CN109744068B - Movable feeding device for agaricus bisporus culture material - Google Patents

Abstract

The invention discloses a movable feeding device for an agaricus bisporus culture material, which comprises a movable bottom plate, wherein a lifting support plate perpendicular to the movable bottom plate is fixedly arranged on the movable bottom plate, a limiting slide rail is fixedly arranged on one side of the lifting support plate along the length direction of the lifting support plate, a feeding box is movably arranged on the lifting support plate through the limiting slide rail, a sliding block is fixedly arranged on one side of the feeding box close to the lifting support plate through a screw, the feeding box is movably arranged on the limiting slide rail through the sliding block, a guide pulley is fixedly arranged in the middle of one end, far away from the movable bottom plate, of the lifting support plate, and a winch is arranged on the movable bottom plate on one side. The feeding box is novel in design and convenient and fast to use, can be rapidly moved and adjusted between the planting frame and the planting layer, improves the feeding efficiency of nutrients, saves manpower, ensures that the nutrients are uniformly distributed on the planting layer, ensures the balanced absorption of the nutrients of plants, improves the yield and the quality, and is suitable for popularization and use.

Description

Movable feeding device for agaricus bisporus culture material

Technical Field

The invention relates to the technical field of agaricus bisporus planting, in particular to a movable feeding device for an agaricus bisporus culture material.

Background

The agaricus bisporus has silvery white hypha, relatively high growth speed, difficult fruiting quilt, multiple and single fruiting bodies, round and regular shape, white color, no scale, thick pileus, difficult umbrella opening, relatively straight and short stipe, white flesh, solid tissue, semi-membranous pileus on the stipe and silver brown spores. One of the most common edible strains is fleshy. Since europe and north america, humans have been eating at least since ancient greek times, and artificial cultivation has been started in france of the 17 th century, and now has been widely cultivated all over the world.

When the bisporous mushroom is planting, often build the planting frame of range upon range of formula in the big-arch shelter, every is planted and all is provided with a plurality of planting layers on the frame, the planting in-process, need fertilize the material to the bisporous mushroom, fertilize through the manpower at present mostly, and the multilayer is planted and is put up to make artifical fertilization very hard, need climb up and climb down, and artifical fertilization is not only inefficiency, and the nourishment distributes inhomogeneously, seriously influence the growth of bisporous mushroom, influence the output, we design a movable loading attachment for bisporous mushroom culture material for this reason, solve above-mentioned problem.

Disclosure of Invention

The invention aims to solve the problems that manual fertilization is very laborious due to a multi-layer planting frame in the prior art, climbing up and down is needed, manual fertilization is low in efficiency, nutrients are not uniformly distributed, growth of agaricus bisporus is seriously influenced, and yield is influenced.

In order to achieve the purpose, the invention adopts the following technical scheme:

a movable feeding device for an agaricus bisporus culture material comprises a movable bottom plate, wherein a lifting support plate vertical to the movable bottom plate is fixedly arranged on the movable bottom plate, a limiting slide rail is fixedly arranged on one side of the lifting support plate along the length direction of the lifting support plate, a feeding box is movably arranged on the lifting support plate through the limiting slide rail, a sliding block is fixedly arranged on one side, close to the lifting support plate, of the feeding box through screws, the feeding box is movably arranged on the limiting slide rail through the sliding block, a guide pulley is fixedly arranged in the middle of one end, far away from the movable bottom plate, of the lifting support plate, a winch is arranged on the movable bottom plate, far away from the feeding box, one end of a lifting rope is fixedly connected onto the winch, the other end of the lifting rope is fixedly connected to the upper end of the feeding box through the guide pulley, a buffering support device used for buffering the feeding box, the inner chamber of going up the workbin is fixed and is provided with the hopper, movable mounting has the material scattering device in the last workbin under the hopper, the bottom of hopper is provided with the discharge gate, and the discharge gate is connected with the one end of defeated material hose, discharge gate department installs the current-limiting valve, the other end of defeated material hose is connected with the material scattering device, the opening has been seted up to bottom one side of going up the workbin, and has the collection drawer through opening movable mounting, the collection drawer is located the material scattering device under.

Preferably, the buffer supporting device comprises buffer springs and a support plate, the buffer springs are fixedly arranged on the movable bottom plate in a rectangular array, the support plate is fixedly arranged on the buffer springs in the rectangular array, and a buffer rubber pad is adhered to the support plate.

Preferably, go up the workbin and keep away from a lateral wall of lift backup pad and be located and spill material device department and seted up flexible notch, it stretches out and draws back through flexible notch at last workbin to spill the material device.

