CN215736147U - Edible mushroom liquid strain inoculation device - Google Patents

Abstract

The utility model discloses an edible fungus liquid strain inoculation device which comprises an operation platform, wherein a support is arranged at the lower part of the operation platform, an operation mechanism capable of sucking bacterial liquid and discharging the bacterial liquid is arranged at the upper part of the operation platform, a liquid outlet pipe and a liquid inlet pipe are arranged at the front end of the operation mechanism, a liquid injection pipe with liquid outlet holes distributed on the outer wall is arranged on the liquid outlet pipe, a liquid suction pipe is arranged on the liquid inlet pipe, and the tail end of the liquid suction pipe is inserted into a bacterial liquid tank arranged on the operation platform. The utility model can solve the problems of troublesome operation, labor and time waste, high labor intensity of workers and low inoculation efficiency of the current edible fungus inoculation mode.

Description

Edible mushroom liquid strain inoculation device

Technical Field

The utility model relates to the technical field of edible fungus cultivation equipment, in particular to an edible fungus liquid strain inoculation device.

Background

Inoculation is a key step in the production process of edible fungi, is usually carried out in a sterile room, and liquid strains are sucked into an injector during operation, and then the injector is inserted into a fungus stick to complete injection. Or reserving a seed inoculation mold when the fungus stick is pressed, directly pressing the seed inoculation mold into the fungus stick, directly taking out the reserved seed inoculation mold when inoculation is performed, and then injecting liquid strains. The two methods are troublesome to operate, labor-consuming and time-consuming, high in labor intensity of workers and low in inoculation efficiency.

SUMMERY OF THE UTILITY MODEL

Aiming at the technical problems, the utility model provides an edible fungus liquid strain inoculation device, which aims at solving the problems of troublesome operation, labor and time waste, high labor intensity of workers and low inoculation efficiency of the conventional edible fungus inoculation mode.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the utility model provides an edible mushroom liquid bacterial inoculation device, includes the operation platform, the operation platform lower part is provided with the support, operation platform upper portion sets up can absorb the fungus liquid and can be with fungus liquid exhaust operation mechanism, the operation mechanism front end is provided with drain pipe and feed liquor pipe, it has the notes liquid pipe of drain hole to be provided with on the outer wall on the drain pipe, be provided with the pipette on the feed liquor pipe, the pipette end insert set up in fungus liquid jar on the operation platform.

The operating mechanism comprises a piston cylinder, the front end of the piston cylinder is provided with a liquid outlet pipe and a liquid inlet pipe, the rear end of the piston cylinder is provided with a telescopic assembly, a piston is arranged in the piston cylinder and is matched and connected with the telescopic assembly, one end of the liquid outlet pipe is an outlet end a, the other end of the liquid outlet pipe is an inlet end a, the outlet end a is correspondingly connected with the liquid inlet pipe, a cover sheet a which can be opened towards the outlet end a is arranged on the inlet end a, the cover sheet a is hinged to the inner wall of the liquid outlet pipe, one end of the liquid inlet pipe is an outlet end b, the other end of the liquid inlet pipe is an inlet end b, the inlet end b is correspondingly connected with the liquid suction pipe, a cover sheet b which can be opened towards the piston direction is arranged on the outlet end b, and the cover sheet b is hinged to the outer edge of the outlet end b.

The telescopic assembly comprises a traction rod, the front end of the traction rod is hinged with the tail of the piston, the rear end of the traction rod is hinged with the bending end of the pressing rod, and the middle part of the pressing rod is connected with a supporting plate pin shaft arranged on the outer wall of the rear end of the piston cylinder.

The telescopic assembly comprises a hydraulic cylinder, a hydraulic rod of the hydraulic cylinder is arranged in the piston cylinder, and the hydraulic rod is connected with the tail of the piston.

