阅读说明：本技术 一种防止食用菌菌料酸败的搅拌和装袋一体机 (Stirring and bagging all-in-one that prevents that domestic fungus material from rancidity ) 是由 曾洪富 于 2021-07-15 设计创作，主要内容包括：本发明涉及食用菌搅拌和装袋技术领域,提供一种防止食用菌菌料酸败的搅拌和装袋一体机。包括工作台,工作台的顶端通过立板固定有搅拌筒,搅拌筒的中间转动连接有空心轴,空心轴驱动于搅拌电机,搅拌筒设有空心隔层,通过通气管向空心隔层和空心轴通入蒸汽,通气管的另一端连接有加热箱,空心轴固定有搅拌叶,搅拌筒的底部设有多组出料孔,搅拌筒的底部通过对接凹槽滑动连接有转筒,转筒通过转轴转动连接于立板,转筒驱动于步进电机,转筒内有多组接料槽,接料槽内放置有套袋架。本发明搅拌过程中具有精准的温度控制,搅拌均匀,能防止菌料搅拌过程产生酸败；菌料的搅拌和装袋集成一体,减少重复性灭菌工作,提高菌料的装袋效率。(The invention relates to the technical field of edible fungus stirring and bagging, and provides a stirring and bagging all-in-one machine for preventing edible fungus material rancidity. Including the workstation, the top of workstation is fixed with the churn through the riser, the middle rotation of churn is connected with the hollow shaft, the hollow shaft drives in agitator motor, the churn is equipped with hollow interlayer, let in steam to hollow interlayer and hollow shaft through the breather pipe, the other end of breather pipe is connected with the heating cabinet, the hollow shaft is fixed with the stirring leaf, the bottom of churn is equipped with the multiunit discharge opening, there is the rotary drum bottom of churn through butt joint recess sliding connection, the rotary drum rotates through the pivot to be connected in the riser, the rotary drum drives in step motor, there is the multiunit in the rotary drum and connects the silo, it has placed the cover bag frame in the silo to connect. The stirring device has the advantages that the temperature control is accurate in the stirring process, the stirring is uniform, and the rancidity generated in the stirring process of the fungus materials can be prevented; stirring and the bagging-off of fungus material are integrated integratively, reduce repeatability sterilization work, improve the bagging-off efficiency of fungus material.)

1. The utility model provides a stirring and bagging-off all-in-one that prevents that domestic fungus material is rancid, includes workstation (1), the bottom sprag of workstation (1) is in stabilizer blade (2), the top left and right sides vertical fixation of workstation (1) has riser (3), the top of riser (3) is fixed with churn (8) through mounting panel (34), the top of churn (8) is equipped with feeder hopper (16), the bottom of feeder hopper (16) is equipped with butterfly valve (17), its characterized in that, hollow cylindrical hollow shaft (10) in the middle of the rotation of churn (8) is connected with, hollow shaft (10) one end is driven in agitator motor (9), agitator motor (9) are fixed in churn (8), the other end rotation of hollow shaft (10) is connected with upper shield (22), the top of churn (8) with upper shield (22) all are connected with breather pipe (19), the mixing drum (8) is provided with a hollow interlayer, steam is introduced into the hollow interlayer and the hollow shaft (10) through the vent pipe (19), the bottom of the mixing drum (8) is connected with a liquid return pipe (21), the liquid return pipe (21) is communicated with the bottom of the hollow interlayer, liquefied water in the hollow interlayer is discharged through the liquid return pipe (21), the other end of the vent pipe (19) is connected with a heating box (20), the heating box (20) is fixed on the workbench (1), a shaft body of the hollow shaft (10) is fixed with a plurality of groups of nozzles (23), the steam in the hollow shaft (10) is introduced into the mixing drum (8) through the nozzles (23), mixing blades (12) are fixed on the shaft body of the hollow shaft (10), a plurality of groups of discharge holes (24) are arranged at the bottom of the mixing drum (8), and a butt joint groove (27) is formed at the bottom of the mixing drum (8), the bottom of the stirring cylinder (8) is connected with a rotating cylinder (5) in a sliding mode through the butt joint groove (27), rotating shafts (4) are fixed to the left end and the right end of the rotating cylinder (5), the rotating cylinder (5) is connected to the vertical plate (3) in a rotating mode through the rotating shafts (4), the rotating shaft (4) on one side is connected with a speed reduction motor (6), the speed reduction motor (6) is fixed to the vertical plate (3), the speed reduction motor (6) is connected with a stepping motor (7), the stepping motor (7) is fixed to the workbench (1), two groups of clamping plates (28) are vertically arranged in the rotating cylinder (5), each group of clamping plates (28) is divided into a plurality of groups of material receiving grooves (26) through partition plates (35), a bag receiving frame (25) is placed in the material receiving grooves (26), and a bag receiving frame (25) is sleeved with a bag (36).

