CN115500211B - Culture device for mushroom planting - Google Patents

Abstract

The invention relates to the technical field of mushroom planting, in particular to a culture device for mushroom planting. The invention provides a culture device for mushroom planting, which can be used for multi-layer soil covering and is convenient to use. A culture device for fungus mushroom cultivation comprises an upright post, a bottom plate, a culture box, a top frame and the like; the left side and the right side of the bottom plate are all connected with upright posts in a front-back symmetrical mode, two culture boxes are connected between the upright posts, and a top frame is connected between the upper parts of the upright posts. Soil is sprayed out through the connecting nozzles in the operation of the soil sucking machine, and as the device is provided with the two connecting nozzles, the multi-layer culture box can be covered with soil simultaneously, and the rodless cylinder drives the connecting nozzles to move left and right, so that the soil can be uniformly covered in the culture box.

Description

Culture device for mushroom planting

Technical Field

The invention relates to the technical field of mushroom planting, in particular to a culture device for mushroom planting.

Background

With the rapid development of the edible fungus industry, the artificially planted mushrooms are more and more, and most of the mushrooms are planted on a culture device in the planting process.

After the mushrooms are sown on the fermentation bed and after the mycelia grow, the covered soil needs to be uniformly spread on the fermentation bed according to a certain thickness at one time so as to facilitate the growth of the subsequent mushrooms. The existing large-scale soil covering machine is slightly clumsy, single-layer soil covering can be carried out on the mycelia planted on a wider land, and the artificial soil covering is needed for the human fungus mushroom amount planted on the planting frame, so that the planting frame is inconvenient to use.

Therefore, we propose a culture device for mushroom planting, which can perform multi-layer soil covering and is convenient to use.

Disclosure of Invention

In order to overcome the defect that the existing large-scale soil covering machine can only perform single-layer soil covering on relatively wide ground cultivation hypha, and the artificial soil covering is needed for the human mushroom amount planted on the planting frame, the invention provides the culture device for mushroom planting, which can perform multi-layer soil covering and is convenient to use.

A culture apparatus for fungus mushroom is planted, including stand, bottom plate, cultivate box, roof-rack, broadcast mechanism and rabbling mechanism, the symmetry is connected with the stand around the bottom plate left and right sides all, is connected with two between a plurality of stands and cultivates the box, is connected with the roof-rack between a plurality of stand upper portions, is equipped with the mechanism of scattering that is used for spraying the covering soil between stand and the roof-rack, is equipped with the rabbling mechanism that is used for storing a large amount of earth and stirs and carry on the roof-rack.

As the improvement of above-mentioned scheme, spill the mechanism including little spread box, the hose, connect the nozzle, rodless cylinder and connect the square pole, roof-rack right part is connected with the little spread box that is used for depositing earth, little spread box right side lower part is connected with the soil sucking machine that is used for providing power for extracting earth, be connected with two hoses on the soil sucking machine, the hose tail end all is connected with connect the nozzle, all be connected with two rodless cylinders between two stands of front side and rear side, the rodless cylinder of front side all passes through the slider with adjacent connect the nozzle to be connected, rodless cylinder operation drive connects the nozzle to control and remove and spray the cover earth in cultivateing the box, connect the nozzle rear side all to be connected with connect the square pole, the rodless cylinder of rear side all passes through the slider with adjacent connection square pole and is connected.

As the improvement of above-mentioned scheme, rabbling mechanism is including drum, last motor, connecting axle, thread board and first flat belt, be connected with the drum on the roof-rack, drum right side lower part and little connecting box intercommunication, drum downside left side is connected with the motor, drum central point puts rotary type and is connected with the connecting axle, be connected with the thread board on the connecting axle, the thread board is located the drum, go up the output shaft of motor and the connecting axle left part between through big belt pulley connection have first flat belt, the output shaft rotation of going up the motor drives the connecting axle through first flat belt and rotates, and then drive the rotation of thread board and transport earth right.

