CN117046367B - Automatic change edible fungi nourishment agitating unit - Google Patents

Abstract

The invention relates to the technical field of stirring devices and discloses an automatic edible fungus food stirring device which comprises a shell component, wherein the shell component comprises a top cover, a barrel and a bottom cover which are sequentially connected from top to bottom, a support is arranged on the top cover, a power component is arranged on the support, the power component comprises a motor and a rotating shaft, a material distributing disc and a stirring component are sleeved on the rotating shaft, the material distributing disc is positioned in a cavity of the top cover, the stirring component is positioned in a cavity of the bottom cover, an air inlet component is sleeved on the rotating shaft, a deep hole is formed in the bottom end of the rotating shaft, an air inlet hole and an air outlet hole which are communicated with the deep hole are formed in the rotating shaft, the air inlet hole is communicated with the air inlet component, and the air outlet hole is communicated with an air outlet rod. The high-temperature steam in the air outlet rod is discharged into the edible fungi food through the long groove, and the high-temperature steam passes through the edible fungi food to sterilize the edible fungi food, so that the growth of the edible fungi is prevented from being influenced by other fungi in the edible fungi food.

Description

Automatic change edible fungi nourishment agitating unit

Technical Field

The invention relates to the technical field of stirring devices, in particular to an automatic edible fungus nutrient stirring device.

Background

The culture material is a culture fungus material, and is mostly composed of rice bran, corncob, wheat bran and gypsum.

The existing fungus culture material is indispensable in the process of processing to stir and mix various half raw materials, and the culture material can be stirred and mixed through equipment, but because the proportion of ingredients is also required to be manually mixed, the refined materials with small dosage are often uneven in the process of preparing the ingredients, thereby influencing the consistency of the nutrient components of the edible fungus culture material after stirring, simultaneously the edible fungus culture material can generate certain heat in the stirring process, and the edible fungus culture material is easy to be polluted by mould, bacteria and other miscellaneous bacteria, so that the culture base material is deteriorated, and the quality of the edible fungus culture material is influenced.

Disclosure of Invention

The invention aims to provide an automatic edible fungus food stirring device so as to solve the problems in the background technology.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to an automatic edible fungus food stirring device which comprises a shell assembly, wherein the shell assembly comprises a top cover, a barrel and a bottom cover which are sequentially connected from top to bottom, a notch is formed in the top cover, a feeding piece is arranged on the notch, a discharge hole is formed in the bottom end of the bottom cover, and a plurality of supporting legs are arranged at the bottom of the bottom cover;

the top cover is provided with a bracket, and the bracket is provided with a power assembly;

the power assembly comprises a motor and a rotating shaft, the output end of the motor is connected with the rotating shaft through a coupler, one end of the rotating shaft penetrates through the top cover and stretches into a cavity formed by the cylinder body and the bottom cover, the rotating shaft is sleeved with a material distributing disc and a stirring assembly, the material distributing disc is positioned in the cavity of the top cover, and the stirring assembly is positioned in the cavity of the bottom cover;

the stirring assembly comprises stirring blades and air outlet rods, and a plurality of air outlet rods are arranged on the stirring blades;

the rotary shaft is sleeved with an air inlet assembly, a deep hole is formed in the bottom end of the rotary shaft, an air inlet hole and an air outlet hole which are communicated with the deep hole are formed in the rotary shaft, the air inlet hole is communicated with the air inlet assembly, the air outlet hole is communicated with an air outlet rod, a sealing ring is arranged at the bottom end of the rotary shaft, and the rotary shaft moving downwards drives the sealing ring to seal a discharge hole.

Further, the middle part of feed piece is equipped with the feed channel, feed channel and notch intercommunication, the inside annular that distributes around feed channel that is equipped with of feed piece, two mouth of pipe with inside intercommunication have been seted up on the lateral surface of feed piece, be equipped with the gas vent with inside intercommunication on the top cap, gas vent and a mouth of pipe intercommunication.

