CN114303801A - Frame is planted to rotatable formula agaricus bisporus - Google Patents

Abstract

The invention discloses a rotatable agaricus bisporus planting frame, which comprises: a frame body; the drawing units are distributed from top to bottom and comprise four rotating structures and a drawing frame; the spraying units are distributed from top to bottom, one spraying unit comprises a pair of spraying branch pipes, and a plurality of spraying openings of the spraying branch pipes are provided with a plurality of nozzles. The pulling frames can be placed to facilitate planting and picking of agaricus bisporus, and the agaricus bisporus pulling frame is simple and quick to install, convenient to implement and capable of reasonably utilizing space.

Description

Frame is planted to rotatable formula agaricus bisporus

Technical Field

The invention relates to the technical field of agaricus bisporus planting. More particularly, the invention relates to a rotatable agaricus bisporus planting frame.

Background

Agaricus bisporus, also called white mushroom and tricholoma matsutake, belongs to the order Agaricales, the family Agaricaceae, the genus Agaricus, is a wide variety of edible fungi with high yield and large consumption in the world. At present when planting the agaricus bisporus in the greenhouse, in order to save space, often use the planting frame successive layer to place the cultivation bed and carry out the planting of agaricus bisporus, the cultivation bed sets up the culture material that approximately 20 centimeters is thick, when planting the agaricus bisporus, in order to guarantee certain harvesting space, the quantity of the cultivation bed on the planting frame is effective, can avoid causing the waste in vertical space, and when picking the agaricus bisporus, because the growth rate differs, need divide a plurality of tide to pick, because the cultivation bed on the planting frame can not remove, it is comparatively troublesome to pick.

Disclosure of Invention

An object of the present invention is to solve at least the above problems and to provide at least the advantages described later.

Still another object of the present invention is to provide a rotatable agaricus bisporus planting frame, which can accommodate a plurality of pull frames to facilitate the planting and picking of agaricus bisporus, and is simple and fast to install, convenient to implement, and space-saving.

To achieve these objects and other advantages in accordance with the present invention, there is provided a rotatable agaricus bisporus planting frame, comprising:

the frame body comprises four stand columns, the four stand columns are positioned at the same height and provided with transverse through chutes, and base plates are arranged below the transverse through chutes;

the drawing units are distributed from top to bottom, each drawing unit comprises four rotating structures and a drawing frame, each rotating structure comprises a pair of rotating blocks hinged to the corresponding stand column through hinges, transverse extending sliding grooves are formed in the inner sides of the rotating blocks, the middle of each drawing frame is a net body, a pair of sliding blocks are arranged on two sides of each drawing frame respectively, when the drawing frames are located above four base plates, two pairs of sliding blocks are located on transverse through sliding grooves on two sides respectively, each pair of rotating blocks is 90 degrees, the free ends of the rotating blocks are locked with the edges of the drawing frames through connecting pieces, each pair of rotating blocks is 180 degrees, and the transverse through sliding grooves and the corresponding pair of transverse extending sliding grooves penetrate to form long-strip-shaped horizontal sliding ways;

the spraying units are distributed from top to bottom, one spraying unit comprises a pair of spraying branch pipes, and a plurality of spraying openings of the spraying branch pipes are provided with a plurality of nozzles.

Preferably, the transversely extending sliding groove does not penetrate through the free end of the rotating block, the connecting piece comprises a limiting hole, a blind hole and a limiting bolt, the limiting hole is formed in the free end of the rotating block, the blind hole is formed in the opposite position of the drawing frame, and the limiting bolt can penetrate through the limiting hole to be screwed tightly to the blind hole to achieve locking.

Preferably, for any one shower unit, a pair of shower branch pipes is provided on the drawing path of one drawing frame.

Preferably, the nozzle is an atomising nozzle.

Preferably, a plurality of liquid outlet structures are arranged in the spraying branch pipe, one liquid outlet structure is matched with one spraying port, and the liquid outlet structure comprises:

the liquid outlet groove is arranged on the side of the spraying port and is provided with a liquid inlet cavity and a pair of liquid storage cavities, and the liquid inlet cavity is communicated with the liquid storage cavities through a communicating section;

the sliding part is arranged in the liquid inlet cavity in a sliding mode from an inlet of the liquid inlet cavity to the spraying opening, the tail part and the head part of the sliding part are respectively provided with a conduction section, the conduction section comprises a through axial hole and radial holes on two sides, sealing rings are respectively arranged at the upstream and the downstream of the radial holes of the pair of conduction sections, the conduction section of the head part of the sliding part is connected with a liquid outlet pipe, and the liquid outlet pipe extends out of the spraying opening and is communicated with the nozzle;

the traction part comprises a power structure for drawing the liquid outlet pipe to reciprocate in the liquid inlet cavity;

a pair of conducting segments is arranged as follows: when the sliding part is positioned on the side of the spraying opening, the connecting section is communicated with the conducting section at the tail part of the sliding part, and when the sliding part is positioned on the inlet side of the liquid inlet cavity, the connecting section is communicated with the conducting section at the head part of the sliding part.