As the improvement of above-mentioned scheme, still including being used for the earth in the cultivation box to strive to the mechanism of striving to strive to, striving to the mechanism including connecting flange, link, scraper blade and torsion spring, all sliding type is connected with two connection flange on the connection square pole, all is connected with two link between two adjacent connection flange, and the link all is located adjacent connection nozzle both sides, and the link lower part all rotates and is connected with the scraper blade, all is connected with a plurality of torsion spring between scraper blade and the adjacent link.

As the improvement of above-mentioned scheme, still including being used for the earth of little connection box to break up the mechanism of breaking up, break up the mechanism and including lower motor, percussion roller and the flat belt of second, little connection box left side is connected with down the motor, and the rotation is connected with the percussion roller in the little connection box, has the flat belt of second through little belt pulley connection between the output shaft of percussion roller front portion and lower motor, and lower motor operation drives the percussion roller through the flat belt of second and rotates to break up the earth in the little connection box.

As the improvement of above-mentioned scheme, still including the adjustment mechanism who is used for adjusting earthing thickness, adjustment mechanism is including first spring, the contact arm, the contact board, the mount, second spring and inserted bar, all be connected with first spring between connection flange and the adjacent connection square pole, all be connected with the contact arm between two adjacent connection flange upside, be connected with two mounts through the link between two stand upper portions of rear side, the cultivation box rear side on upper portion is connected with two same mounts, the mount is bilateral symmetry setting, all sliding type is connected with the contact arm between two mounts about upper portion and lower part, the contact arm moves all and adjacent contact arm contacts to the left, and then by the upward movement of contact arm extrusion, all be connected with the second spring between contact arm and the adjacent mount, two all sliding type are connected with the inserted bar about the contact arm, the inserted in the adjacent mount.

As the improvement of above-mentioned scheme, still including being used for carrying out sterile disinfection mechanism in the cultivation box, disinfection mechanism is including shower nozzle, long connecting pipe, water tank and connection dicyclo, and roof-rack left part is connected with the water tank, and the water tank right front portion is connected with long connecting pipe, and long connecting pipe lower part is connected with two shower nozzles, and long connecting pipe lower part is connected with two connection dicyclos, and the connection dicyclo is located the shower nozzle top, and the connection dicyclo is all connected with adjacent connection nozzle.

As an improvement of the scheme, the left part of the upper side of the cylinder is connected with a feed inlet.

The invention has the following advantages: 1. soil is sprayed out through the connecting nozzles in the operation of the soil sucking machine, and as the device is provided with the two connecting nozzles, the multi-layer culture box can be covered with soil simultaneously, and the rodless cylinder drives the connecting nozzles to move left and right, so that the soil can be uniformly covered in the culture box.

2. The drum can store a large amount of earth, and the screw thread board rotates and can transport the earth in the drum to the right for the earth gets into in the little joint box and supplies.

3. The scraper blade can follow and connect the square pole and control the removal to with the earth that the connection nozzle sprayed strickle.

4. The striking roller rotates to break up soil in the small connecting box, so that the soil sucking machine can conveniently suck the soil.

5. The contact rod and the contact plate are matched to enable the scraping plate to move upwards, and the thickness of the earthing in the culture box is adjusted due to the fact that the height of the contact plate can be adjusted.

6. The spray head moves left and right along with the connecting nozzle, so that the disinfectant is uniformly sprayed in the culture box for disinfection and sterilization.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the spreading mechanism of the present invention.

Fig. 3 is a schematic partial perspective view of a first embodiment of the spreading mechanism of the present invention.

Fig. 4 is a schematic partial perspective view of a second type of the spreading mechanism of the present invention.

Fig. 5 is a schematic perspective view of the stirring mechanism of the present invention.

Fig. 6 is a schematic cross-sectional view of the stirring mechanism of the present invention.

Fig. 7 is a schematic perspective view of the scraping mechanism of the present invention.

Fig. 8 is a schematic view of a partial perspective structure of the scraping mechanism of the present invention.

Fig. 9 is a schematic perspective view of a breaking mechanism according to the present invention.

Fig. 10 is a schematic cross-sectional view of the breaking mechanism of the present invention.

Fig. 11 is a schematic perspective view of an adjusting mechanism of the present invention.