Further, the support includes expansion ring, solid fixed ring and hydraulic telescoping rod, gu fixed ring fixed mounting is on the lateral surface of top cap, gu fixed ring top is equipped with the expansion ring, install a plurality of hydraulic telescoping rod on the expansion ring, the expansion end of hydraulic telescoping rod is fixed on gu fixed ring, gu fixed mounting has the motor on the expansion ring.

Further, the round hole has been seted up at the middle part of top cap, the subassembly that admits air includes annular casing and step ring seat, the bottom of annular casing passes the inside that the round hole stretched into the top cap, annular casing stretches into the end outside and has cup jointed the step ring seat, forms the air inlet chamber between annular casing and the step ring seat, be equipped with the inlet connection pipe with the air inlet chamber intercommunication on the annular casing lateral surface, annular casing and step ring seat all cup joint in the outside of pivot, inlet port and inlet chamber intercommunication, simultaneously cup jointed the axle sleeve in the pivot, install the pin body between axle sleeve and the pivot, axle sleeve fixed mounting is in the inboard of step ring seat, install the spacing ring in the pivot, the spacing ring is located the air inlet chamber, and the spacing ring is located the upside of inlet port simultaneously.

Further, a plurality of first bulges are uniformly distributed on the end face of the extending end of the annular shell, and a plurality of second bulges are arranged on the contact surface of the step ring seat and the end part of the annular shell; the outside of step ring seat has cup jointed the branch charging tray, cup jointed the spacing subassembly that is located the branch charging tray downside in the pivot, spacing subassembly supports the branch charging tray.

Further, spacing subassembly includes screw thread seat and second spring, screw thread seat passes through fastening bolt fixed mounting in the pivot outside, screw thread seat top is equipped with the second spring that supports the feed tray, and the second spring cup joints in the pivot simultaneously, sleeve has been cup jointed in the outside of screw thread seat and second spring, telescopic top is fixed on the feed tray.

Further, a plurality of distributing blades are uniformly distributed on the peripheral side face of the distributing disc, and a plurality of convex teeth are arranged on the upper surface of each distributing blade.

Further, a one-way valve is arranged in the rotating shaft and comprises a conical ring, a ball body, a first spring and a ring seat, the conical ring is arranged on the inner wall of the deep hole and positioned on the lower side of the air inlet, the ring seat is arranged on the lower side of the conical ring, the first spring is arranged on the ring seat, the ball body is arranged at the top end of the first spring, and the ball body is closed to the port of the conical ring.

Further, a plurality of air outlets are formed in the air outlet rod, an elongated slot is formed in the end portion of the air outlet, a round hole communicated with the inside of the air outlet rod is formed in the bottom surface of the elongated slot, a sealing rod is slidably mounted in the round hole, a third spring is mounted between the sealing rod and the inner wall of the air outlet rod, two rotating plates are rotatably mounted on the elongated slot, an extending block is arranged on the inner side of each rotating plate, and the extending block is in contact with the end portion of the sealing rod;

the rotation angle of the rotating plate is 0-60 degrees.

The invention has the following beneficial effects:

1. according to the invention, edible fungus nutrients to be mixed are added into the cavity in the shell assembly through the feeding channel in the feeding piece, and materials entering the top cover fall on the upper surface of the material distributing disc, and the falling materials move along one side of the conical surface facing the material distributing blade as the upper surface of the material distributing disc is a conical surface, so that the falling materials are impacted by the rotating material distributing blade and the convex teeth arranged on the material distributing blade, and the crushing and primary mixing of the materials are realized conveniently.

2. The annular shell is fixedly arranged on the top cover, the second spring is arranged to push the end part provided with the second bulge to be tightly attached to the end face provided with the first bulge in the rotating process of the step ring seat, when the second bulge moves along the end face provided with the first bulge, the step ring seat and the material distributing disc sleeved on the outer side of the step ring seat can vibrate up and down, the material falling on the material distributing disc can conveniently move to one side of the material distributing blade along the inclined plane through the vibration of the material distributing disc, and meanwhile the material on the material distributing blade can be shaken off, so that the accumulation of the material is avoided.