2. The stirring and bagging integrated machine for preventing the rancidity of the edible fungus materials as claimed in claim 1, wherein connecting rods (14) are fixed at two ends of the hollow shaft (10), and scrapers (15) are connected through the connecting rods (14).

3. The stirring and bagging integrated machine for preventing the rancidity of the edible fungus material as claimed in claim 1, wherein the stirring blades (12) are provided with two groups, the spiral directions of the two groups of stirring blades (12) are opposite, a plurality of groups of support rods (13) are fixed on the hollow shaft (10), and the stirring blades (12) are fixed through the support rods (13).

4. The stirring and bagging integrated machine for preventing the rancidity of the edible fungus material as claimed in claim 1, wherein a pressure relief valve (37) is fixed at the top end of the stirring cylinder (8), and the pressure relief valve (37) is communicated with the hollow interlayer (18).

5. The stirring and bagging integrated machine for preventing the rancidity of the edible fungus materials as claimed in claim 1, wherein a square supporting plate (29) is arranged at the bottom of the bagging frame (25), a pair of lifting plates (30) is fixed to two pairs of the top ends of the supporting plate (29), a pull ring (32) is arranged at the top end of each lifting plate (30), a cylindrical sleeve (31) is fixed to the middle of the top end of the supporting plate (29), and the bagging bag (36) is sleeved in the sleeve (31).

6. The stirring and bagging integrated machine for preventing the edible mushroom material from being rancid as claimed in claim 1, wherein the stepping motor (7) rotates in an angle of 45 degrees in an intermittent manner.

7. The stirring and bagging all-in-one machine for preventing the edible fungi and fungus material from being rancid as claimed in claim 1, wherein a blanking groove (11) is formed in the middle of the workbench (1), a material receiving box (33) is placed at the bottom of the workbench (1), and the material receiving box (33) is located under the blanking groove (11).

8. The integrated machine for stirring and bagging edible fungus material for preventing rancidity of the edible fungus material as claimed in claim 1, wherein a temperature sensor (38) is fixed on the whole body of the hollow shaft (10).

9. The integrated stirring and bagging machine for preventing the rancidity of the edible fungus material as claimed in claim 1, wherein the other end of the liquid return pipe (21) is connected to the heating box (20).

Technical Field

The invention relates to the technical field of edible fungus stirring and bagging, in particular to a stirring and bagging integrated machine for preventing edible fungus material rancidity.

Background

The edible fungus is a large fungus which can be eaten by people. Specifically, the edible fungi is edible mushroom fungus, and the mushroom fungus refers to large-scale fungi which can form large-scale fleshy fruiting bodies or sclerotium tissues and can be edible or medicinal for human.

The edible fungi culture material is generally formed by adding various nutrient substances into materials such as soybean meal, rice bran, wood dust and the like and mixing, a stirrer is required to be used for stirring the mixture before use, so that the mixture is uniformly mixed, and if the stirring is not uniform, the production of the edible fungi is not facilitated. During the stirring process, the ambient temperature and the material temperature are generally in the range of 0-50 ℃. The temperature range is suitable for growth and propagation of mold and bacteria, and long-time stirring is usually required for uniformly stirring the stirring base material, which easily causes deterioration and odor of the culture base material. The culture medium cannot be used for culturing edible fungi after sterilization treatment. The prior art has the problems that the base material of the culture medium is easily polluted by mould and bacteria in the stirring process, so that the culture base material is deteriorated and smelly. Most of the moulds are propagated at the optimum temperature of 25-30 ℃, and cannot produce toxicity or weaken toxicity at the temperature of more than 30 ℃. The bacteria are divided into psychrophile, mesophilic bacteria and thermophilic bacteria according to the optimum temperature, the optimum temperature is 0-20 ℃, 30-37 ℃ and 50-60 ℃ in sequence, and most of the bacteria can be killed within 30 minutes at 50-60 ℃. The spoilage of the mushroom material can be prevented by the temperature of the mushroom material during the stirring process.