The utility model has the beneficial effects that: according to the utility model, after the operation mechanism capable of sucking and discharging the bacterial liquid sucks the bacterial liquid in the bacterial liquid tank through the liquid suction pipe and the liquid inlet pipe, the bacterial liquid is injected into the liquid injection pipe with the liquid outlet holes distributed on the outer wall through the liquid outlet pipe, and finally the bacterial liquid is injected into the bacterial stick through the liquid injection pipe, so that the operation mechanism is simple and efficient, the sucking and the injection of the bacterial liquid can be completed by one device, the working efficiency is improved, and the labor intensity is reduced. As a preferred technical scheme, the operating mechanism comprises a piston cylinder, the front end of the piston cylinder is provided with a liquid outlet pipe and a liquid inlet pipe, the rear end of the piston cylinder is provided with a telescopic component, during operation, the piston is pulled outwards by the telescopic end of the telescopic component, when the piston moves, a cover plate a and a cover plate b are attracted and pulled by pressure towards the direction of the piston due to the pressure effect, when the cover plate a is opened towards the direction of the outlet end a of the liquid outlet pipe, therefore, when the cover plate a is attracted by pressure, the inlet end a of the liquid outlet pipe is sealed, and the cover plate b is opened towards the direction of the piston, therefore, when the cover plate is attracted by pressure, the outlet end b of the liquid inlet pipe is opened, at the moment, air pressure acts on the liquid suction pipe through the liquid inlet pipe to suck bacterial liquid in the bacterial liquid tank into a liquid suction pipe, finally, the bacterial liquid enters the piston cylinder through the liquid inlet pipe, then, the telescopic end of the telescopic component pushes the piston inwards, and the piston starts to move inwards, with the fungus liquid in the piston cylinder to the piston cylinder front end extrusion, at this moment, because cover plate an is opened to the exit end a direction of drain pipe, consequently, when receiving pressure promotion, can open to the exit end a of drain pipe, the fungus liquid gets into the drain pipe and annotates the liquid pipe, final fungus liquid gets into in the fungus stick through annotating the liquid hole on the liquid pipe, and cover plate b is opened to the piston direction, consequently, when receiving pressure promotion, can be sealed with the exit end b of feed liquor pipe, the fungus liquid can not flow back and get into fungus fluid reservoir, accomplish the inoculation. Furthermore, flexible subassembly includes the traction rod, the traction rod front end is articulated with the piston afterbody, the traction rod rear end is articulated with the crooked end of pressing the depression bar, press the depression bar middle part with set up the backup pad pin joint on the piston cylinder rear end outer wall, form a lever mechanism, press the depression bar and push down, the crooked end of pressing the depression bar can outwards move, outwards stimulate the traction rod when removing, the piston begins outwards to move along with the traction rod, and reverse mentions presses the depression bar, the crooked end that presses the depression bar can inwards move, inwards promote the traction rod when removing, the piston begins inwards to move along with the traction rod. As another technical scheme for replacing the telescopic assembly, the telescopic assembly comprises a hydraulic cylinder, a hydraulic rod of the hydraulic cylinder is arranged in a piston cylinder and is connected with the tail of the piston, when the hydraulic rod retracts, the hydraulic rod draws the tail of the piston, the bacterial liquid enters the piston cylinder, when the hydraulic rod is pushed out, the hydraulic rod pushes the tail of the piston, and the bacterial liquid enters the liquid outlet pipe and the liquid injection pipe.

Drawings

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

Fig. 2 is a schematic structural view of a telescopic assembly according to embodiment 1 of the present invention.

Fig. 3 is a schematic structural diagram of embodiment 2 of the present invention.

Fig. 4 is a schematic structural view of a telescopic assembly according to embodiment 2 of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Example 1

As shown in fig. 1, an edible fungus liquid strain inoculation device comprises an operation platform 2, wherein a support 4 is arranged on the lower portion of the operation platform 2, an operation mechanism capable of sucking and discharging a bacterial liquid is arranged on the upper portion of the operation platform 2, a liquid outlet pipe 8 and a liquid inlet pipe 3 are arranged at the front end of the operation mechanism, a liquid injection pipe 7 with liquid outlet holes distributed on the outer wall is arranged on the liquid outlet pipe 8, a liquid suction pipe 6 is arranged on the liquid inlet pipe 3, and the tail end of the liquid suction pipe 6 is inserted into a bacterial liquid tank 5 arranged on the operation platform 2.

As shown in fig. 2, the operating mechanism includes a piston cylinder 9, the front end of the piston cylinder 9 is provided with a liquid outlet pipe 8 and a liquid inlet pipe 3, the rear end of the piston cylinder 9 is provided with a telescopic assembly, a piston 14 is arranged in the piston cylinder 9, the piston 14 is connected with the telescopic assembly in a matched manner, one end of the liquid outlet pipe 8 is an outlet end a, the other end of the liquid outlet pipe 8 is an inlet end a, the outlet end a is correspondingly connected with the liquid injection pipe 7, a cover sheet a13 capable of being opened towards the direction of the outlet end a is arranged on the inlet end a, the cover sheet a13 is hinged with the inner wall of the liquid outlet pipe 8, one end of the liquid inlet pipe 3 is an outlet end b, the other end of the liquid inlet pipe 3 is an inlet end b, the inlet end b is correspondingly connected with the liquid suction pipe 6, a cover sheet b12 capable of being opened towards the direction of the piston 14 is arranged on the outlet end b, and the cover sheet b12 is hinged with the outer edge of the outlet end b.

As shown in fig. 2, the telescopic assembly includes a pulling rod 11, the front end of the pulling rod 11 is hinged to the tail of the piston 14, the rear end of the pulling rod 11 is hinged to the bent end of the pressing rod 1, and the middle part of the pressing rod 1 is connected to a supporting plate 10 arranged on the outer wall of the rear end of the piston cylinder 9 through a pin shaft.