Preferably, the periphery of the liquid outlet pipe is provided with threads, a lead screw nut is screwed on the periphery of the liquid outlet pipe and is rotatably arranged outside the spraying port, and the plurality of lead screw nuts are periodically rotated forwards or reversely through belt transmission.

The invention at least comprises the following beneficial effects:

firstly, the plurality of drawing units are arranged on the frame body, so that the drawing frames can be drawn in different directions in a staggered manner under the coordination of the rotating structure, the planting and picking are facilitated, the plurality of spraying units are arranged on the frame body, the cultivation beds on the drawing frames of all layers are sprayed, the agaricus bisporus is guided to grow under a proper water quantity, the workload of planting personnel is reduced, the installation is simple and rapid, the implementation is convenient, and the empty space is reasonably utilized;

secondly, four upright posts form a frame body, a backing plate is arranged at different heights to facilitate the placement of a drawing frame, a transverse through chute is arranged to facilitate the storage of a sliding block and the connection of the transverse extending chutes at two sides, a plurality of drawing units are distributed from top to bottom, an interval can be set according to the growth height of agaricus bisporus, a pair of rotating blocks are hinged on one upright post through hinges, the width of the drawing frame can be slightly smaller than the interval of the pair of upright posts, the sliding block of the drawing frame horizontally slides inside the transverse through chute, during installation, the transverse through chute can be horizontally fed in, the pair of rotating blocks can rotate within a range of 90 degrees, when the pair of rotating blocks form a 90-degree included angle, the pair of rotating blocks are positioned at the outer side of a vertex angle of the drawing frame, locking can be realized through a connecting piece, when one of the pair of rotating blocks is fixed, when the other one rotates by 90 degrees, the inner side surface of the rotating blocks is flush with the side surface of the upright post, the transverse through chutes are communicated with the transverse extending chutes to form a strip-shaped horizontal slide way, the slide blocks are not limited in the transverse through chutes at the moment but can slide along the pair of transverse extending chutes to realize drawing and pulling in different degrees, the spraying branch pipes are positioned above the drawing and pulling frames and are communicated with a water source, and water can be fully applied to the cultivation bed of the drawing and pulling frames below;

thirdly, when the cultivation bed is used, the pair of rotating blocks are rotated to an included angle of 180 degrees, namely one rotating block is unlocked, the other rotating block is rotated to a transverse through sliding groove to be communicated with a transverse extending sliding groove, the odd-numbered layers of the pull frames are pulled to one side, the even-numbered layers of the pull frames are pulled to the other side, the adjacent upper and lower layers of the pull frames are staggered and are not shielded, a cultivation bed is arranged on the pull frames by a planting worker, the pull frames are pushed back to the central position of the frame body after finishing, the adjacent upper and lower layers of the pull frames are overlapped, the pair of rotating blocks are rotated to an included angle of 90 degrees and are locked respectively, the positioning of the pull frames is realized, and when water needs to be applied, the spray branch pipe is opened to enable the nozzle to face the lower pull frame;

fourthly, the transverse extending sliding groove is not communicated, a limiting hole is formed in the free end of the transverse extending sliding groove and is coaxially and oppositely arranged with the blind hole of the drawing frame, the installation of a limiting bolt is facilitated, and the lateral connecting piece is locked without occupying the space above the drawing frame; the pair of spraying branch pipes are positioned on the drawing path of the drawing frame, so that when the drawing frame is fixed at a certain position, the drawing frame below the drawing frame can still be covered; the water outlet of the atomizing nozzle is softer, the spraying effect is good, and the spraying nozzle is more suitable for agaricus bisporus;