Fig. 12 is a schematic view of a partial perspective structure of an adjusting mechanism of the present invention.

Fig. 13 is a schematic view of a first perspective of the disinfecting mechanism of the present invention.

Fig. 14 is a schematic view of a second perspective of the disinfecting mechanism of the present invention.

Fig. 15 is a schematic view of a partial perspective view of the sterilization mechanism of the present invention.

Reference numerals in the figures: 1. column, 2, bottom plate, 3, culture box, 4, top frame, 5, sowing mechanism, 51, small connecting box, 52, hose, 53, connecting nozzle, 54, rodless cylinder, 55, connecting square, 6, stirring mechanism, 61, cylinder, 62, upper motor, 63, connecting shaft, 64, bottom plate, 65, first flat belt, 7, scraping mechanism, 71, connecting convex plate, 72, connecting frame, 73, scraper blade, 74, torsion spring, 8, scattering mechanism, 81, lower motor, 82, beating roller, 83, second flat belt, 9, adjusting mechanism, 91, first spring, 92, contact rod, 93, contact plate, 94, fixing frame, 95, second spring, 96, inserting rod, 10, sterilizing mechanism, 101, shower nozzle, 102, long connecting pipe, 103, water tank, 104, connecting double 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.

Example 1

A culture apparatus for fungus mushroom is planted, as shown in fig. 1-6, including stand 1, bottom plate 2, cultivate box 3, roof-rack 4, broadcast mechanism 5 and rabbling mechanism 6, the symmetry is connected with stand 1 around bottom plate 2 left and right sides all, is connected with two between four stands 1 and cultivates box 3, and the bolt has roof-rack 4 between four stand 1 upper portions, is equipped with broadcast mechanism 5 between stand 1 and the roof-rack 4, and broadcast mechanism 5 can spray the covering soil, is equipped with rabbling mechanism 6 on the roof-rack 4, and rabbling mechanism 6 can store a large amount of earth and stir and carry.

When the device is used, the staff can cultivate the hypha on cultivateing box 3, when needs carry out earthing to the hypha in cultivateing box 3, the staff evenly sprays a plurality of cultivateing box 3 with earth through scattering mechanism 5, and rabbling mechanism 6 then can store a large amount of earth, supplies to scatter mechanism 5 to spill the earth.

As shown in fig. 1-4, the sowing mechanism 5 comprises a small connecting box 51, a hose 52, a connecting nozzle 53, a rodless cylinder 54 and a connecting square rod 55, wherein the small connecting box 51 is bolted to the right part of the top frame 4, soil can be stored in the small connecting box 51, a soil sucking machine is connected to the right lower part of the small connecting box 51, the soil sucking machine can provide power for sucking the soil, two hoses 52 are connected to the soil sucking machine, the tail ends of the hoses 52 are connected with the connecting nozzles 53, two rodless cylinders 54 are bolted between two upright posts 1 on the front side and two upright posts 1 on the rear side, the rodless cylinders 54 on the front side are connected with the adjacent connecting nozzles 53 through sliding blocks, the connecting square rods 55 are connected to the rodless cylinders 54 on the rear side through the sliding blocks.

When the device is used, a worker starts the soil sucking machine, sucks the small connecting box 51 into the hose 52 through the soil sucking machine, finally, sprays the small connecting box 51 into the culture box 3 through the connecting nozzle 53, and can drive the connecting nozzle 53 and the connecting square rod 55 to move left and right through the rodless cylinder 54 when spraying soil, so that soil is uniformly sprayed into the culture box 3, and after the soil covering is completed, the worker closes the soil sucking machine, so that the multi-layer soil covering can be automatically carried out.

As shown in fig. 1, 5 and 6, the stirring mechanism 6 comprises a cylinder 61, an upper motor 62, a connecting shaft 63, a threaded plate 64 and a first flat belt 65, wherein the cylinder 61 is bolted on the top frame 4, a feed inlet is connected to the left part of the upper side of the cylinder 61, the right lower part of the cylinder 61 is communicated with the small connecting box 51, the upper motor 62 is bolted on the left side of the lower side of the cylinder 61, the connecting shaft 63 is rotatably connected to the central position of the cylinder 61, the threaded plate 64 is connected to the connecting shaft 63, and the threaded plate 64 is positioned in the cylinder 61, and the first flat belt 65 is connected between the output shaft of the upper motor 62 and the left part of the connecting shaft 63 through a large belt pulley.

