CN106605526B - Edible mushroom bag cultivation liquid inoculator - Google Patents

Abstract

The invention relates to the field of bioengineering equipment. The edible fungus bag cultivation liquid inoculator comprises a storage device for storing strains and a spray head, wherein the spray head is provided with an inlet, the inlet of the spray head is connected with a metal pipe body, and the metal pipe body is communicated with the storage device; the included angle between the length direction of the metal pipe body and the spraying direction of the spray head is 75-105 degrees. According to the invention, the work efficiency is improved by inoculating through the spray head, and meanwhile, the connection of the hose is replaced by the metal pipe body, so that the frequency of the arm of a person entering the upper part of the fungus bag is reduced, the pollution probability is reduced, and meanwhile, the increase of the hardness makes the inoculating person more labor-saving to a certain extent. In addition, the included angle between the length direction of the metal pipe body and the spraying direction of the spray head is limited in an optimized mode, so that the spray head is prevented from spraying strains to the metal pipe body, and a user can conveniently keep away from the upper portion of the fungus bag when operating the metal pipe body.

Description

Edible mushroom bag cultivation liquid inoculator

Technical Field

The invention relates to the field of bioengineering equipment, in particular to a liquid inoculator.

Background

In the traditional edible fungus production process, the solid inoculation of edible fungus strains is manual inoculation, which wastes labor and time.

The successful application of the liquid strains of the edible fungi powerfully promotes the industrial development of the edible fungi. At present, edible fungus liquid strain industrial cultivation mainly comprises two modes of bag cultivation and bottle cultivation. In order to realize the industrial development, the liquid inoculator was inoculated, however, the liquid inoculator mainly has a manual inoculating gun. The manual inoculation gun can meet the requirements of bag cultivation and bottle cultivation inoculation, the existing manual inoculation gun is high in labor intensity, and the inoculation amount is difficult to realize standardization.

Disclosure of Invention

The present invention aims to provide a bag-cultivation inoculator for edible fungi to solve at least one of the above technical problems.

The technical problem solved by the invention can be realized by adopting the following technical scheme:

the edible fungus bag cultivation liquid inoculator comprises a storage device for storing strains, and is characterized by also comprising a spray head, wherein the spray head is provided with an inlet, the inlet of the spray head is connected with a metal pipe body, and the metal pipe body is communicated with the storage device;

the included angle between the length direction of the metal pipe body and the spraying direction of the spray head is 75-105 degrees.

According to the invention, the work efficiency is improved by inoculating through the spray head, and meanwhile, the connection of the hose is replaced by the metal pipe body, so that the frequency of the arm of a person entering the upper part of the fungus bag is reduced, the pollution probability is reduced, and meanwhile, the increase of the hardness makes the inoculating person more labor-saving to a certain extent. In addition, the included angle between the length direction of the metal pipe body and the spraying direction of the spray head is limited in an optimized mode, so that the spray head is prevented from spraying strains to the metal pipe body, and a user can conveniently keep away from the upper portion of the fungus bag when operating the metal pipe body.

As a preferred scheme, a touch switch is installed on the metal pipe body, and the touch switch is in control connection with an electromagnetic valve for controlling the flow condition of the spray head;

the electromagnetic valve is arranged between the spray head and the storage device;

the touch switch is connected with a timing device in a control mode, and the timing device is connected with the electromagnetic valve.

After the tact switch is touched, the electromagnetic valve is opened, and the timing device times the opening time of the electromagnetic valve.

As another preferred scheme, a tact switch is mounted on the metal pipe body, and the distance between the tact switch and the spray head is not less than 10 cm;

the signal output end of the tact switch is connected with a micro-processor system, and the micro-processor system is connected with an electromagnetic valve used for controlling the flow condition of the spray head;

the electromagnetic valve is arranged between the spray head and the storage device;

the microprocessor system is connected with the signal output end of the timing device.

After the tact switch is touched, the microprocessor system controls the opening of the electromagnetic valve, and the timing device times the opening time of the electromagnetic valve. The invention can also directly control the opening and closing of the electromagnetic valve through the tact switch, and the microprocessor system monitors the response of the electromagnetic valve, so that the microprocessor system can control the electromagnetic valve when the line problem between the tact switch and the electromagnetic valve can not realize the response of the electromagnetic valve.

The tact switch is positioned on a connecting wire of the microprocessor system and a power supply.

The conduction of the power supply and the microprocessor system is realized through the tact switch, and the electric energy supply of the microprocessor system is realized.