fifthly, a liquid outlet structure is arranged in the spraying branch pipe to realize intermittent spraying, so that water resources can be saved better, and the spraying effect can be improved, the liquid outlet groove is arranged at a position close to a spraying port, the pair of liquid storage cavities are distributed at two sides of the liquid inlet cavity, the liquid inlet cavity forms a sliding space, the liquid storage cavities form a liquid collecting space, the liquid storage cavities and the liquid inlet cavity are communicated through a connecting section to form a liquid inlet neck and a liquid outlet neck, the sliding part is in the sliding process, when the conducting section of the tail part is used for liquid inlet, the conducting section of the head part and the connecting section are separated and disconnected through four sealing rings, when the conducting section of the head part is used for liquid outlet, the conducting section of the tail part and the connecting section are separated and disconnected, the traction part can select a cylinder, a motor and the like, the steps of liquid outlet pipe and liquid suction and discharge are repeatedly pulled, and the intermittent spraying effect is realized; the mode that screw nut and drain pipe spiro union, the spacing rotation of screw nut drive the reciprocal linear motion of drain pipe is designed, and simple structure realizes easily, a plurality of drain pipe synchronous reciprocating motion of being convenient for.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic structural diagram of one embodiment of the present invention;

FIG. 2 is a schematic structural diagram of another embodiment of the present invention;

fig. 3 is a schematic structural diagram of liquid suction and discharge of the liquid discharge structure of the present invention.

Detailed Description

The present invention is described in further detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

It is to be noted that the experimental methods described in the following embodiments are all conventional methods unless otherwise specified, and the reagents and materials, if not otherwise specified, are commercially available; in the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can, for example, be fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meanings of the above terms in the present invention can be understood in specific cases by those skilled in the art. The terms "lateral," "longitudinal," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like refer to orientations and positional relationships that are illustrated in the drawings, are used for convenience in describing and simplifying the description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

As shown in fig. 1-2, the present invention provides a rotatable agaricus bisporus planting frame, comprising:

the frame body comprises four upright posts 1, wherein the four upright posts 1 are positioned at the same height and provided with transverse through chutes, and a base plate is arranged below the transverse through chutes;

the drawing units are distributed from top to bottom, each drawing unit comprises four rotating structures and a drawing frame 3, each rotating structure comprises a pair of rotating blocks 2 hinged with the corresponding stand column 1 through hinges, transversely extending sliding grooves are formed in the inner sides of the rotating blocks 2, the middle of each drawing frame is a net body, a pair of sliding blocks are arranged on two sides of each drawing frame 3 respectively, when the drawing frames 3 are located above the four base plates, the two pairs of sliding blocks are located on the transverse through sliding grooves on two sides respectively, the pair of rotating blocks 2 are 90 degrees, the free ends of the rotating blocks 2 are locked with the edges of the drawing frames 3 through connecting pieces, the pair of rotating blocks 2 are 180 degrees, and the transverse through sliding grooves and the pair of transversely extending sliding grooves are communicated to form a long-strip-shaped horizontal slide way;

a plurality of spray units, it distributes from top to bottom, and a spray unit includes a pair of branch pipe 4 that sprays, a plurality of mouths that spray of branch pipe 4 are equipped with a plurality of nozzles 5.

In the technical scheme, the plurality of drawing units are arranged on the frame body, so that the drawing frames 3 can be drawn in different directions in a staggered manner under the matching of the rotating structure, the planting and picking are facilitated, the plurality of spraying units are arranged on the frame body, the cultivation beds of the drawing frames 3 on each layer are sprayed, the workload of planting personnel is reduced, the installation is simple and rapid, the implementation is convenient, and the utilization is reasonable.

Four upright posts 1 form a frame body, backing plates are arranged at different heights to facilitate the placement of a drawing frame 3, transverse through sliding grooves are arranged to facilitate the storage of sliding blocks and the connection of the transverse extending sliding grooves on two sides, a plurality of drawing units are distributed from top to bottom, the distance can be set according to the growth height of agaricus bisporus, a pair of rotating blocks 2 are hinged on the upright posts 1 through hinges, the width of the drawing frame 3 can be slightly smaller than the distance between the upright posts 1, the sliding blocks of the drawing frame 3 horizontally slide in the transverse through sliding grooves, during installation, the transverse through sliding grooves can be horizontally fed, the rotating blocks 2 can rotate within the range of 90 degrees, when the rotating blocks 2 form an included angle of 90 degrees, the rotating blocks 2 are positioned outside a vertex angle of the drawing frame 3, locking can be realized through connecting pieces, when one rotating block 2 is fixed, and the other rotating block rotates by 90 degrees, the medial surface of turning block 2 and the side parallel and level of stand 1 transversely link up the spout and link up with the horizontal extension spout, form the horizontal slide of rectangular shape, and the slider no longer restricts inside transversely link up the spout this moment, but can slide along a pair of horizontal extension spout, realizes the pull of not equidimension, and spray branch 4 is located pull frame 3 top, and spray branch 4 and water source intercommunication can carry out fully to the bed of cultivating of pull frame 3 of below.