The fungus material is poured into the sack filling machine and is carried out the bagging-off after current fungus material stirring is accomplished, piles up in the sack filling machine at bagging-off in-process fungus material, in order to prevent that fungus material from being polluted in the sack filling machine, and the sack filling machine need carry out strict sterilization processing just can use. Meanwhile, in order to prevent the fungus materials from being piled up in the bagging machine to generate heat, the fungus materials poured into the bagging machine need to be bagged quickly. The existing bagging machine is basically a bag made of fungus filling materials and made into fungus sticks, and the bagging efficiency of the existing bagging machine is low.

Disclosure of Invention

The invention aims to provide a stirring and bagging integrated machine for preventing edible fungus material rancidity, which is mainly used for solving the rancidity problems of mould pollution and the like caused by no temperature control or unreasonable temperature control in the fungus material stirring process; and the problems that the stirring and the bagging of the bacterial colony are separately carried out, the sterilization treatment needs to be carried out for many times, and the time and the labor are wasted are solved.

The technical problem of the invention is mainly solved by the following technical scheme: comprises a workbench, the bottom of the workbench is supported on support legs, vertical plates are vertically fixed on the left side and the right side of the top of the workbench, a mixing drum is fixed on the top of each vertical plate through a mounting plate, a feed hopper is arranged on the top of the mixing drum, a butterfly valve is arranged at the bottom of the feed hopper, the middle of the mixing drum is rotatably connected with a hollow cylindrical hollow shaft, one end of the hollow shaft is driven by a mixing motor which is fixed on the mixing drum, the other end of the hollow shaft is rotatably connected with a sleeve cover, the top of the mixing drum and the sleeve cover are both connected with vent pipes, the mixing drum is provided with a hollow interlayer, steam is introduced into the hollow interlayer and the hollow shaft through the vent pipes, the bottom of the mixing drum is connected with a liquid return pipe which is communicated with the bottom of the hollow interlayer, and liquefied water in the hollow interlayer is discharged through the liquid return pipe, the other end of the breather pipe is connected with a heating box which is fixed on the workbench, a plurality of groups of nozzles are fixed on the shaft body of the hollow shaft, steam in the hollow shaft is led into the stirring cylinder through the nozzles, stirring blades are fixed on the shaft body of the hollow shaft, a plurality of groups of discharge holes are arranged at the bottom of the stirring cylinder, a butt-joint groove is arranged at the bottom of the stirring cylinder, the bottom of the stirring cylinder is connected with a rotating cylinder in a sliding way through the butt-joint groove, rotating shafts are fixed at the left end and the right end of the rotating cylinder, the rotating cylinder is rotationally connected to the vertical plate through the rotating shafts, one side of the rotating shaft is connected with a speed reducing motor which is fixed on the vertical plate, the speed reducing motor is connected with a stepping motor which is fixed on the workbench, two groups of clamping plates are vertically arranged in the rotating cylinder, and each group of clamping plates is separated by a plurality of material receiving grooves through a partition plate, a bag sleeving frame is arranged in the receiving groove, and a bag sleeving frame is sleeved with a bag sleeving.

Preferably, connecting rods are fixed at two ends of the hollow shaft, and scrapers are connected through the connecting rods. The stirring leaf is different from to the upset mode of scraper blade to the fungus material, and two kinds of modes combine for the fungus material stirring is more even.

Preferably, the stirring blades are provided with two groups, the spiral directions of the two groups of stirring blades are opposite, a plurality of groups of supporting rods are fixed on the hollow shaft, and the stirring blades are fixed through the supporting rods. Two sets of stirring leaves that spiral direction is opposite can avoid the fungus material by the concentrated independent one side of carrying the churn of stirring leaf, improve stirring efficiency. The stirring blades are supported and fixed on the hollow shaft, and the supporting rods are also used for supporting and fixing, so that the service life of the stirring blades can be prolonged, and the stirring capacity is enhanced.

Preferably, a pressure release valve is fixed at the top end of the stirring cylinder and communicated with the hollow interlayer. When the steam amount in the hollow interlayer is too much and the pressure intensity of the hollow interlayer is larger than the pressure relief pressure of the pressure relief valve, the pressure of the hollow interlayer can be relieved through the pressure relief valve.