The timing device comprises a shell, a microcontroller is arranged in the shell, and the signal output end of the microcontroller is the signal output end of the timing device;

the timing device is provided with a display device, the display device is connected with the microcontroller, the microcontroller is connected with an LED lamp for displaying the power-on condition of the timing device, and the LED lamp is positioned on the shell;

the microcontroller is connected with a power supply, and the light touch switch is positioned on a connecting wire of the microcontroller and the power supply.

The power-on condition of the timing device can be known conveniently according to the LED indicating lamp.

The tact switch is connected with the electromagnetic valve in a control way, and the tact switch is connected with the timing device in a control way;

the timing device is in control connection with the electromagnetic valve.

The switch of the electromagnetic valve is controlled by the tact switch, and the timing device is controlled to time the opening time of the electromagnetic valve.

After the tact switch is pressed, the electromagnetic valve is opened, the microprocessor system controls the electromagnetic valve to be opened for 3 minutes and then opened again after being closed for 1 minute according to the timing of the timing device, and the electromagnetic valve is closed after being opened for 1 minute.

According to the invention, the electromagnetic valve is opened at intervals in different periods, so that the inoculation effect is improved, and experiments prove that the inoculation method has more excellent effect and higher fruiting rate compared with the traditional non-stop inoculation method.

The touch switch is positioned on a connecting wire of the electromagnetic valve and the power supply, and the touch switch is positioned on a connecting wire of the timing device and the power supply.

The metal pipe body is provided with a joint, the metal pipe body is connected with one end of a pipeline through the joint, and the other end of the pipeline is connected with the storage device;

the storage device is located above the metal pipe body.

When the electromagnetic valve is in an open state, the strains can flow from the storage device to the spray head conveniently under the action of gravity.

The storage device is provided with an outlet, and a pump body is arranged on the outlet of the storage device. The conveying of the strains is convenient to realize.

The spray head is provided with an outlet, the outlet is provided with at least two filter screens, and the aperture of each filter screen is gradually reduced along the flow guide direction of the spray head;

the aperture of the meshes of the filter screen is not more than 0.8 mm.

According to the invention, the multi-layer filter screen is arranged at the outlet of the spray head, the inoculation effect is optimized by limiting the aperture of the filter screen, and the inoculation effect is more excellent after the strains are refined by the filter screen through experiments.

The sprayer is connected with a micro motor through a transmission part, the micro motor is fixed on the metal pipe body, and the rotating central axis of the sprayer is vertical to the length direction of the metal pipe body;

a bearing is arranged at the joint of the spray head and the metal pipe body;

the micro motor is connected with the micro processor system.

According to the invention, through the rotation of the spray head, the spawn running number of the strains when the strains are inoculated by one spray head alone is increased, the hypha can be quickly covered, and the pollution probability is effectively reduced.

The fungus bag conveying device is characterized by also comprising a conveying mechanism for conveying fungus bags, wherein the conveying mechanism is provided with a discharging end, the discharging end is positioned on a support, the support is provided with an installation position for placing the fungus bags, and the installation position is a groove;

the bracket is provided with an electrostatic generator which is connected with a discharging device, and the discharging device is provided with a discharging end;

the bracket is also provided with an air suction mechanism, and the air suction mechanism is provided with an air suction port;

the air suction port and the discharge end are both positioned on the inner wall of the groove.

The invention makes the fungus bag in an open state by combining the electrostatic generator and the air suction mechanism, so that the fungus can be conveniently sprayed into the fungus bag through the spray head.

The inner contour of the groove is matched with the outer contour of the fungus bag in an inflated state;

the groove comprises a first fixing part used for fixing the bag opening of the fungus bag, and the groove comprises a second fixing part used for fixing the bag body of the fungus bag;

the first fixing part is positioned below the second fixing part;

the caliber of the first fixing part is smaller than that of the second fixing part;

the inner wall of the first fixing part is provided with a discharge end and an air suction port, the discharge end arranged on the first fixing part is adjacent to the air suction port and forms an annular structure in a surrounding mode, and the central axis of the annular structure and the central axis of the first fixing part are in the same straight line;

the inner wall of the second fixing part is provided with the air suction port.

So as to make the fungus bag in an open state.

The inner wall of the groove is provided with at least three air suction ports at different heights; the air suction ports with different heights control the on-off of the air suction ports through different valves;

the bottom surface of the groove is the upper surface of a lifting platform;

a displacement sensor is arranged on the lifting platform and connected with the microprocessor system, and the microprocessor system is connected with a valve;

the microprocessor system is connected with the static generator.