3. According to the invention, in the process that the air outlet rod rotates along with the rotating shaft, the edible fungus nourishment collides with the inclined rotating plate, so that the rotating plate is pushed to rotate to one side of the air outlet, the mounted sealing rod is pushed to compress the third spring to move into the air outlet rod, high-temperature steam in the air outlet rod is discharged into the edible fungus nourishment through the long groove, the high-temperature steam passes through the edible fungus nourishment to sterilize the edible fungus nourishment, and the influence of other fungi in the edible fungus nourishment on the growth of the edible fungus is avoided.

Of course, it is not necessary for any one product to practice the invention to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

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

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

FIG. 3 is a schematic cross-sectional view of a housing assembly according to the present invention;

FIG. 4 is a schematic view of the internal structure of the present invention;

FIG. 5 is a schematic view of the mounting structure of the separating disc of the present invention;

FIG. 6 is a schematic view of a partial explosion structure of the present invention;

FIG. 7 is a schematic view of the mounting structure of the stirring assembly of the present invention;

FIG. 8 is a schematic view of a cross-sectional structure of an air outlet according to the present invention;

FIG. 9 is a schematic cross-sectional view of an air intake assembly according to the present invention;

FIG. 10 is an enlarged schematic view of the structure of FIG. 9A according to the present invention;

FIG. 11 is a schematic view of a stent structure according to the present invention;

in the drawings, the list of components represented by the various numbers is as follows:

in the figure: 1. a housing assembly; 101. a top cover; 1011. a notch; 1012. an exhaust port; 102. a feed member; 1021. a feed channel; 1022. a pipe orifice; 103. a cylinder; 104. a bottom cover; 1041. a discharge port; 105. support legs; 2. a bracket; 201. a movable ring; 202. a fixing ring; 203. a hydraulic telescopic rod; 3. a power assembly; 301. a motor; 302. a rotating shaft; 3021. a limiting ring; 3022. deep holes; 3023. an air inlet hole; 3024. an air outlet hole; 3025. a conical ring; 3026. a sphere; 3027. a first spring; 3028. a ring seat; 303. a coupling; 4. an air intake assembly; a 401 annular housing; 4011. an air inlet connecting pipe; 4012. a first protrusion; 402. a step ring seat; 4021. a second protrusion; 403. a shaft sleeve; 404. a pin body; 5. a material distributing disc; 501. a material distributing blade; 502. convex teeth; 6. a limit component; 601 a sleeve; 602. a screw seat; 603. a second spring; 7. a stirring assembly; 701 stirring blades; 702. an air outlet rod; 7021. an air outlet; 7022. a long groove; 703. a sealing rod; 704. a third spring; 705 rotating the plate; 8. and (3) a sealing ring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled 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.

Referring to fig. 1-11, the invention discloses an automatic edible fungus food stirring device, which comprises a shell assembly 1, wherein the shell assembly 1 comprises a top cover 101, a barrel 103 and a bottom cover 104 which are sequentially connected from top to bottom, a notch 1011 is arranged on the top cover 101, a feeding piece 102 is arranged on the notch 1011, a discharge hole 1041 is arranged at the bottom end of the bottom cover 104, and a plurality of supporting legs 105 are arranged at the bottom of the bottom cover 104;

the top cover 101 is provided with a bracket 2, and the bracket 2 is provided with a power assembly 3;

the power assembly 3 comprises a motor 301 and a rotating shaft 302, wherein the output end of the motor 301 is connected with the rotating shaft 302 through a coupler 303, one end of the rotating shaft 302 penetrates through the top cover 101 and stretches into a cavity formed by the cylinder 103 and the bottom cover 104, the rotating shaft 302 is sleeved with a material distributing disc 5 and a stirring assembly 7, the material distributing disc 5 is positioned in the cavity of the top cover 101, and the stirring assembly 7 is positioned in the cavity of the bottom cover 104;

the stirring assembly 7 comprises a stirring blade 701 and air outlet rods 702, and a plurality of air outlet rods 702 are arranged on the stirring blade 701;