Preferably, the bottom of the bag sleeving frame is provided with a square supporting plate, two pairs of lifting plates are fixed at the top end of the supporting plate, pull rings are arranged at the top ends of the lifting plates, a cylindrical sleeve is fixed in the middle of the top end of the supporting plate, and the bag sleeving frame is sleeved in the sleeve. The sleeve bag is sleeved into the sleeve through a manual or automatic machine, redundant parts at the top of the sleeve bag are bent and turned over outside the sleeve, and the lifting plate is lifted through the pull ring and placed into the material receiving groove. The bag holder is pulled out from the material receiving groove through the pull ring. The automatic picking and placing of the bagging frame can be realized through the pull ring of the bagging frame under the automatic action of an auxiliary machine.

Preferably, the stepping motor rotates intermittently at an angle of 45 degrees. Connect the silo to set up in two sets of vertically splint, can know that the rotary drum has four groups to each other to become 90 connect the silo, and the rotary drum is 45 equiangular dwell formula rotations such as, and rotary drum pivoted in-process slides with the butt joint recess of churn bottom, and the discharge opening is located the butt joint recess, and the intermittent type nature of discharge opening is realized to the pivoted rotary drum and is opened and shut. When a set of material receiving groove rotates to the vertical position, the discharge hole is in butt joint with the material receiving groove, and the fungus material in the mixing drum can fall into the material receiving groove corresponding to the bottom from the discharge hole at the bottom. The inner diameter of the discharge hole is smaller than the bag covering opening, so that the fungus material can accurately fall into the bag covering on the bag covering frame.

Preferably, a blanking groove is formed in the middle of the workbench, a material receiving box is placed at the bottom of the workbench and is located under the blanking groove. Some fungus materials can be at the in-process roll-off butt joint recess of feeding, and the fungus material of outflow falls into the receiving box from the charging conduit, avoids the bacterial colony to scatter in workstation or workshop.

Preferably, a temperature sensor is fixed to the hollow shaft. The temperature of the fungus materials in the mixing drum is detected in real time through the temperature sensor so as to control the temperature of the fungus materials.

Preferably, the other end of the liquid return pipe is connected to the heating box. The liquid return pipe reintroduces the liquid liquefied in the hollow interlayer into the heating box to be heated into steam, so that the waste of water resources is reduced. And the water liquefied in the hollow interlayer has certain residual temperature, so that less energy is consumed when the water enters the heating box for re-vaporization.

The invention has the beneficial effects that:

1. the temperature control is accurate in the stirring process of the fungus materials, the stirring blades and the scraping plates are matched for stirring, the stirring is uniform, the fungus materials are heated uniformly in the stirring process, and rancidity generated in the stirring process of the fungus materials can be prevented;

2. the stirring and bagging of the fungus materials are integrated, so that the repeated sterilization work is reduced, and the pollution of the fungus materials caused by mixed bacteria in the process of transferring the fungus materials from the stirrer to the bagging machine is reduced;

3. bagging of multiunit fungus material can be carried out simultaneously to fungus material bagging-off in-process, improves the bagging-off efficiency of fungus material.

Drawings

FIG. 1 is a front view of the present invention;

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

FIG. 3 is a cross-sectional left side view of the present invention;

FIG. 4 is a cross-sectional right side view of the present invention;

FIG. 5 is a right side view of the present invention;

FIG. 6 is a left side view of the present invention;

FIG. 7 is a left side view of the component mixing drum of the present invention;

FIG. 8 is a bottom view of the component mixing drum of the present invention;

FIG. 9 is a front view of the parts drum of the present invention;

FIG. 10 is a cross-sectional elevation view of the component pocket holder of the present invention;

FIG. 11 is a left side view of the component pocket holder of the present invention;

FIG. 12 is a top view of the component pocket holder of the present invention;

FIG. 13 is an enlarged view of detail A of the present invention;

the illustrations are labeled in the figures;

1. the automatic feeding device comprises a workbench, 2 support legs, 3 vertical plates, 4 rotating shafts, 5 rotating cylinders, 6 reduction motors, 7 stepping motors, 8 stirring cylinders, 9 stirring motors, 10 hollow shafts, 11 blanking tanks, 12 stirring blades, 13 supporting rods, 14 connecting rods, 15 scraping plates, 16 hoppers, 17 butterfly valves, 18 hollow interlayers, 19 ventilating pipes, 20 heating boxes, 21 liquid return pipes, 22 sleeve covers, 23 nozzles, 24 discharging holes, 25 bag sleeving frames, 26 bag receiving tanks, 27 butt joint grooves, 28 clamping plates, 29 supporting plates, 30 lifting plates, 31 sleeves, 32 pull rings, 33 material receiving tanks, 34 mounting plates, 35 partition plates, 36 bag sleeving bags, 37 pressure release valves, 38 temperature sensors.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