The up-and-down transportation of the fungus bags is conveniently realized through the lifting platform, the lifting platform is firstly lifted to the highest point, the highest point is located between the first fixing part and the second fixing part, then the lifting platform is gradually lowered, and in the lowering process, air suction ports at different heights are opened one by one from top to bottom.

The discharging direction of the discharging end faces the lifting platform. Is convenient for conveying the fungus bags to the lifting platform through the material conveying mechanism.

The lifting platform is also provided with an air suction port, and the lifting platform is provided with a weighing device;

the weighing device is connected with the microprocessor system.

According to the weight that the weighing device was called, the time that the adjustment solenoid valve was opened, the compost of the different weight that prevents in the fungus bag of being convenient for, the opening time of adjustment solenoid valve, and then the control with cultivate the bacterial species volume that material weight is relative to.

After the weighing device response is waited the placing of fungus bag, the induction port of lift platform is in the state of breathing in.

The aperture of the air suction port is not more than 1 mm.

The invention is convenient to control the air suction force by controlling the aperture of the air suction port.

The air suction mechanism comprises an air suction pump, and the air inlet end of the air suction pump is communicated with the air suction port;

the getter pump is connected with the microprocessor system, and the microprocessor system is connected with a wireless communication module;

the microprocessor system is connected with an intelligent terminal device through the wireless communication module.

The invention can control the working conditions of the electrostatic generator and the air suction pump through the micro-processor system, and the micro-processor system is connected with the wireless communication module, thereby facilitating the wireless remote control of the intelligent terminal equipment.

The electric energy input end of the microprocessor system is connected with a solar panel through a charging device, at least three photosensitive elements with different directions are arranged on the solar panel, the photosensitive direction of at least one photosensitive element on the solar panel is consistent with the lighting direction of the solar panel, the photosensitive element is connected with the microcontroller, and the microcontroller is connected with an LED lamp;

the number of the LED lamps is equal to that of the photosensitive elements, and one side of one photosensitive element is provided with the LED lamps;

the solar cell panel is fixed on the shell through a rotating shaft.

The solar panel is convenient to prevent the solar panel from working normally under the condition of power failure. The luminous condition of the LED lamp is judged, the light source irradiates the condition, and then the solar cell panel is driven to rotate through the rotating shaft, so that the light energy collection in different directions is realized.

The outer wall of the storage device is provided with a heat insulation layer made of phenolic foam material;

at least one annular hollow cavity is arranged inside the heat preservation layer, and water-swellable rubber is arranged in the annular hollow cavity.

Because the storage device is used for storing strains, different strains have different storage temperatures, and the heat-insulating layer made of phenolic foam materials is arranged on the outer wall of the metal pipe body, the phenomenon of condensed water caused by the temperature difference between the inside and the outside of the storage device is prevented.

Drawings

FIG. 1 is a partial schematic structural view of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

Referring to fig. 1, the edible fungus bag cultivation liquid inoculator comprises a storage device for storing strains and a spray head 1, wherein the spray head 1 is provided with an inlet, the inlet of the spray head 1 is fixedly connected with a metal pipe body 2, and the metal pipe body 2 is communicated with the storage device; the included angle between the length direction of the metal pipe body 2 and the spraying direction of the spray head 1 is 75-105 degrees. According to the invention, the work efficiency is improved by inoculating through the spray head 1, and meanwhile, the connection of the hose is replaced by the metal pipe body 2, so that the frequency of the arm of a person entering the upper part of the fungus bag 11 is reduced, the pollution probability is reduced, and meanwhile, the increase of the hardness makes the inoculating person more labor-saving to a certain extent. In addition, the included angle between the length direction of the metal pipe body 2 and the spraying direction of the sprayer 1 is limited in an optimized mode, so that the sprayer 1 is prevented from spraying strains to the metal pipe body 2, and a user can conveniently keep away from the upper portion of the fungus bag 11 when operating the metal pipe body 2.

A touch switch 5 is arranged on the metal pipe body 2, and the distance between the touch switch 5 and the spray head 1 is not less than 10 cm; the signal output end of the tact switch 5 is connected with a microprocessor system, and the microprocessor system is connected with an electromagnetic valve 3 for controlling the flow condition of the spray head 1; an electromagnetic valve 3 is arranged between the spray head 1 and the storage device; the microprocessor system is connected with the signal output end of the timing device 4. After the tact switch 5 is touched, the microprocessor system controls the electromagnetic valve 3 to be opened, and the timing device 4 times the opening time of the electromagnetic valve 3.