the rotary shaft 302 is sleeved with an air inlet assembly 4, a deep hole 3022 is formed in the bottom end of the rotary shaft 302, an air inlet 3023 and an air outlet 3024 which are communicated with the deep hole 3022 are formed in the rotary shaft 302, the air inlet 3023 is communicated with the air inlet assembly 4, the air outlet 3024 is communicated with the air outlet rod 702, a sealing ring 8 is installed at the bottom end of the rotary shaft 302, and the rotary shaft 302 moving downwards drives the sealing ring 8 to seal a discharge hole 1041;

in the process that the air outlet rod 702 rotates along with the rotating shaft 302, the edible fungus nourishment collides with the inclined rotating plate 705, so that the rotating plate 705 is pushed to rotate towards one side of the air outlet 7021, the mounted sealing rod 703 is pushed to compress the third spring 704 to move towards the air outlet rod 702, high-temperature steam in the air outlet rod 702 is discharged into the edible fungus nourishment through the long groove 7022, the high-temperature steam passes through the edible fungus nourishment to sterilize the edible fungus nourishment, and the growth of the edible fungus is prevented from being influenced by other fungi in the edible fungus nourishment.

The middle part of the feeding member 102 is provided with a feeding channel 1021, the feeding channel 1021 is communicated with the notch 1011, the inside of the feeding member 102 is provided with annular grooves distributed around the feeding channel 1021, the outer side surface of the feeding member 102 is provided with two nozzles 1022 communicated with the inside, the top cover 101 is provided with an exhaust port 1012 communicated with the inside, and the exhaust port 1012 is communicated with one nozzle 1022.

The support 2 comprises a movable ring 201, a fixed ring 202 and a hydraulic telescopic rod 203, wherein the fixed ring 202 is fixedly arranged on the outer side face of the top cover 101, the movable ring 201 is arranged above the fixed ring 202, a plurality of hydraulic telescopic rods 203 are arranged on the movable ring 201, telescopic ends of the hydraulic telescopic rods 203 are fixed on the fixed ring 202, and a motor 301 is fixedly arranged on the movable ring 201.

The middle part of top cap 101 has seted up the round hole, the subassembly 4 that admits air includes annular casing 401 and step ring seat 402, the bottom of annular casing 401 passes the inside that the round hole stretched into top cap 101, step ring seat 402 has been cup jointed in annular casing 401's the end outside that stretches into, form the air inlet chamber between annular casing 401 and the step ring seat 402, be equipped with on the annular casing 401 lateral surface with the inlet connection pipe 4011 of air inlet chamber intercommunication, annular casing 401 and step ring seat 402 all cup joint in the outside of pivot 302, inlet port 3023 and inlet chamber intercommunication, sleeve 403 has been cup jointed on the pivot 302 simultaneously, install the pin 404 between sleeve 403 and the pivot 302, sleeve 403 fixed mounting is in the inboard of step ring seat 402, install spacing ring 3021 on the pivot 302, spacing ring 3021 is located the air inlet chamber, spacing ring 3021 is located the upside of inlet port 3023 simultaneously.

A plurality of first bulges 4012 are uniformly distributed on the end face of the extending end of the annular shell 401, and a plurality of second bulges 4021 are arranged on the contact surface of the step ring base 402 and the end part of the annular shell 401; the outside of step ring seat 402 has cup jointed and has divided charging tray 5, has cup jointed spacing subassembly 6 that is located the branch charging tray 5 downside on the pivot 302, and spacing subassembly 6 supports to divide charging tray 5.

The limiting component 6 comprises a threaded seat 602 and a second spring 603, the threaded seat 602 is fixedly arranged on the outer side of the rotating shaft 302 through a fastening bolt, the second spring 603 for supporting the distributing disc 5 is arranged above the threaded seat 602, meanwhile, the second spring 603 is sleeved on the rotating shaft 302, the outer sides of the threaded seat 602 and the second spring 603 are sleeved with a sleeve 601, and the top end of the sleeve 601 is fixed on the distributing disc 5.

A plurality of distributing blades 501 are uniformly distributed on the peripheral side surface of the distributing disc 5, and a plurality of convex teeth 502 are arranged on the upper surface of the distributing blades 501.