Example 1

The stirring and bagging integrated machine for preventing the rancidity of the edible fungus material comprises a workbench 1, wherein the bottom of the workbench 1 is supported on support legs 2, vertical plates 3 are vertically fixed on the left side and the right side of the top end of the workbench 1, a stirring cylinder 8 is fixed on the top end of each vertical plate 3 through a mounting plate 34, a feeding hopper 16 is arranged at the top end of the stirring cylinder 8, a butterfly valve 17 is arranged at the bottom of the feeding hopper 16, a hollow cylindrical hollow shaft 10 is rotatably connected in the middle of the stirring cylinder 8, one end of the hollow shaft 10 is driven to a stirring motor 9, the stirring motor 9 is fixed on the stirring cylinder 8, the other end of the hollow shaft 10 is rotatably connected with a sleeve cover 22, the top end of the stirring cylinder 8 and the sleeve cover 22 are both connected with vent pipes 19, the stirring cylinder 8 is provided with a hollow interlayer, steam is introduced into the hollow interlayer and the hollow shaft 10 through the vent pipes 19, and the bottom of the stirring cylinder 8 is connected with a return pipe 21, the liquid return pipe 21 is communicated with the bottom of the hollow interlayer, liquefied water in the hollow interlayer is discharged through the liquid return pipe 21, the other end of the vent pipe 19 is connected with the heating box 20, the heating box 20 is fixed on the workbench 1, a plurality of groups of nozzles 23 are fixed on the shaft body of the hollow shaft 10, steam in the hollow shaft 10 is introduced into the stirring cylinder 8 through the nozzles 23, the shaft body of the hollow shaft 10 is fixed with the stirring blades 12, a plurality of groups of discharge holes 24 are arranged at the bottom of the stirring cylinder 8, the bottom of the stirring cylinder 8 is provided with a butt joint groove 27, the bottom of the stirring cylinder 8 is connected with the rotating cylinder 5 in a sliding manner through the butt joint groove 27, rotating shafts 4 are fixed at the left end and the right end of the rotating cylinder 5, the rotating cylinder 5 is rotatably connected with the vertical plate 3 through the rotating shaft 4, the rotating shaft 4 at one side is connected with the speed reducing motor 6, the speed reducing motor 6 is fixed on the vertical plate 3, the speed reducing motor 6 is connected with the stepping motor 7, the stepping motor 7 is fixed on the workbench 1, two groups of clamping plates 28 are vertically arranged in the rotary drum 5, each group of clamping plates 28 is divided into a plurality of groups of receiving grooves 26 by a partition plate 35, bag sleeving frames 25 are placed in the receiving grooves 26, and bag sleeving 36 sleeves the bag sleeving frames 25.

Wherein, the hollow shaft 10 is fixed with the connecting rod 14 at both ends, is connected with the scraper 15 through connecting rod 14. The turning mode of the scraping plate 15 to the fungus materials is different from that of the stirring blade 12, and the two modes are combined, so that the fungus materials are stirred more uniformly.

Wherein, stirring leaf 12 is equipped with two sets ofly, and the spiral direction of two sets of stirring leaf 12 is opposite, and hollow shaft 10 is fixed with multiunit branch 13, fixes stirring leaf 12 through branch 13. Two sets of stirring leaf 12 that the spiral direction is opposite can avoid the fungus material to be concentrated by stirring leaf 12 and carry the solitary one side of churn 8, improves stirring efficiency. Wherein, the stirring blade 12 is supported and fixed on the hollow shaft, and is also supported and fixed by the supporting rod 13, thereby prolonging the service life of the stirring blade 12 and enhancing the stirring capability.

Wherein, a pressure release valve 37 is fixed at the top end of the mixing drum 8, and the pressure release valve 37 is communicated with the hollow interlayer 18. When the steam amount in the hollow interlayer 18 is too much, so that the pressure of the hollow interlayer 18 is larger than the pressure relief pressure of the pressure relief valve 37, the pressure relief valve 37 can be used for relieving the pressure of the hollow interlayer 18.