The tact switch 5 is located on a connection line of the microprocessor system and a power supply. The conduction of the power supply and the microprocessor system is realized through the tact switch 5, and the electric energy supply of the microprocessor system is realized.

The timing device 4 comprises a shell, a microcontroller is arranged in the shell, and the signal output end of the microcontroller is the signal output end of the timing device 4; the timing device 4 is provided with a display device, the display device is connected with a microcontroller, the microcontroller is connected with an LED lamp for displaying the power-on condition of the timing device 4, and the LED lamp is positioned on the shell; the microcontroller is connected with the power supply, and the tact switch 5 is positioned on a connecting wire of the microcontroller and the power supply. The power-on condition of the timing device 4 can be known conveniently according to the LED indicating lamp.

Or the touch switch 5 is connected with the electromagnetic valve 3 in a control way, and the touch switch 5 is connected with the timing device 4 in a control way; the timing device 4 controls the connection solenoid valve 3. The switch of the electromagnetic valve 3 is controlled by the tact switch 5, and the opening time of the electromagnetic valve 3 is timed by the timing device 4.

After the tact switch 5 is pressed, the electromagnetic valve 3 is opened, the microprocessor system controls the electromagnetic valve 3 to be opened for 3 minutes and then to be opened again after being closed for 1 minute according to the timing of the timing device 4, and the electromagnetic valve 3 is closed after being opened for 1 minute. According to the invention, the electromagnetic valve 3 is opened at intervals in different periods, so that the inoculation effect is improved, and experiments prove that the effect is more excellent and the fruiting rate is higher by adopting the inoculation mode compared with the traditional non-stop inoculation mode.

The tact switch 5 is located on a connection line of the solenoid valve 3 and the power supply, and the tact switch 5 is located on a connection line of the timing device 4 and the power supply.

The metal pipe body 2 is provided with a joint, the metal pipe body 2 is connected with one end of a pipeline through the joint, and the other end of the pipeline is connected with a storage device; the storage device is located above the metal tube body 2. When the electromagnetic valve 3 is in an open state, the strains can flow from the storage device to the spray head 1 conveniently under the action of gravity.

The storage device is provided with an outlet, and a pump body is arranged on the outlet of the storage device. The conveying of the strains is convenient to realize.

The spray head 1 is provided with an outlet, the outlet is provided with at least two filter screens, and the aperture of each filter screen is gradually reduced along the flow guide direction of the spray head 1; the aperture of the meshes of the filter screen is not more than 0.8 mm. According to the invention, the multi-layer filter screen is arranged at the outlet of the spray head 1, the inoculation effect is optimized by limiting the aperture of the filter screen, and the inoculation effect is more excellent after the strains are refined by the filter screen through experiments.

The sprayer 1 is connected with a micro motor through a transmission part, the micro motor is fixed on the metal pipe body 2, and the rotating central axis of the sprayer 1 is vertical to the length direction of the metal pipe body 2; a bearing is arranged at the joint of the spray head 1 and the metal pipe body 2; the micro motor is connected with the micro processor system. According to the invention, through the rotation of the spray head 1, the spawn running number of the strains when the strains are inoculated by one spray head 1 alone is increased, the hypha can be quickly covered, and the pollution probability is effectively reduced.

The device comprises a conveying mechanism for conveying the fungus bags 11, wherein the conveying mechanism is provided with a discharge end, the discharge end is positioned on a bracket, the bracket is provided with an installation position for placing the fungus bags 11, and the installation position is a groove; the bracket is provided with an electrostatic generator which is connected with a discharging device, and the discharging device is provided with a discharging end; the bracket is also provided with an air suction mechanism which is provided with an air suction port; the air suction port and the discharge end are both positioned on the inner wall of the groove. According to the invention, the fungus bag 11 is in an open state through the combination of the electrostatic generator and the air suction mechanism, so that the strains can be conveniently sprayed into the fungus bag 11 through the spray head 1.

The inner contour of the groove is matched with the outer contour of the fungus bag 11 in an inflated state; the groove comprises a first fixing part for fixing the bag opening of the fungus bag 11, and the groove comprises a second fixing part for fixing the bag body of the fungus bag 11; the first fixing part is positioned below the second fixing part; the caliber of the first fixing part is smaller than that of the second fixing part; the inner wall of the first fixing part is provided with a discharge end and an air suction port, the discharge end arranged on the first fixing part is adjacent to the air suction port and forms an annular structure in a surrounding manner, and the central axis of the annular structure and the central axis of the first fixing part are in the same straight line; the inner wall of the second fixing part is provided with an air suction port. So that the fungus sack 11 is in an open state.

