CN113099951A

CN113099951A - Mushroom fungus stick machine-shaping device

Info

Publication number: CN113099951A
Application number: CN202110491149.4A
Authority: CN
Inventors: 万晓芹; 刘运航; 罗红梅; 王旭; 邓国云; 刘敏; 韩亚琴; 韦云勤
Original assignee: Guizhou Tonghui Edible Fungus Development Co ltd
Current assignee: Guizhou Tonghui Edible Fungus Development Co ltd
Priority date: 2021-05-06
Filing date: 2021-05-06
Publication date: 2021-07-13
Anticipated expiration: 2041-05-06
Also published as: CN113099951B

Abstract

The invention provides a processing and forming device for mushroom sticks, which structurally comprises a base, a hydraulic press, a stirring barrel, a bobbin, a side plate frame, a guide hopper and a mushroom stick hollow curing mechanism, a hydraulic machine is fixedly arranged at the top end of the base, a stirring material cylinder is arranged on the side surface of the hydraulic machine, the bottom of the stirring material cylinder is welded with the base, the right side of the stirring cylinder is fixedly provided with the cylinder tube, the processing and forming device for the mushroom sticks can be matched with the curing mechanism through the hollow stick, when the stamping sleeve piece is stamped to the side plate frame, the contact of the side plate frame to the curing mechanism forms reverse acting force, the acting force causes the curing mechanism to contract towards the inside of the hollow rod, the curing mechanism can be expanded by braking, and the hollow pressure rod is jacked from the inside, so that the hollow pressure rod generates an outward expansion type to expand the diameter of the hollow pressure rod, therefore, the density of the inner hole ring layer of the mushroom stick is increased, and the mushroom stick has stronger shaping and holding effects and is not easy to collapse.

Description

Mushroom fungus stick machine-shaping device

Technical Field

The invention belongs to the field of mushroom production, and particularly relates to a mushroom stick processing and forming device.

Background

The production of the mushroom strains still adopts a three-level seed production method, namely a mother seed, an original seed and a production seed. In order to produce qualified strains, a mother strain is cultured firstly, then the mother strain is made into a stock, a production seed is made from the stock, then the production seed is transferred into a cultivation bag, and fruiting management is carried out, wherein the production seed can use sawdust, corn, bran, fungus grass, gram mildew A, gypsum powder and the like as raw materials, different formulas are adopted according to the cultivated variety, for example, 78% sawdust and 20% bran are adopted for agaric as main raw materials, gypsum powder, sugar and other auxiliary materials are added, the agaric is packaged into a plastic bag with the diameter of about 30cm to form a fungus stick, when edible fungi are produced, the opening of the fungus bag is opened and inoculated at the upper end of a compact fungus stick, the hypha spreading speed is slow, and long time is required for the hypha to grow from the upper end to the lower end of the fungus stick, so that the fungus stick needs to be punched.

Based on the above description, the inventor finds that the existing mushroom stick processing and forming device mainly has the following defects, for example:

because the mixed material of the fungus stick is in a state that water overflows but does not drip out after being completely mixed, and the fungus stick is formed by punching, when the fungus stick is compressed into a hollow fungus stick, the stress of the inner ring wall of the fungus stick is weaker, the wall surface of the fungus stick is easy to collapse in subsequent processing procedures, if the fungus stick is easy to actively collapse from the inside before being packaged, and if the fungus stick is easy to restore to be in a solid state again after being packaged.

Disclosure of Invention

In order to solve the technical problems, the invention provides a processing and forming device for mushroom sticks, which aims to solve the problems that when the mushroom sticks are compressed into hollow mushroom sticks, the inner ring wall of each mushroom stick is weak in stress, the wall surface of each mushroom stick is easy to collapse in subsequent processing procedures, if the mushroom sticks are easy to actively collapse from the inside before being packaged, and if the mushroom sticks are easy to restore to be in a solid state again after being packaged, because the mushroom stick mixed materials are completely mixed and are in a state that water overflows when being pinched by hands but do not drip out, and the mushroom sticks are all formed by stamping.