The rotary shaft 302 is internally provided with a one-way valve, the one-way valve comprises a conical ring 3025, a ball 3026, a first spring 3027 and a ring seat 3028, the conical ring 3025 is arranged on the inner wall of a deep hole 3022 and located at the lower side of an air inlet 3023, the ring seat 3028 is arranged at the lower side of the conical ring 3025, the first spring 3027 is arranged on the ring seat 3028, the top end of the first spring 3027 is provided with the ball 3026, and the ball 3026 is sealed to the port of the conical ring 3025.

The air outlet rod 702 is provided with a plurality of air outlets 7021, the end part of the air outlet 7021 is provided with a long groove 7022, the bottom surface of the long groove 7022 is provided with a round hole communicated with the inside of the air outlet rod 702, a sealing rod 703 is slidably arranged in the round hole, a third spring 704 is arranged between the sealing rod 703 and the inner wall of the air outlet rod 702, two rotating plates 705 are rotatably arranged on the long groove 7022, the inner side of each rotating plate 705 is provided with an extension block, and the extension blocks are contacted with the end part of the sealing rod 703;

the rotation angle of the rotation plate 705 is 0 deg. -60 deg..

When the device works, the movable ring 201 moves downwards by contracting the hydraulic telescopic rod 203, the power assembly 3 arranged on the movable ring 201 moves downwards integrally, and the rotating shaft 302 for realizing the downward movement drives the sealing ring 8 to seal the discharge hole 1041;

the motor 301 is restarted, and as the motor 301 is in transmission connection with the rotating shaft 302 through the coupler 303, the motor 301 drives the rotating shaft 302 to rotate, the distributing disc 5 arranged in the shell assembly 1 is in transmission connection with the rotating shaft 302 through the step ring seat 402 and the shaft sleeve 403, meanwhile, the stirring assembly 7 is arranged at the bottom end of the rotating shaft 302, and the distributing disc 5 and the stirring assembly 7 arranged in the shell assembly 1 synchronously rotate along with the rotating shaft 302;

the edible fungus nutrients to be mixed are added into a cavity in the shell assembly 1 through a feed channel 1021 in the feed piece 102, and the materials entering the top cover 101 fall on the upper surface of the material distributing disc 5, and as the upper surface of the material distributing disc 5 is a conical surface, the falling materials move along the conical surface towards one side of the material distributing blade 501, and the falling materials are beaten by the rotating material distributing blade 501 and the convex teeth 502 arranged on the material distributing blade 501, so that the crushing and primary mixing of the materials are realized;

because the annular shell 401 is fixedly arranged on the top cover 101, in the process of rotating the step ring seat 402, the arranged second spring 603 pushes the end part provided with the second bulge 4021 to be tightly attached to the end face provided with the first bulge 4012, when the second bulge 4021 moves along the end face provided with the first bulge 4012, the step ring seat 402 and the material distributing disc 5 sleeved on the outer side of the step ring seat 402 are arranged to vibrate up and down, the vibration of the material distributing disc 5 is convenient for accelerating the movement of materials falling on the material distributing disc 5 to one side of the material distributing blade 501 along an inclined plane, and meanwhile, the materials on the material distributing blade 501 are shaken off, so that the accumulation of the materials is avoided;

the materials falling along the cylinder 103 are converged towards the middle part of the bottom cover 104 by the rotating stirring blade 701, so that the rapid mixing of different materials is realized;

in addition, an air inlet connection pipe 4011 is arranged on the annular shell 401, the air inlet connection pipe 4011 is communicated with a high-temperature steam supply pipeline, high-temperature steam entering an air inlet cavity formed by the annular shell 401 and the step ring seat 402 enters a deep hole 3022 through an air inlet hole 3023 arranged on the rotating shaft 302, and is opened through a one-way valve arranged in the deep hole 3022, so that the high-temperature steam enters the air outlet rod 702 through an air outlet hole 3024 at the bottom end of the deep hole 3022;

simultaneously, the port of the deep hole 3022 is closed by a sealing plug;