When using the device, the staff pours earth into drum 61 through the feed inlet, when needing to carry earth, the staff starts motor 62, goes up motor 62 operation and rotates through first flat belt 65 drive connecting axle 63, and connecting axle 63 rotates and drives screw plate 64 and rotate, and screw plate 64 rotates and transport the earth in the drum 61 right for the earth gets into in the little joint box 51 and feeds, after the feeding is accomplished, the staff closes motor 62, so, can store a large amount of earth and feed little joint box 51.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 7 and 8, the soil in the culture box 3 can be scraped by the scraping mechanism 7, the scraping mechanism 7 comprises a connecting convex plate 71, a connecting frame 72, a scraping plate 73 and a torsion spring 74, two connecting convex plates 71 are connected to the connecting square rod 55 in a sliding mode, two connecting frames 72 are welded between two adjacent connecting convex plates 71, the connecting frames 72 are located on two sides of the adjacent connecting nozzles 53, the scraping plate 73 is connected to the lower portion of the connecting frame 72 in a rotating mode, and six torsion springs 74 are connected between the scraping plate 73 and the adjacent connecting frames 72.

When the device is used, the connecting square rod 55 moves left and right and simultaneously drives the connecting convex plate 71 to move left and right, the connecting convex plate 71 moves left and right and drives the connecting frame 72 to move left and right, the connecting frame 72 moves left and right and drives the scraping plate 73 to move left and right, the scraping plate 73 can scrape soil sprayed by the connecting nozzle 53, under the action of the torsion spring 74, the scraping plate 73 swings upwards to incline to scrape the covering soil, the phenomenon that the scraping plate 73 directly scrapes the covering soil to damage hyphae on the culture box 3 below the covering soil is avoided, and therefore, the soil covered in the culture box 3 can be scraped to be flat under the condition that hyphae are not damaged.

As shown in fig. 1, 9 and 10, the device further comprises a breaking mechanism 8, the breaking mechanism 8 can break up soil in the small connecting box 51, the breaking mechanism 8 comprises a lower motor 81, a striking roller 82 and a second flat belt 83, the lower motor 81 is bolted to the left side of the small connecting box 51, the striking roller 82 is rotatably connected in the small connecting box 51, and the second flat belt 83 is connected between the front part of the striking roller 82 and an output shaft of the lower motor 81 through a small belt pulley.

When the device is used, a worker starts the lower motor 81, the output shaft of the lower motor 81 rotates to drive the striking roller 82 to rotate through the second flat belt 83, the striking roller 82 rotates to break up soil in the small connecting box 51, the soil sucking machine is convenient to extract, and after the earthing is completed, the worker closes the lower motor 81.

As shown in fig. 1, 11 and 12, the device further comprises an adjusting mechanism 9, the adjusting mechanism 9 can adjust the thickness of the covering soil, the adjusting mechanism 9 comprises a first spring 91, a contact rod 92, a contact plate 93, fixing frames 94, a second spring 95 and an inserting rod 96, the first spring 91 is connected between the connecting convex plate 71 and the adjacent connecting convex rod 55, the contact rod 92 is welded between the upper sides of the adjacent two connecting convex plates 71, two fixing frames 94 are welded between the upper parts of the two upright posts 1 at the rear side through connecting plates, two identical fixing frames 94 are welded on the rear side of the culture box 3 at the upper part, the fixing frames 94 are symmetrically arranged in a left-right manner, the contact plate 93 is connected between the left-right two fixing frames 94 at the upper part and the left-right two fixing frames 94 at the lower part in a sliding manner, the contact rod 92 moves leftwards and is contacted with the adjacent contact plate 93, the second spring 95 is connected between the contact plate 93 and the adjacent fixing frames 94, the inserting rod 96 is connected between the left-right two fixing frames 94 in a sliding manner, and the inserting rod 96 is inserted into the adjacent fixing frames 94.