Aiming at the defects of the prior art, the purpose and the effect of the processing and forming device for the mushroom sticks are achieved by the following specific technical means: a mushroom stick processing and forming device structurally comprises a base, a hydraulic press, a stirring cylinder, a bobbin, a side plate frame, a guide hopper and a mushroom stick hollow curing mechanism, wherein the hydraulic press is fixedly placed at the top end of the base, the stirring cylinder is arranged on the side face of the hydraulic press, the bottom of the stirring cylinder is welded with the base, the bobbin is fixedly installed on the right side of the stirring cylinder, the bobbin is connected with the side plate frame through a bolt, the bottom of the side plate frame is welded with the top of the guide hopper, the left side of the guide hopper is welded and fixed with the base, the mushroom stick hollow curing mechanism is arranged inside the bobbin and is connected with the hydraulic press, the mushroom stick hollow curing mechanism comprises a hydraulic telescopic rod, a stamping sleeve part, a hollow pressing rod, a reverse conical pressing strip and a curing mechanism, the fixed end on the left side of the hydraulic telescopic rod is welded and fixed with the hydraulic press, the stamping sleeve is characterized in that a hollow pressing rod is arranged at the axis position inside the stamping sleeve and is screwed in the left side inside the stamping sleeve through threads, a group of reverse cone pressing strips are arranged on four sides of the outer ring surface of the hollow pressing rod, each group of the reverse cone pressing strips is provided with four reverse cone pressing strips, one side of a pointed cone of each reverse cone pressing strip faces the inner side, and a curing mechanism is arranged inside the hollow pressing rod.

Compared with the prior art, the invention has the following advantagesAdvantageous effects：

According to the processing and forming device for the mushroom stick, the hollow stick is matched with the curing mechanism, when the stamping sleeve piece is stamped to the side plate frame, a reverse acting force is formed by the contact of the side plate frame on the curing mechanism, the acting force enables the curing mechanism to shrink towards the inside of the hollow stick, the curing mechanism can be unfolded through braking, the hollow pressing stick is jacked from the inside, the diameter of the hollow pressing stick is expanded in an expanding mode, the density of an inner hole ring layer of the mushroom stick is increased, and the mushroom stick has stronger shaping and holding effects and is not prone to collapse.

Drawings

Fig. 1 is a schematic structural diagram of a mushroom stick processing and forming device of the present invention.

FIG. 2 is a schematic cross-sectional internal structure diagram of a hollow solidifying mechanism of a mushroom stick.

Fig. 3 is a schematic structural diagram of the right side surface of the curing mechanism.

Fig. 4 is a schematic view of the internal pressure mechanism rotated ninety degrees clockwise.

Fig. 5 is a schematic diagram of the motion structure of the inner pressure mechanism rotating ninety degrees clockwise.

Fig. 6 is a detailed structural diagram of the jacking mechanism.

Fig. 7 is a schematic diagram showing the internal structure of the internal pressure mechanism in detail.

Fig. 8 is a schematic structural view of the movement state of the internal pressure mechanism.

Fig. 9 is a schematic view of the connection position structure of the jacking mechanism.

Fig. 10 is a schematic view of the connection position structure of the top bracing mechanism.

Fig. 11 is a structural schematic view of the top bracing mechanism in a deployed state.

In the figure: the device comprises a base-1, a hydraulic machine-2, a stirring barrel-3, a bobbin-4, a side disc frame-5, a guide bucket-6, a hollow mushroom stick curing mechanism-7, a hydraulic telescopic rod-21, a stamping sleeve-22, a hollow stick-23, a reverse cone layering-24, a curing mechanism-25, a spiral top disc-251, an internal pressure mechanism-252, a fixed rod-2531, a sleeve rod-2532, a top support mechanism-2533, a stay-11, a shallow groove strip-12, a shaft pin-13, a lock sleeve-14, a ring layer expansion layering-2521, a guide strip-2522, a pull belt-2523, an auxiliary splicing-2524, a magnetic plate-2525, a lantern ring-31, a shaft sleeve-32 and a magnetic suction block-241.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Please refer to fig. 1 to fig. 11: a mushroom stick processing and forming device structurally comprises a base 1, a hydraulic press 2, a stirring cylinder 3, a bobbin 4, a side plate frame 5, a guide hopper 6 and a mushroom stick hollow curing mechanism 7, wherein the hydraulic press 2 is fixedly placed at the top end of the base 1, the stirring cylinder 3 is arranged on the side face of the hydraulic press 2, the bottom of the stirring cylinder 3 is welded with the base 1, the bobbin 4 is fixedly installed on the right side of the stirring cylinder 3, the bobbin 4 is connected with the side plate frame 5 through a bolt, the bottom of the side plate frame 5 is welded with the top of the guide hopper 6, the left side of the guide hopper 6 is welded and fixed with the base 1, the mushroom stick hollow curing mechanism 7 is arranged inside the bobbin 4, the mushroom stick hollow curing mechanism 7 is connected with the hydraulic press 2, the mushroom stick hollow curing mechanism 7 comprises a hydraulic telescopic rod 21, a stamping sleeve member 22, a hollow pressing rod 23, a reverse cone pressing, the left fixed end of the hydraulic telescopic rod 21 is welded and fixed with the hydraulic machine 2, the right movable end of the hydraulic telescopic rod is welded and fixed with the left side of the stamping external member 22, a hollow pressing rod 23 is arranged at the inner axis position of the stamping external member 22 and screwed in the left side of the stamping external member through threads, four surfaces of the outer annular surface of the hollow pressing rod 23 are provided with a group of reverse cone pressing strips 24, each group is provided with four reverse cone pressing strips 24, one side of a pointed cone of each reverse cone pressing strip faces the inner side, and a curing mechanism 25 is arranged inside the hollow pressing.