because the air outlet rods 702 are provided with a plurality of air outlets 7021, the end parts of the air outlets 7021 are provided with long grooves 7022, the bottom surfaces of the long grooves 7022 are provided with round holes communicated with the inside of the air outlet rods 702, sealing rods 703 are slidably arranged in the round holes, third springs 704 are arranged between the sealing rods 703 and the inner walls of the air outlet rods 702, two rotating plates 705 are rotatably arranged on the long grooves 7022, in the process that the air outlet rods 702 rotate along with the rotating shafts 302, edible fungus nutrients collide with the inclined rotating plates 705, so that the rotating plates 705 are pushed to rotate to the air outlets 7021 side, the third springs 704 are pushed to move inwards to the air outlet rods 702 by pushing the arranged sealing rods 703, high-temperature steam in the air outlet rods 702 is discharged into the edible fungus nutrients through the long grooves 7022, the high-temperature steam is sterilized through the edible fungus nutrients, and the edible fungus nutrients are prevented from affecting the growth of other edible fungi;

in addition, a plurality of air outlet rods 702 can be arranged on a sleeve arranged in the middle of the stirring blade 701 along the vertical direction, and the air outlet 7021 of the air outlet rod 702 impacted by the edible fungus food is opened to realize contact with the edible fungus food, so that the waste of high-temperature steam is avoided;

the upward moving high temperature steam enters the pipe orifice 1022 through the exhaust port 1012 of the top cover 101, and enters the annular groove outside the overseas feed channel 1021, so as to primarily heat the entered material, and improve the utilization of heat energy.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (6)

1. An automatic change edible fungi nourishment agitating unit, includes casing subassembly (1), casing subassembly (1) are including top cap (101), barrel (103) and bottom (104) that top-down connects gradually, be equipped with notch (1011) on top cap (101), install feed piece (102) on notch (1011), the bottom of bottom (104) is equipped with discharge gate (1041), a plurality of supporting leg (105) are installed to the bottom of bottom (104), its characterized in that:

a bracket (2) is arranged on the top cover (101), and a power assembly (3) is arranged on the bracket (2);

the power assembly (3) comprises a motor (301) and a rotating shaft (302), wherein the output end of the motor (301) is connected with the rotating shaft (302) through a coupler (303), and one end of the rotating shaft (302) penetrates through the top cover (101) and stretches into a cavity formed by the cylinder body (103) and the bottom cover (104);

the rotary shaft (302) is sleeved with a material distributing disc (5) and a stirring assembly (7), the material distributing disc (5) is positioned in the cavity of the top cover (101), and the stirring assembly (7) is positioned in the cavity of the bottom cover (104);

the stirring assembly (7) comprises stirring blades (701) and air outlet rods (702), and a plurality of air outlet rods (702) are arranged on the stirring blades (701);

the air inlet assembly (4) is sleeved on the rotating shaft (302), a deep hole (3022) is formed in the bottom end of the rotating shaft (302), an air inlet hole (3023) and an air outlet hole (3024) which are communicated with the deep hole (3022) are formed in the rotating shaft (302), the air inlet hole (3023) is communicated with the air inlet assembly (4), and the air outlet hole (3024) is communicated with the air outlet rod (702);

the bottom end of the rotating shaft (302) is provided with a sealing ring (8), and the rotating shaft (302) which moves downwards drives the sealing ring (8) to seal the discharge hole (1041);

the middle part of top cap (101) has seted up the round hole, intake subassembly (4) are including annular casing (401) and step ring seat (402), the bottom of annular casing (401) is passed the round hole and is stretched into the inside of top cap (101), step ring seat (402) has been cup jointed in the end outside of stretching into of annular casing (401), form the air inlet chamber between annular casing (401) and step ring seat (402), be equipped with on the lateral surface of annular casing (401) with air inlet connecting pipe (4011) of air inlet chamber intercommunication, annular casing (401) and step ring seat (402) all cup joint in the outside of pivot (302), inlet port (3023) and air inlet chamber intercommunication, simultaneously cup joint on pivot (302) axle sleeve (403), install round pin body (404) between axle sleeve (403) and pivot (302), axle sleeve (403) fixed mounting is in the inboard of step ring seat (402), install spacing ring (3021) on pivot (302), spacing ring (3021) are located the air inlet port of air inlet chamber (3021) on the side of spacing ring 3023 simultaneously;