When the device is used, the working quality is that the insert rod 96 is pulled to slide rightwards so as not to clamp the fixed frame 94, at this time, a worker can push the contact plate 93 to slide upwards on the fixed frame 94, the second spring 95 is deformed, after the contact plate 93 slides upwards to a proper position, the worker pushes the insert rod 96 to slide leftwards so as to clamp the contact plate 93 again into the fixed frame 94, the height of the contact plate 93 is further fixed, when the contact plate 71 moves leftwards, the contact rod 92 also moves leftwards, when the contact rod 92 moves leftwards to be in contact with the contact plate 93, the contact rod 92 continues to move leftwards so as to be pressed by the contact plate 93 to move upwards, the contact rod 92 moves upwards so as to drive the connection plate 71 to move upwards, the first spring 91 is deformed, the connection plate 71 moves upwards through the connecting frame 72 so as to adjust the thickness of the covering soil in the culture box 3, after the contact rod 92 is separated from the contact plate 93 rightwards, the connection plate 71 moves downwards under the reset action of the first spring 91, after the covering soil is completed, the worker pulls the insert rod 96 again to slide rightwards so as not to clamp the contact plate 94 again, at this time, the thickness of the second spring 95 can be reset, the covering soil box can be reset, and the culture box can be reset according to the requirement.

As shown in fig. 1, 13, 14 and 15, the disinfection device 10 is further provided, the disinfection device 10 can disinfect the culture box 3, the disinfection device 10 comprises a spray head 101, a long connecting pipe 102, a water tank 103 and a connecting double ring 104, the water tank 103 is bolted to the left part of the top frame 4, the long connecting pipe 102 is connected to the right front part of the water tank 103, two spray heads 101 are connected to the lower part of the long connecting pipe 102, two connecting double rings 104 are connected to the lower part of the long connecting pipe 102, the connecting double rings 104 are located above the spray heads 101, and the connecting double rings 104 are connected with adjacent connecting nozzles 53.

When the device is used, disinfectant in the water tank 103 can enter the long connecting pipe 102 and finally be sprayed out through the spray head 101, and the connecting nozzle 53 can drive the tail end of the long connecting pipe 102 to move left and right through the connecting double ring 104 while moving left and right, so that the spray head 101 is driven to move left and right to uniformly spray the disinfectant in the culture box 3 for disinfection and sterilization.

The above embodiments are only preferred embodiments of the present invention and are not intended to limit the scope of the present invention, so that all equivalent modifications made by the appended claims shall be included in the scope of the present invention.

Claims (3)

1. The utility model provides a culture apparatus for fungus mushroom is planted, including stand (1), bottom plate (2), cultivate box (3) and roof-rack (4), symmetry is connected with stand (1) around bottom plate (2) both sides, be connected with two between a plurality of stands (1) cultivate box (3), be connected with roof-rack (4) between a plurality of stand (1) upper portions, characterized by still including scattering mechanism (5) and rabbling mechanism (6), be equipped with between stand (1) and roof-rack (4) and be used for spraying the mechanism (5) of scattering of covering soil, be equipped with on roof-rack (4) and be used for storing a large amount of earth and stir rabbling mechanism (6) of carrying;

the sowing mechanism (5) comprises a small connecting box (51), hoses (52), connecting nozzles (53), rodless cylinders (54) and connecting square rods (55), the right part of a top frame (4) is connected with the small connecting box (51) for storing soil, the right lower part of the small connecting box (51) is connected with a soil sucking machine for supplying power for sucking the soil, two hoses (52) are connected to the soil sucking machine, the tail ends of the hoses (52) are connected with the connecting nozzles (53), two rodless cylinders (54) are connected between two upright posts (1) at the front side and two upright posts (1) at the rear side, the rodless cylinders (54) at the front side are connected with the adjacent connecting nozzles (53) through sliding blocks, the rodless cylinders (54) operate to drive the connecting nozzles (53) to move left and right so as to spray and cover the soil in the culture box (3), the rear side of the connecting nozzles (53) are connected with the connecting square rods (55), and the rodless cylinders (54) at the rear side are connected with the adjacent connecting square rods (55) through sliding blocks;

