CN214801292U - Energy-saving automatic disinfection device for agaricus bisporus mushroom house - Google Patents

Abstract

The utility model discloses an energy-saving automatic disinfection device is used in bisporous mushroom room relates to mushroom production field, including the ground, the waste liquid pond has been seted up to the inside of ground, and the neck portion in waste liquid pond is connected with the protection network, and top one side of ground is provided with water tank and second liquid pump respectively, and the feed liquor end of second liquid pump is connected with the liquid suction pipe. The utility model discloses a cylinder, the dust screen, the baffle, the partition panel, the cabinet body and vacuum pump, at first through the feed inlet to the internal active carbon particle of inputting of cabinet, later form the air current through the air in the vacuum pump will mushroom room and the formaldehyde suction cabinet body of reserving, the air current gets into the internal back formaldehyde of cabinet and is adsorbed by the active carbon particle, thereby later make the active carbon particle fully adsorb the formaldehyde in the air current through partition panel extension air current displacement, later the air current is discharged from the top of the cabinet body, it makes in the mushroom room to get into through cylinder drive baffle removal fresh air accessible draft slot simultaneously, prevent to reserve formaldehyde in the mushroom room has formaldehyde, discharge pollution abatement after purifying.

Description

Energy-saving automatic disinfection device for agaricus bisporus mushroom house

Technical Field

The utility model relates to a mushroom production field specifically is an energy-saving automatic degassing unit is used in bisporous mushroom room.

Background

The agaricus bisporus is silvery white in hypha, fast in growth speed, not easy to form fungus quilts, multiple in sporocarp, single in growth, round, white, free of scales, thick in pileus, not easy to open an umbrella, thick and straight short in stipe, white in stipe, firm in tissue, semi-membrane fungus rings on the stipe, silver brown in spore, one of the most common edible fungus strains, thick in meat quality, native in Europe and North America, at least, people start to eat from ancient Greece times, artificial cultivation is started in France in 17 th century and the like, cultivation is now widely carried out all over the world, agaricus bisporus mushroom houses need to carry out sterilization and disinfection work on mushroom houses before planting, energy conservation, convenience, high automation degree and convenience in use.

The utility model provides an agaricus bisporus room degassing unit that prior application technical number is CN202020168190.9, relate to the agaricus bisporus field of breeding, including the mushroom room, set up cultivation frame in the mushroom room, the below of cultivation frame sets up the fumigator, the fumigator passes through the liquid outlet intercommunication of pipeline and drawing liquid pump, the inlet of drawing liquid pump passes through the pipeline and communicates with the formaldehyde jar that is located mushroom room outside, cultivation board on the cultivation frame is fine and close network structure, the top of cultivation frame sets up the spray pipe in the mushroom room, the below of spray pipe sets up the shower nozzle, the spray pipe passes through the delivery port intercommunication of pipeline and suction pump, the water inlet of suction pump passes through pipeline and water tank intercommunication, set up the connecting rod between the top in spray pipe and the mushroom room. The utility model has the advantages that the fumigator is arranged at the bottom of the cultivation frame, and the cultivation plate is of a compact net structure, so that gas and liquid can be ensured to pass through, and quick and effective fumigation and disinfection can be realized; open the suction pump after stifling is accomplished simultaneously and finally follow the shower nozzle blowout in with the water suction spray pipe in the water tank, thereby with the formaldehyde of gaseous state in the dissolved air, avoid causing environmental pollution and bodily injury, but this degassing unit adopts the water spray mode to dissolve formaldehyde, and formaldehyde is gaseous after being stifled and leads to having just had partial formaldehyde to rise to the roof in mushroom room before wasing, lead to the shower nozzle can't dissolve it, thereby lead to wantonly remaining formaldehyde in the mushroom room, formaldehyde remains and makes the staff get into and inhale formaldehyde easily after the mushroom room, and this degassing unit adopts the shower nozzle with water blowout, the comparatively fixed inconvenient regulation of shower nozzle structure, the apopore is blockked up by the impurity of aquatic easily after the shower nozzle is used for a long time, the shower nozzle structure is fixed then can be blockked up in the mushroom room local area can's by water shower nozzle after can blockking up.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims at providing an energy-saving automatic degassing unit is used in bisporous mushroom room to solve the roof and keep formaldehyde and the inconvenient pivoted technical problem of shower nozzle easily.