Preferably, the spreading device comprises a rectangular shell, two side outer walls of the rectangular shell are fixedly provided with limit sliding blocks, two side inner walls of the feeding box at the telescopic groove are fixedly provided with guide rails, the rectangular shell is movably arranged on the guide rails through the limit sliding blocks at two sides, an inlet pipe is arranged at the center of the upper side wall of the rectangular shell, the inlet pipe is connected with one end of a conveying hose far away from a discharge port, the inlet pipe extends to the inside of the rectangular shell and is rotatably connected with a spreading barrel, arc-shaped spreading arms are arranged on the side wall of the spreading barrel at equal intervals, one side of the rectangular shell far away from the inlet pipe is provided with an opening, a grid plate is arranged at the opening, the inside of the feeding box is positioned below the rectangular shell and is rotatably provided with a driving screw rod, a threaded sleeve is fixedly arranged at the lower side of the rectangular shell, and is sleeved on the, the driving screw rod is driven by an AB motor.

Preferably, the material scattering barrel and the material scattering arm are both of a hollow structure and are communicated with each other, and material scattering holes are formed in the side walls, close to the grid plate, of the material scattering barrel and the material scattering arm at equal intervals.

Preferably, the outer wall of the material scattering barrel is provided with an annular rack, the position in one side of the material scattering barrel in the rectangular shell is provided with a motor, the output shaft of the motor is provided with a driving gear, and the driving gear is meshed with the annular rack.

Preferably, the upper material box is provided with a dustproof cover plate above the hopper through a hinge, and the dustproof cover plate is provided with a handle.

Preferably, a power supply device and a control switch are arranged on the lifting support plate.

Preferably, the bottom of the movable bottom plate is provided with a driving wheel, and one side of the movable bottom plate is welded with a pushing handrail.

Compared with the prior art, the invention has the beneficial effects that:

1. the movable bottom plate can drive the feeding box to move in the gap between the planting frames, manual carrying is not needed, a large amount of manpower is saved, the moving is convenient and fast, and the moving efficiency is improved;

2. the feeding box can be adjusted in height along the lifting support plate, can adapt to feeding of nutrients of planting layers of different heights of the planting frame, does not need manual climbing, and improves feeding safety;

3. the spreading device can be extended and retracted in the material loading box, so that the spreading device can not only extend out for feeding the planting layer, but also retract into the material loading box, is convenient to move between the planting frame and the planting layer, and improves the efficiency;

4. set up rotatory material arm and the cask that spills in the material device, fertilizer more even spill during can to distribute in planting the layer, make the nourishment weight of each region of planting the layer even, guarantee the growth of every regional bisporous mushroom, improved the output of bisporous mushroom.

The feeding box is novel in design and convenient and fast to use, can be rapidly moved and adjusted between the planting frame and the planting layer, improves the feeding efficiency of nutrients, saves manpower, ensures that the nutrients are uniformly distributed on the planting layer, ensures the balanced absorption of the nutrients of plants, improves the yield and the quality, and is suitable for popularization and use.

Drawings

FIG. 1 is a schematic structural diagram of a movable feeding device for agaricus bisporus compost, which is provided by the invention;

FIG. 2 is a top view of a movable feeding device for agaricus bisporus compost, which is provided by the invention;

FIG. 3 is a front view of a feeding box of the movable feeding device for agaricus bisporus compost, which is provided by the invention;

FIG. 4 is a sectional bottom view of a material spreading device of the movable type feeding device for Agaricus bisporus compost according to the present invention;