the stirring mechanism (6) comprises a cylinder (61), an upper motor (62), a connecting shaft (63), a thread plate (64) and a first flat belt (65), wherein the cylinder (61) is connected to the top frame (4), the right lower part of the cylinder (61) is communicated with the small connecting box (51), the left side of the lower side of the cylinder (61) is connected with the upper motor (62), the connecting shaft (63) is rotatably connected to the central position of the cylinder (61), the thread plate (64) is connected to the connecting shaft (63), the thread plate (64) is positioned in the cylinder (61), the first flat belt (65) is connected between the output shaft of the upper motor (62) and the left part of the connecting shaft (63) through a large belt pulley, the output shaft of the upper motor (62) rotates to drive the connecting shaft (63) to rotate through the first flat belt (65), and then the thread plate (64) is driven to rotate to convey soil to the right;

the soil scraping device comprises a culture box (3), and is characterized by further comprising a soil scraping mechanism (7) for scraping soil in the culture box (3), wherein the soil scraping mechanism (7) comprises a connecting convex plate (71), a connecting frame (72), a scraping plate (73) and torsion springs (74), two connecting convex plates (71) are connected to a connecting square rod (55) in a sliding mode, two connecting frames (72) are connected between two adjacent connecting convex plates (71), the connecting frames (72) are positioned on two sides of adjacent connecting nozzles (53), the scraping plate (73) is connected to the lower portion of the connecting frame (72) in a rotating mode, and a plurality of torsion springs (74) are connected between the scraping plate (73) and the adjacent connecting frames (72);

the device is characterized by further comprising a scattering mechanism (8) for scattering soil in the small connecting box (51), wherein the scattering mechanism (8) comprises a lower motor (81), a striking roller (82) and a second flat belt (83), the lower motor (81) is connected to the left side of the small connecting box (51), the striking roller (82) is rotatably connected to the small connecting box (51), the second flat belt (83) is connected between the front part of the striking roller (82) and an output shaft of the lower motor (81) through a small belt pulley, and the lower motor (81) drives the striking roller (82) to rotate through the second flat belt (83) so as to scatter the soil in the small connecting box (51);

the device comprises a first spring (91), a contact rod (92), a contact plate (93), a fixing frame (94), a second spring (95) and an inserting rod (96), wherein the first spring (91) is connected between a connecting convex plate (71) and an adjacent connecting square rod (55), the contact rod (92) is connected between the upper sides of the two adjacent connecting convex plates (71), two fixing frames (94) are connected between the upper parts of two upright posts (1) on the rear side through connecting plates, two identical fixing frames (94) are connected on the rear side of a culture box (3) on the upper part, the fixing frames (94) are symmetrically arranged, the contact plates (93) are connected between the left fixing frame and the right fixing frame (94) on the upper part in a sliding mode, the contact rods (92) move leftwards and are in contact with the adjacent contact plates (93), the contact plates (93) are extruded upwards, the contact plates (93) are connected between the contact plates (93) and the adjacent fixing frames (94) through connecting plates, and the two adjacent fixing frames (96) are connected with the two identical fixing frames (95) in a sliding mode.

2. The culture device for mushroom cultivation according to claim 1, further comprising a sterilizing mechanism (10) for sterilizing the inside of the culture box (3), wherein the sterilizing mechanism (10) comprises a spray head (101), a long connecting pipe (102), a water tank (103) and a connecting double ring (104), the water tank (103) is connected to the left part of the top frame (4), the long connecting pipe (102) is connected to the right front part of the water tank (103), two spray heads (101) are connected to the lower part of the long connecting pipe (102), two connecting double rings (104) are connected to the lower part of the long connecting pipe (102), the connecting double ring (104) is positioned above the spray heads (101), and the connecting double rings (104) are connected with adjacent connecting spray nozzles (53).

3. A culture device for mushroom cultivation according to claim 2, characterized in that the upper left part of the cylinder (61) is connected with a feed inlet.