In order to achieve the above object, the utility model provides a following technical scheme: an energy-saving automatic disinfection device for an agaricus bisporus mushroom house comprises a foundation, wherein a waste liquid pool is arranged inside the foundation, a protective net is connected to the collar of the waste liquid pool, a water tank and a second liquid pump are respectively arranged on one side of the top of the foundation, a liquid inlet pipe is connected to the liquid inlet end of the second liquid pump, a water inlet is connected to one side of the top of the water tank, a liquid tank is respectively arranged on the other side of the top of the foundation, a liquid inlet is connected to the top of the liquid tank, a first liquid pump is installed on one side of the liquid tank, a liquid outlet end of the first liquid pump is connected with a liquid conveying pipe, a fumigator is installed at one end of the liquid conveying pipe, the top of the foundation is connected with the mushroom house, fresh air components are respectively arranged on two sides of the mushroom house, a water pump is installed above one side of the mushroom house, a water outlet end of the water pump is connected with a water conveying pipe, and a water inlet end of the water pump is connected with the water tank through the water conveying pipe, the mushroom house is characterized in that a placing frame is connected to the lower portion inside the mushroom house, a placing net is connected to the inside of the placing frame, an adjusting assembly is arranged on the upper portion inside the mushroom house, a sealing door is connected to the outer surface of the mushroom house, a cabinet body is connected to the back of the mushroom house, and an exhaust port is connected to the upper portion of the outer surface of the cabinet body.

Through adopting above-mentioned technical scheme, the air in the mushroom room and the formaldehyde suction cabinet body of reserving form the air current after the new trend subassembly passes through the vacuum pump and starts, the air current gets into the internal back formaldehyde of cabinet and is adsorbed by the activated carbon particle, thereby later make the activated carbon particle fully adsorb the formaldehyde in the air current through partition panel extension air current displacement, later the air current is discharged from the top of the cabinet body, the adjusting part drives the shower nozzle rotation through a plurality of first gear rotations after, the shower nozzle lasts to rotate and makes the washing more add evenly.

Further, the new trend subassembly is including the ventilation groove that is located mushroom room both sides, install in the vacuum pump of the internal portion top of cabinet, connect in the partition panel of the internal portion of cabinet and connect in the cabinet door of cabinet body one side, the internal connection of ventilation groove has dust screen and two baffles, one the cylinder is installed to the bottom of baffle, and another the cylinder is installed at the top of baffle, two feed inlets have been seted up to one side of cabinet door, two the inside of feed inlet all is connected with the sealing plug.

Through adopting above-mentioned technical scheme, the staff takes out the sealing plug after the washing finishes, later the staff passes through the feed inlet to the internal active carbon particle of cabinet input, the back staff puts back the sealing plug after the input finishes, later the staff opens cylinder and vacuum pump through control panel, form the air current in the air in the room of will mushroom and the formaldehyde suction cabinet body of reserving after the vacuum pump starts, the air current gets into the internal back formaldehyde of cabinet and is adsorbed by the active carbon particle, thereby later through partition panel extension air current migration distance make the active carbon particle can be with the formaldehyde fully absorption in the air current, later the air current is discharged from the top of the cabinet body, cylinder start simultaneously, the output removes through piston rod drive baffle after the cylinder starts makes in the fresh air accessible air duct gets into the mushroom room, the staff can open the cabinet door after the work and change the active carbon particle.

Furthermore, the adjusting component comprises a first gear and a sealing sleeve which are sleeved outside the spray head and a supporting plate which is connected to the upper portion inside the mushroom house, a first chain is connected to the outer surface of the first gear, a supporting frame and a motor are arranged and connected to the bottom of the supporting plate, the output end of the motor is connected with a rotating shaft, the first gear and a second gear are sleeved outside the rotating shaft respectively, and a second chain is connected to one side of the second gear.

Through adopting above-mentioned technical scheme, it is rotatory that the motor starts a rotation axis of back output drive, it is rotatory to drive first gear and second gear after the rotation axis is rotatory, it makes two rotation axis synchronous rotations to mesh with the second chain through the second gear, it is rotatory to drive two first gears after two rotation axis rotations, thereby it is rotatory to drive a plurality of first gears through first gear and first chain meshing, it rotates to drive the shower nozzle after a plurality of first gears are rotatory, the shower nozzle lasts to rotate and makes the washing more even.