As a further improvement, the curing mechanism 25 includes a rotating top disk 251 rotatably connected to the punching set 22, and the rotating top disk 251 is vertically fixed to the inner pressing mechanism 252.

As a further improvement, the internal pressure mechanism 252 includes a fixed rod 2531 vertically welded to the rotating top disk 251, the fixed rod 2531 is in clearance fit with a sleeve rod 2532, a top support mechanism 2533 is embedded on the outer side surface of the sleeve rod 2532, and four guard belts 2534 are embedded on the outer surface of the sleeve rod 2532.

The protective belt 2534 is made of soft rubber materials to be of a double-layer structure, the width of the upper layer is larger than that of the lower layer, the upper layer and the lower layer are mutually covered, and the fungus stick raw materials can be effectively placed in the protective belt.

As a further improvement, the top bracing mechanism 2533 comprises a stay 11 with the top connected with the sleeve rod 2532 through a pin, the outer surface of the stay 11 is provided with a plurality of shallow groove strips 12, a lock sleeve 14 is arranged in the middle of the stay 11, and a shaft pin 13 is embedded in the middle of the lock sleeve 14.

The stay 11 is made of rubber materials, and the outer surface of the stay is a shallow groove strip 12 shown in fig. 6, so that the thickness of one side of the stay 11 is uneven, the protrusion direction of the stay can be stabilized when the stay bears the pressure of two sides, the stay 11 can be protected by arranging the shallow groove strip 12, and the cracking is effectively prevented.

As a further improvement, the hollow pressing rod 23 includes a ring-shaped expansion bar 2521 hinged to the top-supporting mechanism 2533, two grooves are provided inside the ring-shaped expansion bar 2521, a magnetic plate 2525 is inserted and embedded in the groove near the inner side, a guide bar 2522 is inserted and embedded in the groove near the outer side, an auxiliary tab 2524 is provided outside the guide bar 2522, the inner side is connected to a pull belt 2523 through a circular hole provided at the upper side thereof, and the pull belt 2523 is connected to the top-rotating disk 251 through a knotting method.

The ring layer expansion bar 2521 and the components directly connected with the ring layer expansion bar are four, and the extension distance of the ring layer expansion bar 2521 can be doubled due to the fact that extension parts are arranged on two sides of the ring layer expansion bar, one side of the ring layer expansion bar is an extension part, the other side of the ring layer expansion bar is an inner extension part, so that the hollow pressure bar 23 can still be in comprehensive contact with the fungus bar after being extended, and the inner hole of the hollow pressure bar is comprehensively pressed.

As a further improvement, the fixing rod 2531 comprises a collar 31 welded to the lower part thereof, four i-shaped bushings 32 are connected to the collar 31 in a nesting manner, and the installation angle is ninety degrees.

As a further improvement, the reverse taper bead 24 includes a magnetic attraction block 241 embedded inside thereof.