fig. 5 is an enlarged view of a portion a in fig. 1.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, a movable feeding device for agaricus bisporus culture material comprises a movable bottom plate 1, a driving wheel is arranged at the bottom of the movable bottom plate 1, a pushing handrail 18 is welded at one side of the movable bottom plate 1, a lifting support plate 2 perpendicular to the movable bottom plate 1 is fixedly arranged on the movable bottom plate 1, a limiting slide rail 3 is fixedly arranged at one side of the lifting support plate 2 along the length direction of the lifting support plate, a feeding box 4 is movably arranged on the lifting support plate 2 through the limiting slide rail 3, a slide block 5 is fixedly arranged at one side of the feeding box 4 close to the lifting support plate 2 through a screw, the feeding box 4 is movably arranged on the limiting slide rail 3 through the slide block 5, a guide pulley 7 is fixedly arranged in the middle of one end of the lifting support plate 2 far away from the movable bottom plate 1, a winch 6 is arranged on the movable bottom plate 1 at, the other end of the lifting rope 8 is fixedly connected to the upper end of the feeding box 4 by bypassing the guide pulley 7, a buffer supporting device for buffering the feeding box is arranged at the position of the movable bottom plate 1 under the feeding box 4, the buffer supporting device comprises a buffer spring 16 and a supporting plate 17, the buffer spring 16 is fixedly arranged on the movable bottom plate 1 in a rectangular array manner, the supporting plate 17 is fixedly arranged on the buffer spring 16 in a rectangular array manner, a buffer rubber pad is adhered on the supporting plate 17, a hopper 9 is fixedly arranged in the inner cavity of the feeding box 4, a dustproof cover plate 10 is arranged above the feeding box 4 and is provided with a handle through a hinge, a material scattering device 13 is movably arranged in the feeding box 4 under the hopper 9, a telescopic notch 14 is formed in one side wall of the feeding box 4 far away from the lifting support plate 2 and is positioned at the position of the material scattering device 13, and the material scattering device 13 is telescopic in the feeding box 4 through, the bottom of the hopper 9 is provided with a discharge port 11, the discharge port 11 is connected with one end of a delivery hose 12, a flow-limiting valve is installed at the discharge port 11, the other end of the delivery hose 12 is connected with a material scattering device 13, the material scattering device 13 comprises a rectangular shell 131, the outer walls of two sides of the rectangular shell 131 are fixedly provided with limit sliding blocks 137, the inner walls of two sides of a telescopic notch 14 of the feeding box 4 are both fixedly provided with guide rails 136, the rectangular shell 131 is movably installed on the guide rails 136 through the limit sliding blocks 137 at two sides, the central position of the upper side wall of the rectangular shell 131 is provided with a feeding pipe 132, the feeding pipe 132 is connected with one end of the delivery hose 12 far away from the discharge port 11, the feeding pipe 132 extends to the inside of the rectangular shell 131 and is rotatably connected with a material scattering barrel 133, the outer wall of the material scattering barrel 133 is provided with an, and the output shaft of the motor is provided with a driving gear which is meshed with the annular rack, the side walls of the material spreading barrel 133 are equidistantly provided with arc-shaped material spreading arms 134, the material spreading barrel 133 and the material spreading arms 134 are both of a hollow structure and are communicated with each other, the side walls of the material spreading barrel 133 and the material spreading arms 134 which are close to the grid plate 135 are equidistantly provided with material spreading holes, one side of the rectangular shell 131 which is far away from the feed pipe 132 is provided with an opening, the opening is provided with the grid plate 135, the inside of the feeding box 4 is positioned below the rectangular shell 131 and is rotatably provided with a driving screw rod 138, the lower side of the rectangular shell 131 is fixedly provided with a threaded sleeve 139, the threaded sleeve 139 is sleeved on the driving screw rod 138 through threads, the driving screw rod 138 is driven by an AB motor, one side of the bottom of the feeding box 4 is provided with an opening, a collecting drawer 15 is, the lifting support plate 2 is provided with a power supply device and a control switch.

When the feed box is used, a user lowers a feed box 4 to a movable bottom plate 1 through a control switch, opens a dustproof cover plate 10 to put nutrients into a hopper 9, a buffer supporting device at the bottom of the feed box 4 comprises a buffer spring 16 and a supporting plate 17 to support and buffer the feed box 4, after the nutrients are filled, the dustproof cover plate 10 is covered, the user pushes the whole device to move between planting frames through pushing a handrail, in the moving process, an AB motor is started through a control device to drive a driving screw rod 138 to rotate, a threaded sleeve 139 moves linearly along the driving screw rod 138, a rectangular shell 137 extends out of the feed box 4 from a telescopic notch 14 along guide rails 136 on two sides, a material scattering device 13 extends to the upper part of a planting layer, a flow limiting valve at a discharge port 11 is opened, the nutrients enter the rectangular shell 131 through a delivery hose 12, the motor in the rectangular shell 137 is started, the spreading barrel 133 is driven to rotate, under the action of centrifugal force, the nutrients enter the arc-shaped spreading arm 134 to be uniformly spread out and uniformly spread on the planting layer through the grid plate 135 below the rectangular shell 137, so that the nutrient components in each area of the planting layer are uniform, the growth of agaricus bisporus in each area is ensured, the yield of agaricus bisporus is improved, when the nutrients are required to be applied to the high-rise or bottom planting layer, the winch 6 is started through the control switch, the winch 6 is wound and unwound by the lifting rope 8, the height of the feeding box 4 is changed, the spreading device 13 can be positioned above the planting layer with the corresponding height when extending out, when the whole device moves between the planting frames, the spreading device 13 can retract into the feeding box 4, the moving convenience is improved, and the whole device can be rapidly moved and adjusted between the planting frames and the planting layer, improve the efficiency of nourishment material loading, use manpower sparingly simultaneously, the nourishment distributes evenly on planting the layer, guarantees that the plant nourishment absorbs the equilibrium, improves output and quality, suitable using widely.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. A movable feeding device for an agaricus bisporus culture medium comprises a movable bottom plate (1) and is characterized in that a lifting support plate (2) perpendicular to the movable bottom plate (1) is fixedly installed on the movable bottom plate (1), a limiting slide rail (3) is fixedly installed on one side of the lifting support plate (2) along the length direction of the lifting support plate, a feeding box (4) is movably installed on the lifting support plate (2) through the limiting slide rail (3), a sliding block (5) is fixedly installed on one side, close to the lifting support plate (2), of the feeding box (4) through a screw, the feeding box (4) is movably installed on the limiting slide rail (3) through the sliding block (5), a guide pulley (7) is fixedly installed in the middle of one end, far away from the movable bottom plate (1), of the lifting support plate (2), far away from the feeding box (4), a winch (6) is installed on the movable bottom plate, the hoisting machine is characterized in that one end of a hoisting rope (8) is fixedly connected to the winch (6), the other end of the hoisting rope (8) is fixedly connected to the upper end of the upper material box (4) in a bypassing manner by a guide pulley (7), a buffering and supporting device for buffering the upper material box is arranged at a position, which is positioned right below the upper material box (4), of the moving bottom plate (1), a hopper (9) is fixedly arranged in an inner cavity of the upper material box (4), a material scattering device (13) is movably arranged in the upper material box (4) right below the hopper (9), a discharge port (11) is arranged at the bottom of the hopper (9), the discharge port (11) is connected with one end of a material conveying hose (12), a flow limiting valve is arranged at the discharge port (11), the other end of the material conveying hose (12) is connected with the material scattering device (13), an opening is formed in one side of the, a collection drawer (15) is movably arranged through the opening, and the collection drawer (15) is positioned under the material scattering device (13);