Further, the cabinet door is connected with the cabinet body through the pivot, just the baffle is provided with a plurality ofly, and is a plurality of baffle and air duct sliding connection, and a plurality of baffle and mushroom room sliding connection.

Through adopting above-mentioned technical scheme, the cylinder starts the back output and passes through piston rod drive baffle and remove and make fresh air accessible draft slot get into mushroom room in, and the staff can open the cabinet door and change the active carbon granule after the work.

Furthermore, first gear and shower nozzle all are provided with a plurality ofly, and are a plurality of first gear and shower nozzle all are rectangle array form, first chain, rotation axis and second gear all are provided with two.

Through adopting above-mentioned technical scheme, the motor starts the back and output end drive a rotation axis rotatory, and the rotation axis drives first gear and second gear rotation after rotatory, makes two rotation axis synchronous rotations through second gear and second chain meshing, and two rotation axis drive two first gears rotatory after rotatory, thereby it is rotatory to drive a plurality of first gears through first gear and first chain meshing.

Furthermore, the first gear is meshed with the first chain, the second gear is meshed with the second chain, the spray head is rotatably connected with the sealing sleeve, and the spray head is rotatably connected with the water delivery pipe.

Through adopting above-mentioned technical scheme, the motor starts the back and output end drive a rotation axis rotatory, and it is rotatory to drive first gear and second gear after the rotation axis is rotatory, makes two rotation axis synchronous rotations through second gear and second chain meshing, and it is rotatory to drive two first gears after two rotation axis rotations, thereby it is rotatory to drive a plurality of first gears through first gear and first chain meshing, drives the shower nozzle rotation after a plurality of first gears are rotatory.

Furthermore, control panel is installed to the surface one side in mushroom room, just motor, water pump, first liquid pump, second liquid pump, fumigator, cylinder and vacuum pump all with control panel electric connection.

Through adopting above-mentioned technical scheme, the staff opens or closes motor, water pump, first liquid pump, second liquid pump, fumigator, cylinder and vacuum pump through control panel, and in the liquid formaldehyde suction fumigator in with the liquid case after the first liquid pump starts, with formaldehyde vaporization after the fumigator starts, later through gaseous state formaldehyde to the mushroom room in the work of disinfecting.

To sum up, the utility model discloses mainly have following beneficial effect:

1. the utility model discloses a cylinder, dust screen, baffle, partition panel, the cabinet body and vacuum pump, at first through the feed inlet to the internal active carbon particle of cabinet, later through the vacuum pump with the air in the mushroom room with the formaldehyde suction of reserving in the cabinet body form the air current, formaldehyde is adsorbed by the active carbon particle after the air current gets into the cabinet body, later through partition panel extension air current displacement distance make the active carbon particle can fully adsorb the formaldehyde in the air current, later the air current is discharged from the top of the cabinet body, simultaneously through the cylinder drive baffle removal make fresh air accessible draft slot get into the mushroom room in, prevent to reserve formaldehyde in the mushroom room, discharge the pollution abatement after purifying formaldehyde;

2. the utility model discloses a backup pad, the support frame, the seal cover, including a motor, a controller, and a cover plate, first gear, first chain, second gear and second chain, at first rotatory through rotation axis of motor output end drive, it is rotatory to drive first gear and second gear after the rotation axis is rotatory, it makes two rotation axis synchronous rotations with the second chain meshing to pass through the second gear, it is rotatory to drive two first gears after two rotation axis rotations, thereby it is rotatory with a plurality of first gears of first chain meshing drive through first gear, it rotates to drive the shower nozzle after a plurality of first gears are rotatory, the shower nozzle lasts to rotate and makes the washing more even, the condition that partial region can't be washd appears after preventing that partial apopore from blockking up, the shower nozzle is conveniently rotated.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic sectional structure of the present invention;

FIG. 3 is a schematic view of the baffle structure of the present invention;

FIG. 4 is a schematic side sectional view of the cabinet body of the present invention;

fig. 5 is an enlarged view of the structure at a in fig. 2 according to the present invention;

fig. 6 is a schematic view of the top view structure of the water pipe of the present invention;

fig. 7 is a schematic view of the structure of the rack of the present invention.