The reverse taper depression bar 24 is connected to the auxiliary tab 2524, and is mainly influenced by the dynamic effect of the guide bar 2522 when sliding in the groove as shown in fig. 7, so as to achieve piercing, and when retracting, the magnetic attraction block 241 in the reverse taper depression bar 24 needs to rely on the magnetic attraction force of itself to guide resetting. When mushroom fungus stick material is slid and pressed in the barrel 4 through the punching sleeve 22, under the pushing of the hydraulic telescopic rod 21, the original loose fungus stick mixed material is gradually compacted in the punching sleeve 22 in the process of rapid punching, and in the process of primary forming, the position relation of the hollow stick 23 is passed through in the middle, a hollow cylindrical fungus stick can be directly formed, and is contacted with the inner side surface of the side disc frame 5 in the last section of the punching stroke of the punching sleeve 22, the curing mechanism 25 can form impact with the side disc frame 5 when being contacted, and the sleeve 2532 can shrink towards the inside of the punching sleeve 22 under the action of reverse force, the fixed rod 2531 nested with the fixed rod can pull the top support mechanism 2533 connected with the fixed rod 2531 through the I-shaped sleeve 32 arranged below the fixed rod 2531 in the process of retracting the sleeve 2532, so as to make the lower end part of the top support mechanism 2533 move upwards, therefore, the middle part protrudes outwards to form an arc-shaped protruding state, the top support mechanism 2533 is connected with the ring layer pressure-expanding strip 2521 through the shaft pin 13 and the lock sleeve 14, the ring layer pressure-expanding strip 2521 is pressed and pressed in the protruding process to extend outwards, the inner hole ring layer is pressurized on the mushroom stick with the formed inner hole, the density of the inner hole ring layer is higher, meanwhile, in the process of moving the ring layer pressure-expanding strip 2521 outwards, the pull strip 2523 is pulled, the guide strip 2522 slides for a certain distance in the traction direction, the auxiliary connecting piece 2524 generates a traction effect on the reverse cone pressing strip 24, the reverse cone pressing strip can slide outwards to penetrate into the interior of the mushroom stick, the contact area between the interior and the air is increased and deeper when the secondary pressurization is carried out, and when the hydraulic telescopic rod 21 pulls the punching suite 22 to reset, the combination is reset through the reverse process.

The embodiment also provides a processing and forming method of the mushroom sticks, which comprises the following steps:

s1: preparing wood chips, corns, bran, fungus grass, Clausena lansium A, gypsum powder and water according to a fixed formula proportion, and placing the materials in a stirring box for stirring;

s11: wherein the mixture ratio of the wood dust is 73 percent, the corn is 2 percent, the bran is 15 percent, the grass of fungi is 6 percent, the gypsum powder is 1 percent, the gram mold A3 percent, and the adding amount of the water is 60 percent of the total amount of the materials.

S12, dividing the wood chips into coarse wood chips and fine wood chips, wherein the coarse wood chips account for 65-75% of the weight of the wood chips, the fine wood chips account for 25-35%, and the void degree and the connectivity of the culture medium are improved through reasonable proportion;

s2: the hydraulic press 2 is matched with the fungus rod hollow curing mechanism 7 to perform columnar hollow stamping on the stirred ingredients;

s3: when the mushroom fungus stick is punched to the tail end, the curing mechanism 25 is pressed by the side plate frame 5 to form reverse boosting force, the curing mechanism 25 can realize internal expansion, and the hollow pressing stick 23 is pressed from the inside, so that the hollow pressing stick 23 generates an outward expansion type expansion diameter, and the density of an inner hole ring layer of the mushroom fungus stick is increased, and the mushroom fungus stick is not easy to collapse;

s4: meanwhile, the reverse cone pressing strip 24 and the hollow pressing rod 23 are in linkage action in the expanding process, and prick towards the inner hole ring of the mushroom stick to form a hollow complete cylindrical mushroom stick with a pricking hole;

s41: after the density of the inner hole ring of the mushroom stick is increased, the shape of the mushroom stick can be effectively maintained in a packaging stage, and in the growth process of strains, the strains can generate sufficient contact space through the inner hole ring and holes in the inner hole ring, so that the strains can uniformly grow inside and outside the mushroom stick.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. A processing and forming device for mushroom sticks structurally comprises a base (1), a hydraulic machine (2), a stirring cylinder (3), a bobbin (4), a side disc frame (5), a guide hopper (6) and a mushroom stick hollow curing mechanism (7), wherein the hydraulic machine (2) is fixedly placed at the top end of the base (1), the stirring cylinder (3) is arranged on the side face of the hydraulic machine (2), the bottom of the stirring cylinder (3) is welded with the base (1), the bobbin (4) is fixedly installed on the right side of the stirring cylinder (3), the bobbin (4) is connected with the side disc frame (5) through bolts, the bottom of the side disc frame (5) is welded with the top of the guide hopper (6), the left side of the guide hopper (6) is welded and fixed with the base (1), the mushroom stick hollow curing mechanism (7) is arranged inside the bobbin (4), and the mushroom stick hollow curing mechanism (7) is connected with the hydraulic machine (2), the method is characterized in that:

