic cylinder 541 is vertically and fixedly arranged on one side of the upper surface of the powder wrapping casing 52 close to the drying casing 41, and a hydraulic rod of the first hydraulic cylinder 541 is fixedly connected with the first sealing door 54. When the hydraulic rod of the first hydraulic cylinder 541 extends out, the first sealing door 54 can be driven to move upwards, so that the interior of the powder wrapping shell 52 is exposed, and the materials can enter the interior of the powder wrapping shell 52 from the drying shell 41.

The lateral wall of one side of the powder wrapping shell 52 departing from the drying shell 41 is vertically provided with a second sealing door 55, the second sealing door 55 is connected with the powder wrapping shell 52 in a sliding manner, the upper surface of the powder wrapping shell 52 is vertically and fixedly provided with a second hydraulic cylinder 551 on one side departing from the drying shell 41, and a hydraulic rod of the second hydraulic cylinder 551 is fixedly connected with the second sealing door 55. When the hydraulic rod of the second hydraulic cylinder 551 extends out, the second sealing door 55 can be driven to move upwards, so that the interior of the powder wrapping shell 52 is exposed, and the material can be discharged from the interior of the powder wrapping shell 52.

One side that is located and wraps up in powder shell 52 and deviates from stoving shell 41 is provided with second storage case 56, and second storage case 56 is the cavity of rectangle and upper end open-ended casing to the inside that can enter into second storage case 56 from wrapping up in the discharged material of powder shell 52 is collected.

The implementation principle of the medicated leaven machine in the embodiment of the application is as follows: arrange on the screen cloth 2 through the medicine grain that will make from the grain of control shell 11 preparation, thereby start first rotation motor 14, first rotation motor 14 drives first cam 32 and rotates, and then drive first vibrating arm 34 and remove towards the one side that is close to screen cloth 2, along with the removal of first vibrating arm 34 drives first flange 341 orientation and removes near one side of screen cloth 2, thereby compress second spring 343, when continuing to rotate along with first cam 32, second spring 343 promotes first vibrating arm 34 and removes towards the one side that is close to first cam 32, make first vibrating arm 34 and first cam 32 looks butt constantly, thereby vibrate screen cloth 2 through first vibrating structure 3, and then make the material that is located on the screen cloth 2 rock, make the less material that does not accord with the requirement can enter into the inside of first storage case 23.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A medicated leaven machine, which is characterized in that: including pelletization mechanism (1), one side that is located pelletization mechanism (1) is provided with screen cloth (2), is located one side of screen cloth (2) is provided with first vibration structure (3) of drive screen cloth (2) vibration, is located the below of screen cloth (2) is provided with first support frame (21), is located first support frame (21) with be provided with first elastic component between screen cloth (2).

2. A koji machine according to claim 1, wherein: pelletization mechanism (1) is including pelletization shell (11), the inside level of pelletization shell (11) is provided with flight (13), is located flight (13) deviates from one side of screen cloth (2) is provided with the drive flight (13) carry out pivoted first driving piece, pelletization shell (11) are close to a plurality of pelletization holes (15) have been seted up to one side of screen cloth (2), are close to rotate on pelletization shell (11) of screen cloth (2) one side and are connected with cutting knife (17).

3. A koji machine according to claim 1, wherein: first vibrating structure (3) is including first cam (32) that the level set up, is located one side of first cam (32) is provided with the drive first cam (32) pivoted second driving piece is located first cam (32) are close to one side of screen cloth (2) is provided with first vibrating arm (34), the last fixed cover of first vibrating arm (34) is equipped with first flange (341), is located fixed being provided with first limiting plate (342) on first vibrating arm (34), is located first flange (341) with be provided with the second elastic component between first limiting plate (342).

4. A koji machine according to claim 1, wherein: the screen (2) is arranged towards one side deviating from the granulating mechanism (1) in a downward inclined mode.

5. A koji machine according to claim 1, wherein: be located screen cloth (2) deviate from one side of pelletization mechanism (1) is provided with stoving mechanism (4), stoving mechanism (4) are provided with drying-machine (42) including drying shell (41), are located the inside of drying shell (41) is provided with the time delay subassembly.

6. A koji machine according to claim 5, wherein: the time delay assembly comprises a first drying plate (43) and a second drying plate (44) which are arranged in a staggered mode, and the first drying plate (43) and the second drying plate (44) are inclined downwards towards the opposite side.

7. A koji machine according to claim 6, wherein: lie in one side of the discharge gate of time delay subassembly is provided with wraps up in whitewashed subassembly (5), wrap up in whitewashed subassembly (5) including wrapping up in whitewashed shell (52), lie in one side of wrapping up in whitewashed shell (52) is provided with second vibration structure (6), lie in wrap up in the below of whitewashed shell (52) and be provided with the third elastic component.

8. A koji machine according to claim 7, wherein: second vibrating structure (6) is including second cam (62) that the level set up, is located one side of second cam (62) is provided with the drive second cam (62) pivoted third driving piece is located second cam (62) is close to wrap up in one side of powder shell (52) and be provided with second vibrating arm (64), fixed cover on second vibrating arm (64) is equipped with second flange (641), is located fixed being provided with second limiting plate (642) on second vibrating arm (64), is located second flange (641) with be provided with the fourth elastic component between second limiting plate (642).

9. A koji machine according to claim 7, wherein: the powder wrapping shell (52) is arranged towards one side departing from the drying shell (41) in a downward inclined mode.

10. A koji machine according to claim 7, wherein: a first sealing door (54) is arranged at a feeding hole of the powder wrapping shell (52), a fourth driving part for driving the first sealing door (54) to move up and down is arranged on one side of the first sealing door (54), a second sealing door (55) is arranged at a discharging hole of the powder wrapping shell (52), and a fifth driving part for driving the second sealing door (55) to move up and down is arranged on one side of the second sealing door (55).

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