In the figure: 1. a foundation; 2. mushroom house; 3. a water tank; 4. a water pump; 5. a water inlet; 6. a liquid tank; 7. a first liquid pump; 8. a liquid inlet; 9. a second liquid pump; 10. a sealing door; 11. a control panel; 12. a water delivery pipe; 13. a spray head; 14. a cabinet body; 15. an exhaust port; 16. a transfusion tube; 17. a fumigator; 18. a liquid pumping pipe; 19. a waste liquid tank; 20. a protective net; 21. placing a rack; 22. a fresh air component; 2201. a ventilation slot; 2202. a dust screen; 2203. a baffle plate; 2204. a cylinder; 2205. a vacuum pump; 2206. a partition panel; 2207. a cabinet door; 2208. a feed inlet; 2209. a sealing plug; 23. an adjustment assembly; 2301. a first gear; 2302. a first chain; 2303. a support plate; 2304. sealing sleeves; 2305. a support frame; 2306. a motor; 2307. a rotating shaft; 2308. a second gear; 2309. a second chain; 24. and placing the net.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The following describes an embodiment of the present invention according to its overall structure.

An energy-saving automatic disinfection device for an agaricus bisporus mushroom house is shown in figures 1-7 and comprises a foundation 1, a waste liquid pool 19 is arranged inside the foundation 1, a protective net 20 is connected to the collar portion of the waste liquid pool 19, a water tank 3 and a second liquid pump 9 are respectively arranged on one side of the top of the foundation 1, a liquid inlet end of the second liquid pump 9 is connected with a liquid pumping pipe 18, a water inlet 5 is connected to one side of the top of the water tank 3, a liquid tank 6 is respectively arranged on the other side of the top of the foundation 1, a liquid inlet 8 is connected to the top of the liquid tank 6, a first liquid pump 7 is arranged on one side of the liquid tank 6, a liquid outlet end of the first liquid pump 7 is connected with a liquid conveying pipe 16, a fumigator 17 is arranged at one end of the liquid conveying pipe 16, a mushroom house 2 is connected to the top of the foundation 1, fresh air assemblies 22 are respectively arranged on two sides of the mushroom house 2 to prevent formaldehyde from being left in the mushroom house 2, a water pump 4 is arranged above one side of the mushroom house 2, and a water outlet end of the water pump 4 is connected with a water conveying pipe 12, and the end of intaking of water pump 4 is connected with water tank 3 through raceway 12, the inside below in mushroom room 2 is connected with rack 21, the internal connection of rack 21 places the net 24, the inside top in mushroom room 2 is provided with adjusting part 23, conveniently rotate shower nozzle 13, the surface connection in mushroom room 2 has sealing door 10, the back in mushroom room 2 is connected with cabinet 14, the surface top of cabinet 14 is connected with gas vent 15, control panel 11 is installed to the surface one side in mushroom room 2, and motor 2306, water pump 4, first liquid pump 7, second liquid pump 9, fumigator 17, cylinder 2204 and vacuum pump 2205 all with control panel 11 electric connection, the staff opens or closes motor 2306 through control panel, water pump 4, first liquid pump 7, second liquid pump 9, fumigator 17, cylinder 2204 and vacuum pump 2205.

Referring to fig. 2-4, the fresh air assembly 22 includes ventilation slots 2201 located at two sides of the mushroom house 2, a vacuum pump 2205 installed above the inside of the cabinet 14, a partition plate 2206 connected to the inside of the cabinet 14, and a cabinet door 2207 connected to one side of the cabinet 14, a dust screen 2202 and two baffles 2203 are connected to the inside of the ventilation slot 2201, an air cylinder 2204 is installed at the bottom of one baffle 2203, an air cylinder 2204 is installed at the top of the other baffle 2203, two feed inlets 2208 are opened at one side of the cabinet door 2207, sealing plugs 2209 are connected to the inside of the two feed inlets 2208, the cabinet door 2207 is rotatably connected to the cabinet 14 through a rotating shaft, a plurality of baffles 2203 are provided, the baffles 2203 are slidably connected to the ventilation slots 2201, the baffles 2203 are slidably connected to the mushroom house 2, and the output end of the air cylinder 2204 is driven by a piston rod to move so that fresh air can enter the mushroom house 2 through the ventilation slots 2201.