fungus stick cavity solidification mechanism (7) include hydraulic telescoping rod (21), punching press external member (22), cavity pressure stick (23), reverse awl layering (24), solidification mechanism (25), hydraulic telescoping rod (21) left stiff end and hydraulic press (2) welded fastening, and right side expansion end and punching press external member (22) left side welded fastening, punching press external member (22) inside axle center position is equipped with cavity pressure stick (23), and connects in its inside left side soon through the screw thread, cavity pressure stick (23) outer anchor ring four sides all are equipped with a set of reverse awl layering (24), and every group is equipped with four reverse awl layering (24) altogether, and its point awl one side is inboard towards, cavity pressure stick (23) inside is equipped with solidification mechanism (25).

2. The shiitake mushroom stick processing and forming device according to claim 1, wherein: the solidifying mechanism (25) comprises a rotary top disk (251) screwed with the punching suite (22), and the rotary top disk (251) is vertically fixed with the internal pressure mechanism (252).

3. The shiitake mushroom stick processing and forming device according to claim 2, wherein: the internal pressure mechanism (252) comprises a fixed rod (2531) vertically welded with the rotating top disk (251), the fixed rod (2531) is in clearance fit with the sleeve rod (2532), a top support mechanism (2533) is embedded on the outer side surface of the sleeve rod (2532), and four protective belts (2534) are embedded on the outer surface of the sleeve rod (2532).

4. The shiitake mushroom stick processing and forming device according to claim 3, wherein: the top bracing mechanism (2533) comprises a stay (11) with the top connected with the loop bar (2532) through a pin, a plurality of shallow groove strips (12) are arranged on the outer surface of the stay (11), a lock sleeve (14) is arranged in the middle of the stay (11), and a shaft pin (13) is embedded in the middle of the lock sleeve (14).

5. The shiitake mushroom stick processing and forming device according to claim 1, wherein: the hollow pressing rod (23) comprises a ring layer expansion strip (2521) connected with a top support mechanism (2533) in a hinged mode, two groove strips are arranged inside the ring layer expansion strip (2521), a magnetic plate (2525) is embedded in the groove strips close to the inner side, guide strips (2522) are embedded in the groove strips close to the outer side, auxiliary connection pieces (2524) are arranged on the outer side of the guide strips (2522), the inner side is connected with a drawing strip (2523) through round holes formed in the side, close to the upper side, of the inner side, and the drawing strip (2523) is connected with a top rotating disc (251) through a knotting method.

6. The shiitake mushroom stick processing and forming device according to claim 3, wherein: the fixing rod (2531) comprises a collar (31) welded to the lower portion of the fixing rod, four I-shaped shaft sleeves (32) are connected to the collar (31) in a nested mode, and the mounting angle of the fixing rod is ninety degrees.

7. The shiitake mushroom stick processing and forming device according to claim 1, wherein: the reverse taper pressing strip (24) comprises a magnetic suction block (241) embedded in the reverse taper pressing strip.

8. The processing and forming method of the mushroom stick according to claims 1 to 8, characterized in that:

s2: the hydraulic press (2) is matched with the fungus rod hollow curing mechanism (7) to perform columnar hollow stamping on the stirred ingredients;

s3: when the mushroom fungus stick is punched to the tail end, the curing mechanism (25) is pressed by the side plate frame (5) to form reverse boosting force, the curing mechanism (25) can realize internal expansion, and the hollow pressing stick (23) is pressed from the inside, so that the hollow pressing stick (23) generates an external expansion type to increase the diameter of the hollow pressing stick, and the density of an inner hole ring layer of the mushroom fungus stick is increased and the mushroom fungus stick is not easy to collapse;

s4: meanwhile, the reverse cone pressing strip (24) and the hollow pressing rod (23) are in linkage action generated in the expanding process, and the holes are punctured towards the inner hole ring of the mushroom stick to form a hollow complete cylindrical mushroom stick with puncturing holes.