the annular shell (401) is fixedly arranged on the top cover (101), in the process of rotating the step ring seat (402), the end part provided with the second bulge (4021) is pushed by the second spring (603) to be tightly attached to the end face provided with the first bulge (4012), and when the second bulge (4021) moves along the end face provided with the first bulge (4012), the step ring seat (402) and the material distributing disc (5) sleeved on the outer side of the step ring seat (402) vibrate up and down;

a plurality of first protrusions (4012) are uniformly distributed on the end face of the extending end of the annular shell (401), a plurality of second protrusions (4021) are arranged on the contact surface between the step ring seat (402) and the end part of the annular shell (401), a distributing disc (5) is sleeved on the outer side of the step ring seat (402), a limiting assembly (6) positioned on the lower side of the distributing disc (5) is sleeved on the rotating shaft (302), and the limiting assembly (6) supports the distributing disc (5);

spacing subassembly (6) include screw thread seat (602) and second spring (603), screw thread seat (602) pass through fastening bolt fixed mounting in pivot (302) outside, screw thread seat (602) top is equipped with second spring (603) that support feed tray (5), and second spring (603) cup joint on pivot (302) simultaneously, sleeve (601) have been cup jointed in the outside of screw thread seat (602) and second spring (603), the top of sleeve (601) is fixed on feed tray (5).

2. The automated edible fungi food stirring device of claim 1, wherein: a feeding channel (1021) is arranged in the middle of the feeding piece (102), and the feeding channel (1021) is communicated with the notch (1011);

the inside of the feeding piece (102) is provided with annular grooves distributed around the feeding channel (1021), and the outer side surface of the feeding piece (102) is provided with two pipe orifices (1022) communicated with the inside;

the top cover (101) is provided with an exhaust port (1012) communicated with the inside, and the exhaust port (1012) is communicated with a pipe orifice (1022).

3. The automated edible fungi food stirring device of claim 1, wherein: the bracket (2) comprises a movable ring (201), a fixed ring (202) and hydraulic telescopic rods (203), wherein the fixed ring (202) is fixedly arranged on the outer side face of the top cover (101), the movable ring (201) is arranged above the fixed ring (202), a plurality of hydraulic telescopic rods (203) are arranged on the movable ring (201), and the telescopic ends of the hydraulic telescopic rods (203) are fixed on the fixed ring (202);

the movable ring (201) is fixedly provided with a motor (301).

4. The automated edible fungi food stirring device of claim 1, wherein: a plurality of distributing blades (501) are uniformly distributed on the peripheral side face of the distributing disc (5), and a plurality of convex teeth (502) are arranged on the upper surface of each distributing blade (501).

5. The automated edible fungi food stirring device of claim 1, wherein: a one-way valve is arranged in the rotating shaft (302);

the one-way valve comprises a conical ring (3025), a ball body (3026), a first spring (3027) and a ring seat (3028), wherein the conical ring (3025) is arranged on the inner wall of a deep hole (3022) and located at the lower side of an air inlet hole (3023), the ring seat (3028) is arranged at the lower side of the conical ring (3025), the first spring (3027) is arranged on the ring seat (3028), the ball body (3026) is arranged at the top end of the first spring (3027), and the ball body (3026) is sealed to a port of the conical ring (3025).

6. The automated edible fungi food stirring device of claim 1, wherein: a plurality of air outlets (7021) are formed in the air outlet rod (702);

the end part of the air outlet (7021) is provided with a long groove (7022), the bottom surface of the long groove (7022) is provided with a round hole communicated with the inside of the air outlet rod (702), a sealing rod (703) is slidably arranged in the round hole, and a third spring (704) is arranged between the sealing rod (703) and the inner wall of the air outlet rod (702);

two rotating plates (705) are rotatably arranged on the long groove (7022), and extension blocks are arranged on the inner sides of the rotating plates (705) and are contacted with the end parts of the sealing rods (703);

the rotation angle of the rotation plate (705) is 0-60 degrees.