Wherein, the bottom of bagging frame 25 is equipped with square layer board 29, and two pairs of the top of layer board 29 are fixed with a pair of lifting plate 30, and the pull ring 32 has been seted up at the top of lifting plate 30, is fixed with cylindrical sleeve 31 in the middle of the top of layer board 29, and bagging 36 is established in the sleeve 31. The sleeve bag 36 is sleeved into the sleeve 31 through a manual or automatic machine, the redundant part at the top of the sleeve bag 36 is bent and turned over at the outer side of the sleeve 31, and the lifting plate 30 is lifted through the pull ring 32 and is placed into the receiving groove 26. The bag holder 25 is also pulled out of the receiving channel 26 by means of the pull ring 32. The automatic pick-and-place of the pocket holder 25 can also be realized by an auxiliary machine by mechanically automatically acting on the pull ring 32 of the pocket holder 25.

Wherein, the stepping motor 7 rotates in an equal angle of 45 degrees in an intermittent manner. Connect the silo 26 to set up in two sets of vertically splint 28, can know that rotary drum 5 has four groups to each other to become 90 connect the silo 26, and rotary drum 5 is 45 contained angle formula rotations that stop intermittently, and rotary drum 5 pivoted in-process slides with the butt joint recess 27 of churn 8 bottom, and discharge opening 24 is located butt joint recess 27, and pivoted rotary drum 5 realizes that discharge opening 24's intermittent type nature opens and shuts. When a group of material receiving grooves 26 rotate to the vertical position, the discharging holes 24 are in butt joint with the material receiving grooves 26, and fungus materials in the mixing drum 8 can fall into the material receiving grooves 26 corresponding to the bottom from the discharging holes 24 at the bottom. The inner diameter of the discharging hole 24 is smaller than the opening of the bag 36, so that the fungus material can accurately fall into the bag 36 on the bag holder 25.

Wherein, the charging conduit 11 has been seted up to the centre of workstation 1, and material receiving box 33 has been placed to the bottom of workstation 1, and material receiving box 33 is located charging conduit 11 under. Some fungus materials can slide out of the butt joint groove 27 in the loading process, and the flowing fungus materials fall into the material receiving box 33 from the charging chute 11, so that bacterial colonies are prevented from scattering in the workbench 1 or a workshop.

Wherein, a temperature sensor 38 is fixed on the whole body of the hollow shaft 10. The temperature of the fungus material in the mixing drum 8 is detected in real time through the temperature sensor 38 so as to control the temperature of the fungus material.

Wherein the other end of the liquid return pipe 21 is connected to the heating box 20. The liquid return pipe 21 reintroduces the liquid liquefied in the hollow interlayer 18 into the heating box 20 to be heated into steam, so that the waste of water resources is reduced. And the water liquefied in the hollow interlayer has certain residual temperature, so that less energy is consumed when the water enters the heating box 20 for re-vaporization.

Before use, the heating box 20 is started, and water in the heating box 20 is formed into steam and is introduced into the hollow interlayer 18 and enters the stirring cylinder 8 from the hollow shaft 10. So that the agitating drum 8 is preheated to a desired temperature in advance.

In use, the various mushroom material components to be stirred are added into the stirring cylinder 8 from the hopper 16. The stirring motor 9 is started to rotate the hollow shaft 10, and the stirring blades 12 and the scraping plates 15 stir the fungus materials. And detecting the temperature detected by the temperature sensor 38 in real time in the stirring process, controlling the temperature at 50-60 ℃, and stirring for 25-40 minutes. After the stirring is finished, the stepping motor 7 is started, the rotary drum 5 is rotated by 45 degrees, and a group of material receiving grooves 26 are opposite to the discharge hole 24.

The fungus material flows into the receiving groove 26 from the discharging hole 24, and the bag covering rack 25 covered with the bag covering 36 is put into the receiving groove 26 in advance in the embodiment. So that the mushroom material flowing out of the discharging hole 24 can directly fall into the bag 36. In the specific implementation, as shown in fig. 4, the bagging racks are placed into the receiving trough 26 from the rear side of the drum 5, and the bagging racks are taken out of the receiving trough 26 from the front side of the drum 5. The bag loading frame can be taken and placed manually, and a matched machine for taking and placing can be designed to take and place the bagging 36 machine.

In specific implementation, the bagging frame 25 is not used, the fungus material directly falls into the receiving trough 26, and then a plurality of groups of material guiding hoppers 16 are arranged at the bottom of the rotating drum 5 of the embodiment for bagging.

While the foregoing embodiments are illustrative of the present invention, various modifications and changes may be readily made by those skilled in the art based upon the teachings and principles of this invention, which are intended to be limited not to the details of construction and methods herein shown, but rather to the preferred embodiments described, and therefore all equivalent modifications and changes in light of the above teachings are intended to be included within the scope of the present invention as defined in the appended claims.