the buffer supporting device comprises buffer springs (16) and a support plate (17), wherein the buffer springs (16) are fixedly arranged on the movable bottom plate (1) in a rectangular array, the support plate (17) is fixedly arranged on the buffer springs (16) in a rectangular array, and buffer rubber pads are adhered to the support plate (17); the feeding box (4) is far away from one side wall of the lifting support plate (2) and is provided with a telescopic notch (14) at the position of the material scattering device (13), and the material scattering device (13) stretches in the feeding box (4) through the telescopic notch (14);

spill material device (13) including rectangle casing (131), the both sides outer wall fixed mounting of rectangle casing (131) has spacing sliding block (137), it has guide rail (136) to go up the equal fixed mounting of both sides inner wall that workbin (4) are located flexible notch (14) department, rectangle casing (131) are through spacing sliding block (137) movable mounting of both sides on guide rail (136), the last lateral wall central point of rectangle casing (131) puts and is provided with inlet pipe (132), inlet pipe (132) are connected with the one end that defeated material hose (12) kept away from discharge gate (11), inlet pipe (132) extend to the inside of rectangle casing (131) to it spills (133) to rotate and be connected with the cask material to spill, spill the lateral wall equidistance of material cask (133) and install curved material arm (134) that spills, one side that inlet pipe (132) was kept away from to rectangle casing (131) is the opening, and the opening part is provided with a grid plate (135), the inside of the feeding box (4) is positioned below the rectangular shell (131) and is rotatably provided with a driving screw rod (138), the lower side of the rectangular shell (131) is fixedly provided with a threaded sleeve (139), the threaded sleeve (139) is sleeved on the driving screw rod (138) through threads, and the driving screw rod (138) is driven by an AB motor.

2. The movable feeding device for the agaricus bisporus compost as claimed in claim 1, wherein the material spreading barrel (133) and the material spreading arm (134) are both hollow structures and are communicated with each other, and material spreading holes are formed in the side walls, close to the grid plate (135), of the material spreading barrel (133) and the material spreading arm (134) at equal intervals.

3. The movable feeding device for the agaricus bisporus compost as claimed in claim 1, wherein an annular rack is installed on the outer wall of the spreading barrel (133), a motor is installed in the rectangular shell (131) at one side of the spreading barrel (133), and a driving gear is installed on an output shaft of the motor and meshed with the annular rack.

4. The movable feeding device for the agaricus bisporus compost as claimed in claim 1, wherein the feeding box (4) is provided with a dustproof cover plate (10) above the hopper (9) through a hinge, and the dustproof cover plate (10) is provided with a handle.

5. The movable feeding device for the agaricus bisporus compost as claimed in claim 1, wherein a power supply device and a control switch are arranged on the lifting support plate (2).

6. The movable feeding device for the agaricus bisporus compost as claimed in claim 1, wherein the bottom of the movable bottom plate (1) is provided with a driving wheel, and one side of the movable bottom plate (1) is welded with a pushing handrail (18).

Images