Referring to fig. 2, 5 and 6, the adjusting assembly 23 includes a first gear 2301 and a sealing sleeve 2304 sleeved outside the spray head 13 and a support plate 2303 connected to the upper portion inside the mushroom house 2, a first chain 2302 is connected to an outer surface of the first gear 2301, a support frame 2305 and a motor 2306 are disposed and connected to a bottom of the support plate 2303, a rotation shaft 2307 is connected to an output end of the motor 2306, the first gear 2301 and the second gear 2308 are respectively sleeved outside the rotation shaft 2307, a second chain 2309 is connected to one side of the second gear 2308, a plurality of first gears 2301 and spray heads 13 are disposed, the plurality of first gears 2301 and spray heads 13 are rectangular arrays, two first chains 2302, two rotation shafts 2307 and two second gears 2308 are disposed, the first gear 2301 is engaged with the first chain 2302, the second gear 2308 is engaged with the second chain 2309, the spray head 13 is rotatably connected with the sealing sleeve 4, and the spray head 13 is rotatably connected with the water pipe 12, the spray head 13 rotates continuously to make the cleaning more uniform, and the cleaned water and formaldehyde are mixed to form waste liquid which passes through the protective screen 20 and enters the waste liquid tank 19.

The implementation principle of the embodiment is as follows: firstly, a worker closes a sealing door 10, then the worker inputs water into a water tank 3 through a water inlet 5, then the worker inputs liquid formaldehyde into a liquid tank 6 through a liquid inlet 8, after the preparation work is finished, the worker opens a first liquid pump 7 and a fumigator 17 through a control panel 11, the first liquid pump 7 starts to pump the liquid formaldehyde in the liquid tank 6 into the fumigator 17, the fumigator 17 starts to heat and vaporize the formaldehyde, then the mushroom house 2 is disinfected through gaseous formaldehyde, after the disinfection work is finished, the worker opens a water pump 4, a motor 2306 and a second liquid pump 9 through the control panel 11, the water pump 4 starts to pump the water in the water tank 3 into a spray head 13, then the spray head 13 sprays the water to clean the mushroom house 2, the gaseous formaldehyde is dissolved, the output end of the motor 2306 starts to drive a rotating shaft 2307 to rotate, the rotating shaft 2307 drives a first gear 2301 and a second gear 8 to rotate, two rotating shafts 2307 synchronously rotate by meshing of a second gear 2308 and a second chain 2309, the two rotating shafts 2307 drive two first gears 2301 to rotate after rotating, the first gears 2301 are meshed with the first chain 2302 to drive the first gears 2301 to rotate, the first gears 2301 drive the spray heads 13 to rotate after rotating, the spray heads 13 continuously rotate to enable cleaning to be more uniform, waste liquid formed by mixing cleaned water and formaldehyde enters the waste liquid tank 19 through the protective screen 20, the waste liquid in the waste liquid tank 19 is pumped out through the liquid pumping pipe 18 after the second liquid pump 9 is started to be discharged, after cleaning is finished, the working personnel take out the sealing plugs 2209, then the working personnel input activated carbon particles into the cabinet 14 through the feed inlet 2208, after input, the working personnel put back the sealing plugs 2209, then the working personnel open the air cylinder 2204 and the vacuum pump 2205 through the control panel 11, after the vacuum pump 2205 is started, air in the mushroom house 2 and the reserved formaldehyde are pumped into the cabinet 14 to form air flow, the air current gets into the interior back formaldehyde of cabinet 14 and is adsorbed by the active carbon granule, thereby later make the active carbon granule fully adsorb the formaldehyde in the air current through partition panel 2206 extension air current displacement distance, later the air current is discharged from the top of the cabinet 14, cylinder 2204 starts simultaneously, output passes through piston rod drive baffle 2203 and removes and make fresh air accessible draft slot 2201 get into mushroom room 2 after cylinder 2204 starts, the staff can open cabinet door 2207 and change the active carbon granule after the work.

Although embodiments of the present invention have been shown and described, it is intended that the present embodiments be illustrative only and not limiting to the invention, and that the particular features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples, and that modifications, substitutions, variations, and the like, which are not inventive in light of the above teachings, may be made to the embodiments by those skilled in the art without departing from the principles and spirit of the present invention, but are to be construed as broadly as the following claims.