During the use, rotate a pair of turning block 2 to 180 contained angles, a turning block 2 unlocks promptly, another turning block 2 rotates and link up with the horizontal extension spout to transversely link up the spout, pull frame 3 to one side of pull odd number layer, pull frame 3 to the opposite side of even number layer, adjacent upper and lower two-layer pull frame 3 dislocation no longer shelters from, the planting personnel sets up the cultivation bed on pull frame 3, after finishing, push back pull frame 3 to support body central point, make adjacent upper and lower two-layer pull frame 3 overlap and set up, rotate a pair of turning block 2 to 90 contained angles, lock respectively, realize pull frame 3's location, when needing to execute water, open spray branch pipe 4 and make nozzle 5 towards pull frame 3 of below.

In another technical scheme, the transversely extending sliding groove does not penetrate through the free end of the rotating block 2, the connecting piece comprises a limiting hole, a blind hole and a limiting bolt, the limiting hole is formed in the free end of the rotating block 2, the blind hole is formed in the position opposite to the drawing frame 3, and the limiting bolt can penetrate through the limiting hole to be screwed tightly to the blind hole to achieve locking. The transverse extension sliding groove is not communicated, the free end is provided with a limiting hole, the limiting hole and the blind hole of the drawing frame 3 are coaxially and oppositely arranged, the installation of a limiting bolt is facilitated, and the lateral connecting piece is locked without occupying the space above the drawing frame 3.

In another solution, for any one spraying unit, a pair of spray manifolds 4 is arranged on the drawing path of one drawing frame 3. A pair of shower manifolds 4 is located in the withdrawal path of the withdrawal frame 3, so that when the withdrawal frame 3 is fixed in one of the positions, it is still possible to cover the withdrawal frame 3 underneath.

In another solution, the nozzle 5 is an atomizing nozzle. The atomizing nozzle has softer water outlet and good spraying effect, and is more suitable for agaricus bisporus.

In another technical solution, as shown in fig. 3, a plurality of liquid outlet structures are arranged inside the spray branch pipe 4, one liquid outlet structure is matched with one spray opening, and the liquid outlet structure includes:

the liquid outlet groove 6 is arranged on the side of the spraying port, the liquid outlet groove 6 is provided with a liquid inlet cavity and a pair of liquid storage cavities, and the liquid inlet cavity is communicated with the liquid storage cavities through a communicating section;

the sliding part 7 is arranged in the liquid inlet cavity in a sliding mode from an inlet of the liquid inlet cavity to the spraying opening, the tail part and the head part of the sliding part 7 are respectively provided with a conducting section, the conducting section comprises a through axial hole and radial holes on two sides, sealing rings 8 are respectively arranged on the upstream and the downstream of the radial holes of the pair of conducting sections, the conducting section of the head part of the sliding part 7 is connected with a liquid outlet pipe 10, and the liquid outlet pipe 10 extends out of the spraying opening and is communicated with the nozzle 5;

the traction part comprises a power structure for drawing the liquid outlet pipe 10 to reciprocate in the liquid inlet cavity;

a pair of conducting segments is arranged as follows: when the sliding part 7 is positioned on the side of the spraying opening, the connecting section is communicated with the conducting section at the tail part of the sliding part 7, and when the sliding part 7 is positioned on the inlet side of the liquid inlet cavity, the connecting section is communicated with the conducting section at the head part of the sliding part 7.

In above-mentioned technical scheme, set up out liquid structure in spraying branch pipe 4 and realize intermittent type formula and spray, water economy resource that can be better, improve the spraying effect, go out liquid tank 6 and set up the position of being close to the mouth that sprays, a pair of stock solution chamber distributes in feed liquor chamber both sides, the feed liquor chamber forms the slip space, the stock solution chamber forms the album liquid space, the two realizes lining up through the linkage segment, form the feed liquor, go out the neck of liquid, sliding part 7 is at the slip in-process, during the conduction section feed liquor of afterbody, four sealing washer 8 realize that the conduction section and the linkage segment of head separate and open circuit, when the conduction section of head goes out liquid, four sealing washer 8 realize that the conduction section and the linkage segment of afterbody separate and open circuit, cylinder, motor etc. can be selected to traction portion, the liquid pipe 10 liquid pipes are drawn out repeatedly, the step of tapping, realize the effect that the intermittent type sprayed.