The inner wall of the groove is provided with at least three air suction ports at different heights; the air suction ports with different heights control the on-off of the air suction ports through different valves; the bottom surface of the groove is the upper surface of a lifting platform; a displacement sensor is arranged on the lifting platform and connected with a microprocessor system, and the microprocessor system is connected with a valve; the microprocessor system is connected with the electrostatic generator. The up-and-down transportation of the fungus bags 11 is conveniently realized through the lifting platform, the lifting platform is firstly lifted to the highest point, the highest point is located between the first fixing portion and the second fixing portion, then the lifting platform is gradually lowered, and in the lowering process, air suction ports at different heights are opened one by one from top to bottom.

The lifting platform is also provided with an air suction port and a weighing device; the weighing device is connected with the microprocessor system. According to the weight that weighing device weighed, the time that adjustment solenoid valve 3 opened, the compost of the different weights that prevents in the fungus bag 11 of being convenient for, the opening time of adjustment solenoid valve 3, and then the control with the bacterial species volume of cultivateing material weight ratio. After the weighing device response waits that placing of fungus bag 11, the induction port of lift platform is in the state of breathing in.

The aperture of the air suction port is not more than 1 mm. The invention is convenient to control the air suction force by controlling the aperture of the air suction port.

The air suction mechanism comprises an air suction pump, and the air inlet end of the air suction pump is communicated with the air suction port; the air suction pump is connected with the microprocessor system, and the microprocessor system is connected with a wireless communication module; the microprocessor system is connected with an intelligent terminal device through a wireless communication module. The invention can control the working conditions of the electrostatic generator and the air suction pump through the micro-processor system, and the micro-processor system is connected with the wireless communication module, thereby facilitating the wireless remote control of the intelligent terminal equipment.

The electric energy input end of the microprocessor system is connected with a solar panel through a charging device, the solar panel is provided with at least three photosensitive elements with different directions, the photosensitive direction of at least one photosensitive element is consistent with the lighting direction of the solar panel, the photosensitive element is connected with a microcontroller, and the microcontroller is connected with an LED lamp; the number of the LED lamps is equal to that of the photosensitive elements, and one side of one photosensitive element is provided with the LED lamp; the solar cell panel is fixed on the shell through a rotating shaft. The solar panel is convenient to prevent the solar panel from working normally under the condition of power failure. The luminous condition of the LED lamp is judged, the light source irradiates the condition, and then the solar cell panel is driven to rotate through the rotating shaft, so that the light energy collection in different directions is realized.

The outer wall of the storage device is provided with a heat-insulating layer made of phenolic foam material; at least one annular hollow cavity is arranged in the heat-insulating layer, and water-swellable rubber is arranged in the annular hollow cavity. Because the storage device is used for storing strains, different strains have different storage temperatures, and the heat-insulating layer made of phenolic foam materials is arranged on the outer wall of the metal pipe body 2, the phenomenon of condensed water caused by the temperature difference between the inside and the outside of the storage device is prevented.

An outer protective shell is arranged on the outer wall of the metal pipe body 2, a channel for conveying cooling water is arranged between the outer protective shell and the metal pipe body 2, a baffle is arranged between the outer protective shell and the metal pipe body 2, the baffle is fixedly connected with the inner wall of the outer protective shell and the outer wall of the metal pipe body 2 respectively, and the channel is a channel formed by the inner wall of the outer protective shell, the outer wall of the metal pipe body 2 and the baffle in a surrounding mode. The outer wall of the metal pipe body 2 is provided with the channel for conveying cooling water, so that strains are conveniently in an environment of maintaining the activity of the strains in the transportation process. The channel is provided with an inlet and an outlet, the inlet and the outlet are communicated with a water storage tank, the bottom of the water storage tank is provided with a cooling device, the cooling device is connected with a micro processor system, the micro processor system is connected with a temperature sensor, and the monitoring surface of the temperature sensor and the inner wall of the metal pipe body 2 are positioned on the same curved surface.