When the utility model is used, an operator inserts a fungus stick to be inoculated on the liquid injection pipe 7, the pressing rod 1 is pressed downwards, the bent end of the pressing rod 1 can move outwards due to the lever action, the pulling rod 11 is pulled outwards while moving, the piston 14 starts to move outwards along with the pulling rod 11, the cover sheet a13 and the cover sheet b12 can be sucked and pulled by pressure in the direction of the piston 14 due to the pressure action when the piston 14 moves, the cover sheet a13 is opened in the direction of the outlet end a of the liquid outlet pipe 8, therefore, the inlet end a of the liquid outlet pipe 8 can be sealed when being sucked by pressure, the cover sheet b12 is opened in the direction of the piston 14, therefore, the outlet end b of the liquid inlet pipe 3 can be opened when being sucked by pressure, at the moment, the air pressure can suck the fungus liquid in the fungus liquid tank 5 into the liquid suction pipe 6 through the liquid inlet pipe 3 and finally enters the piston cylinder 9 through the liquid inlet pipe 3, then, the pressing rod 1 is lifted reversely, the bent end of the pressing rod 1 moves inwards, the pulling rod 11 is pushed inwards while moving, the piston 14 starts to move inwards along with the pulling rod 11, bacterial liquid in the piston cylinder 9 is extruded to the front end of the piston cylinder 9, at the moment, the cover plate a13 is opened towards the outlet end a of the liquid outlet pipe 8, when being pushed by pressure, the cover plate a is opened towards the outlet end a of the liquid outlet pipe 8, the bacterial liquid enters the liquid outlet pipe 8 and the liquid injection pipe 7, finally the bacterial liquid enters the bacterial stick through a liquid outlet hole in the liquid injection pipe 7, the cover plate b12 is opened towards the piston 14, so that when being pushed by pressure, the outlet end b of the liquid inlet pipe 3 is sealed, the bacterial liquid does not flow back to enter the bacterial liquid tank 5, and one-time inoculation is completed.

Example 2

As shown in fig. 3 and 4, the telescopic assembly comprises a hydraulic cylinder 15, a hydraulic rod of the hydraulic cylinder 15 is arranged in the piston cylinder 9, and the hydraulic rod is connected with the tail part of the piston 14.

When the hydraulic cylinder 15 works, when the hydraulic rod retracts, the hydraulic rod pulls the tail of the piston 14, bacteria liquid enters the piston cylinder 9, when the hydraulic rod is pushed out, the hydraulic rod pushes the tail of the piston 14, and the bacteria liquid enters the liquid outlet pipe 8 and the liquid injection pipe 7.

The other structures and methods of use were consistent with example 1.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the utility model and are not to be construed as limiting the utility model. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (4)

1. The utility model provides an edible mushroom liquid bacterial inoculation device which characterized in that: including operation platform (2), operation platform (2) lower part is provided with support (4), operation platform (2) upper portion sets up and can absorb the fungus liquid and can be with fungus liquid exhaust operation mechanism, the operation mechanism front end is provided with drain pipe (8) and feed liquor pipe (3), it has notes liquid pipe (7) of liquid hole to be provided with on the outer wall on drain pipe (8), be provided with pipette (6) on feed liquor pipe (3), pipette (6) end insert set up in fungus fluid reservoir (5) on operation platform (2).

2. The edible fungus liquid spawn inoculation apparatus of claim 1, wherein: the operating mechanism comprises a piston cylinder (9), a liquid outlet pipe (8) and a liquid inlet pipe (3) are arranged at the front end of the piston cylinder (9), a telescopic assembly is arranged at the rear end of the piston cylinder (9), a piston (14) is arranged in the piston cylinder (9), the piston (14) is matched and connected with the telescopic assembly, one end of the liquid outlet pipe (8) is an outlet end a, the other end of the liquid outlet pipe (8) is an inlet end a, the outlet end a is correspondingly connected with the liquid injection pipe (7), a cover plate a (13) capable of being opened towards the direction of the outlet end a is arranged on the inlet end a, the cover plate a (13) is hinged with the inner wall of the liquid outlet pipe (8), one end of the liquid inlet pipe (3) is an outlet end b, the other end of the liquid inlet pipe (3) is an inlet end b, the inlet end b is correspondingly connected with the liquid suction pipe (6), and a cover plate b (12) capable of being opened towards the direction of the piston (14) is arranged on the outlet end b, the cover sheet b (12) is hinged with the outer edge of the outlet end b.

3. An edible fungus liquid spawn inoculation apparatus according to claim 2, wherein: the telescopic assembly comprises a traction rod (11), the front end of the traction rod (11) is hinged to the tail of the piston (14), the rear end of the traction rod (11) is hinged to the bent end of the pressing rod (1), and the middle part of the pressing rod (1) is connected with a supporting plate (10) arranged on the outer wall of the rear end of the piston cylinder (9) in a pin shaft mode.

4. An edible fungus liquid spawn inoculation apparatus according to claim 2, wherein: the telescopic assembly comprises a hydraulic cylinder (15), a hydraulic rod of the hydraulic cylinder (15) is arranged in the piston cylinder (9), and the hydraulic rod is connected with the tail of the piston (14).

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