In another technical scheme, drain pipe 10 periphery is equipped with the screw thread, a screw nut 9 spiro union in the periphery of a drain pipe 10, and rotate install in the outside of spraying the mouth, a plurality of screw nuts 9 carry out periodic corotation or reversal through belt transmission. The mode that screw nut 9 and drain pipe 10 spiro union, screw nut 9 spacing rotation drive the reciprocal linear motion of drain pipe 10 is designed, and simple structure realizes easily, a plurality of drain pipes 10 synchronous reciprocating motion of being convenient for.

The number of apparatuses and the scale of the process described herein are intended to simplify the description of the present invention. Applications, modifications and variations of the present invention will be apparent to those skilled in the art.

While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable to various fields of endeavor for which the invention may be embodied with additional modifications as would be readily apparent to those skilled in the art, and the invention is thus not limited to the details given herein and to the illustrations shown and described without departing from the generic concept as defined by the claims and their equivalents.

Claims (6)

1. Frame is planted to rotatable formula bisporous mushroom, its characterized in that includes:

the frame body comprises four stand columns, the four stand columns are positioned at the same height and provided with transverse through chutes, and base plates are arranged below the transverse through chutes;

the drawing units are distributed from top to bottom, each drawing unit comprises four rotating structures and a drawing frame, each rotating structure comprises a pair of rotating blocks hinged with the corresponding stand column through hinges, transverse extending sliding grooves are formed in the inner sides of the rotating blocks, the middle of each drawing frame is a net body, a pair of sliding blocks are arranged on two sides of each drawing frame respectively, when the drawing frames are located above the four base plates, the two pairs of sliding blocks are located on the transverse through sliding grooves on two sides respectively, the pair of rotating blocks are 90 degrees, the free ends of the rotating blocks are locked with the edges of the drawing frames through connecting pieces, the pair of rotating blocks are 180 degrees, and the transverse through sliding grooves and the pair of transverse extending sliding grooves are communicated to form long-strip-shaped horizontal sliding ways;

the spraying units are distributed from top to bottom, one spraying unit comprises a pair of spraying branch pipes, and a plurality of spraying openings of the spraying branch pipes are provided with a plurality of nozzles.

2. The rotatable agaricus bisporus planting frame as claimed in claim 1, wherein the transverse extending chute does not penetrate through the free end of the rotation block, the connecting member comprises a limiting hole, a blind hole and a limiting bolt, the limiting hole is arranged at the free end of the rotation block, the blind hole is arranged at the opposite position of the drawing frame, and the limiting bolt can penetrate through the limiting hole to tightly screw the blind hole for locking.

3. The rotatable agaricus bisporus planting frame as claimed in claim 1, wherein a pair of spray branch pipes is provided on a drawing path of one drawing frame for any one of the spray units.

4. The rotatable agaricus bisporus planting frame of claim 1, wherein the nozzle is an atomizing nozzle.

5. The rotatable agaricus bisporus planting frame of claim 1, wherein a plurality of liquid outlet structures are provided inside the spraying branch pipe, one liquid outlet structure is matched with one spraying port, and the liquid outlet structure comprises:

the liquid outlet groove is arranged on the side of the spraying port and is provided with a liquid inlet cavity and a pair of liquid storage cavities, and the liquid inlet cavity is communicated with the liquid storage cavities through a communicating section;

the sliding part is arranged in the liquid inlet cavity in a sliding mode from an inlet of the liquid inlet cavity to the spraying opening, the tail part and the head part of the sliding part are respectively provided with a conduction section, the conduction section comprises a through axial hole and radial holes on two sides, sealing rings are respectively arranged at the upstream and the downstream of the radial holes of the pair of conduction sections, the conduction section of the head part of the sliding part is connected with a liquid outlet pipe, and the liquid outlet pipe extends out of the spraying opening and is communicated with the nozzle;

the traction part comprises a power structure for drawing the liquid outlet pipe to reciprocate in the liquid inlet cavity;

a pair of conducting segments is arranged as follows: when the sliding part is positioned on the side of the spraying opening, the connecting section is communicated with the conducting section at the tail part of the sliding part, and when the sliding part is positioned on the inlet side of the liquid inlet cavity, the connecting section is communicated with the conducting section at the head part of the sliding part.

6. The rotatable agaricus bisporus planting frame of claim 5, wherein the outer circumference of the liquid outlet pipe is provided with threads, a lead screw nut is screwed on the outer circumference of the liquid outlet pipe and rotatably installed outside the spraying port, and a plurality of lead screw nuts periodically rotate forwards or backwards through belt transmission.

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