Claims (7)

1. The utility model provides an energy-saving automatic degassing unit is used in bisporous mushroom room, includes ground (1), its characterized in that: waste liquid pool (19) has been seted up to the inside of ground (1), the neck portion in waste liquid pool (19) is connected with protection network (20), top one side of ground (1) is provided with water tank (3) and second liquid pump (9) respectively, the feed liquor end of second liquid pump (9) is connected with liquid suction pipe (18), top one side of water tank (3) is connected with water inlet (5), the top opposite side of ground (1) is provided with liquid tank (6) respectively, the top of liquid tank (6) is connected with inlet (8), first liquid pump (7) is installed to one side of liquid tank (6), the play liquid end of first liquid pump (7) is connected with transfer line (16), fumigator (17) is installed to the one end of transfer line (16), the top of ground (1) is connected with mushroom room (2), the both sides in mushroom room (2) all are provided with new trend subassembly (22), the mushroom house is characterized in that a water pump (4) is installed above one side of the mushroom house (2), a water outlet end of the water pump (4) is connected with a water conveying pipe (12), a water inlet end of the water pump (4) is connected with a water tank (3) through the water conveying pipe (12), a placing frame (21) is connected below the interior of the mushroom house (2), a placing net (24) is connected to the interior of the placing frame (21), an adjusting component (23) is arranged above the interior of the mushroom house (2), a sealing door (10) is connected to the outer surface of the mushroom house (2), a cabinet body (14) is connected to the back of the mushroom house (2), and an exhaust port (15) is connected to the upper portion of the outer surface of the cabinet body (14).

2. The energy-saving automatic disinfection device for the agaricus bisporus mushroom house as claimed in claim 1, wherein: fresh air component (22) including being located ventilating slot (2201) of mushroom room (2) both sides, installing in vacuum pump (2205) of the inside top of the cabinet body (14), connecting in inside partition panel (2206) of the cabinet body (14) and connecting in cabinet door (2207) of the cabinet body (14) one side, the internal connection of ventilating slot (2201) has dust screen (2202) and two baffles (2203), one cylinder (2204) are installed to the bottom of baffle (2203), and another cylinder (2204) are installed to the top of baffle (2203), two feed inlets (2208) have been seted up to one side of cabinet door (2207), two the inside of feed inlet (2208) all is connected with sealing plug (2209).

3. The energy-saving automatic disinfection device for the agaricus bisporus mushroom house as claimed in claim 1, wherein: the adjusting assembly (23) comprises a first gear (2301) and a sealing sleeve (2304) which are sleeved outside the spray head (13) and a support plate (2303) connected to the upper portion inside the mushroom house (2), the outer surface of the first gear (2301) is connected with a first chain (2302), the bottom of the support plate (2303) is provided with a support frame (2305) and a motor (2306), the output end of the motor (2306) is connected with a rotating shaft (2307), the outside of the rotating shaft (2307) is respectively sleeved with the first gear (2301) and a second gear (2308), and one side of the second gear (2308) is connected with a second chain (2309).

4. The energy-saving automatic disinfection device for the agaricus bisporus mushroom house as claimed in claim 2, wherein: the cabinet door (2207) is rotatably connected with the cabinet body (14) through a rotating shaft, a plurality of baffles (2203) are arranged, the baffles (2203) are slidably connected with the ventilating groove (2201), and the baffles (2203) are slidably connected with the mushroom house (2).

5. The energy-saving automatic disinfection device for the agaricus bisporus mushroom house as claimed in claim 3, wherein: first gear (2301) and shower nozzle (13) all are provided with a plurality ofly, and a plurality of first gear (2301) and shower nozzle (13) all are rectangle array form, first chain (2302), rotation axis (2307) and second gear (2308) all are provided with two.

6. The energy-saving automatic disinfection device for the agaricus bisporus mushroom house as claimed in claim 3, wherein: the first gear (2301) is meshed with the first chain (2302), the second gear (2308) is meshed with the second chain (2309), the spray head (13) is rotatably connected with the sealing sleeve (2304), and the spray head (13) is rotatably connected with the water conveying pipe (12).

7. The energy-saving automatic disinfection device for the agaricus bisporus mushroom house as claimed in claim 3, wherein: control panel (11) are installed to the surface one side in mushroom room (2), just motor (2306), water pump (4), first liquid pump (7), second liquid pump (9), fumigator (17), cylinder (2204) and vacuum pump (2205) all with control panel (11) electric connection.

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