The foregoing shows and describes the general principles and features of the present invention, together with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The edible fungus bag cultivation liquid inoculator comprises a storage device for storing strains, and is characterized by also comprising a spray head, wherein the spray head is provided with an inlet, the inlet of the spray head is connected with a metal pipe body, and the metal pipe body is communicated with the storage device;

the included angle between the length direction of the metal pipe body and the spraying direction of the spray head is 75-105 degrees;

a touch switch is arranged on the metal pipe body, and the distance between the touch switch and the spray head is not less than 10 cm;

the signal output end of the tact switch is connected with a micro-processor system, and the micro-processor system is connected with an electromagnetic valve used for controlling the flow condition of the spray head;

the electromagnetic valve is arranged between the spray head and the storage device;

the microprocessor system is connected with the signal output end of the timing device;

the sprayer is connected with a micro motor through a transmission part, the micro motor is fixed on the metal pipe body, and the rotating central axis of the sprayer is vertical to the length direction of the metal pipe body;

a bearing is arranged at the joint of the spray head and the metal pipe body;

the micro motor is connected with the micro processor system;

after the tact switch is pressed, the electromagnetic valve is opened, the microprocessor system performs timing according to the timing device, the electromagnetic valve is controlled to be opened for 3 minutes, then the electromagnetic valve is closed for 1 minute, and then the electromagnetic valve is closed after being opened for 1 minute;

the outer wall of the storage device is provided with a heat insulation layer made of phenolic foam material;

at least one annular hollow cavity is arranged in the heat-insulating layer, and water-swellable rubber is arranged in the annular hollow cavity;

the outer wall of the metal pipe body is provided with an outer protective shell, a channel for conveying cooling water is arranged between the outer protective shell and the metal pipe body, a baffle is arranged between the outer protective shell and the metal pipe body, the baffle is fixedly connected with the inner wall of the outer protective shell and the outer wall of the metal pipe body respectively, and the channel is a channel surrounded by the inner wall of the outer protective shell, the outer wall of the metal pipe body and the baffle.

2. An edible fungi bag cultivation inoculator as claimed in claim 1, characterised in that: the timing device comprises a shell, a microcontroller is arranged in the shell, and the signal output end of the microcontroller is the signal output end of the timing device;

the timing device is provided with a display device, the display device is connected with the microcontroller, the microcontroller is connected with an LED lamp for displaying the power-on condition of the timing device, and the LED lamp is positioned on the shell;

the microcontroller is connected with a power supply, and the light touch switch is positioned on a connecting wire of the microcontroller and the power supply.

3. An edible fungi bag cultivation inoculator as claimed in claim 1, characterised in that: the metal pipe body is provided with a joint, the metal pipe body is connected with one end of a pipeline through the joint, and the other end of the pipeline is connected with the storage device;

the storage device is located above the metal pipe body.

4. An edible fungi bag cultivation inoculator as claimed in claim 1, characterised in that: the touch switch is positioned on a connecting wire of the electromagnetic valve and the power supply, and the touch switch is positioned on a connecting wire of the timing device and the power supply.

5. An edible fungi bag cultivation inoculator as claimed in claim 1, characterised in that: the spray head is provided with an outlet, the outlet is provided with at least two filter screens, and the aperture of each filter screen is gradually reduced along the flow guide direction of the spray head;

the aperture of the meshes of the filter screen is not more than 0.8 mm.

6. An edible fungi bag cultivation inoculator as claimed in claim 1, characterised in that: the fungus bag conveying device is characterized by also comprising a conveying mechanism for conveying fungus bags, wherein the conveying mechanism is provided with a discharging end, the discharging end is positioned on a support, the support is provided with an installation position for placing the fungus bags, and the installation position is a groove;

the bracket is provided with an electrostatic generator which is connected with a discharging device, and the discharging device is provided with a discharging end;

the bracket is also provided with an air suction mechanism, and the air suction mechanism is provided with an air suction port;

the air suction port and the discharge end are both positioned on the inner wall of the groove.

7. An edible fungi bag cultivation liquid inoculator as claimed in claim 6, characterised in that: the inner contour of the groove is matched with the outer contour of the fungus bag in an inflated state;

the groove comprises a first fixing part used for fixing the bag opening of the fungus bag, and the groove comprises a second fixing part used for fixing the bag body of the fungus bag;

the first fixing part is positioned below the second fixing part;

the caliber of the first fixing part is smaller than that of the second fixing part;

the inner wall of the first fixing part is provided with a discharge end and an air suction port, the discharge end arranged on the first fixing part is adjacent to the air suction port and forms an annular structure in a surrounding mode, and the central axis of the annular structure and the central axis of the first fixing part are in the same straight line;

the inner wall of the second fixing part is provided with an air suction port.

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