CN113099951B - Mushroom fungus stick processing forming device - Google Patents

Abstract

The invention provides a mushroom stick processing and forming device which structurally comprises a base, a hydraulic press, a stirring material barrel, a bobbin, a side disc frame, a guide hopper and a mushroom stick hollow curing mechanism, wherein the hydraulic press is fixedly arranged at the top end of the base, the stirring material barrel is arranged on the side surface of the hydraulic press, the bottom of the stirring material barrel is welded with the base, the bobbin is fixedly arranged on the right side of the stirring material barrel.

Description

Mushroom fungus stick processing forming 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 strain still adopts a three-stage seed production method, namely mother strain, original strain and production strain. In order to produce qualified strains, the mother seeds are cultivated, the mother seeds are used for preparing the mother seeds, the production seeds are prepared from the mother seeds, the production seeds are transferred into cultivation bags, and fruiting management is carried out, wherein the production seeds can be prepared from wood chips, corns, bran, fungus grass, clotrimazole A, gypsum powder and the like, different formulas are adopted according to cultivated varieties, for example, 78% wood chips, 20% bran are adopted as main raw materials, gypsum powder, sugar and other auxiliary materials are added, the raw materials are filled into plastic bags with the diameter of 15cm, fungus sticks with the length of about 30cm are formed, during edible fungus production, fungus bag openings are opened, the upper ends of the compact fungus sticks are inoculated, the mycelium spreading speed is slow, and the mycelium can grow from the upper ends to the lower ends of the fungus sticks, so that punching treatment is needed.

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

because the mixed material of fungus stick is in the state that the water overflows but does not drip out when being pinched by hand after fully mixing, and fungus stick adopts stamping forming, when the fungus stick is compressed into hollow fungus stick, the inner ring wall stress of fungus stick is weaker, the wall surface of fungus stick is easy to collapse in the subsequent processing procedure, if the fungus stick can be actively collapsed from inside before packaging, and if the fungus stick is packaged, the fungus stick is easy to be restored to be solid again.

Disclosure of Invention

In order to solve the technical problems, the invention provides a mushroom fungus stick processing and forming device, which aims to solve the problems that the existing mushroom fungus stick mixed material is in a state that water overflows but does not drip out when being pinched by hands after being completely mixed, the fungus sticks are formed by stamping, when the mushroom fungus sticks are compressed into hollow fungus sticks, the inner ring wall stress of the fungus sticks is weaker, the wall surface of the fungus sticks is easy to collapse in the follow-up processing procedure, if the fungus sticks are easy to actively collapse from the inside before packaging, and if the fungus sticks are easy to restore to a solid state again after packaging.

Aiming at the defects of the prior art, the invention discloses a lentinus edodes stick processing and forming device, which aims at achieving the following specific technical means: the utility model provides a mushroom fungus stick processing forming device, its structure includes base, hydraulic press, stirring feed cylinder, bobbin, side dish frame, leads fill, fungus stick cavity curing mechanism, the hydraulic press has been fixedly placed on the base top, the hydraulic press side is equipped with the stirring feed cylinder, stirring feed cylinder bottom welds with the base mutually, stirring feed cylinder right side fixed mounting has the bobbin, the bobbin passes through bolted connection with side dish frame, side dish frame bottom welds with leading fill top mutually, and leads fill left side and base welded fastening, the inside fungus stick cavity curing mechanism that is equipped with of bobbin, and fungus stick cavity curing mechanism is connected with the hydraulic press, fungus stick cavity curing mechanism includes hydraulic telescoping rod, punching press external member, cavity press stick, reverse taper strip, curing mechanism, hydraulic telescoping rod left stiff end and hydraulic press welded fastening, and right side welded fastening with the punching press external member left side, punching press internal axis position is equipped with the cavity press stick, and connects in its inside left side through the screw thread soon, cavity press stick outer ring face all is equipped with a set of reverse taper strip, and every group is equipped with four taper strips and totally has inside taper strip towards inside one side, it is equipped with inside taper strip to solidify.

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

According to the mushroom stick processing and forming device, the hollow stick and the curing mechanism are matched, when the stamping sleeve is stamped to the side disc frame, the side disc frame contacts the curing mechanism to form a reverse acting force, the acting force enables the curing mechanism to shrink towards the inside of the hollow stick, the curing mechanism can be expanded through braking, the hollow pressing stick is pressed from the inside, the hollow pressing stick is expanded to expand the diameter, so that the density of the inner hole ring layer of the mushroom stick is increased, and the mushroom stick has stronger shaping and retaining effects and is not easy to collapse.

Drawings

Fig. 1 is a schematic structural view of a lentinus edodes stick processing and forming device.

FIG. 2 is a schematic diagram of the internal structure of the fungus stick hollow solidification mechanism in section.

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

Fig. 4 is a schematic diagram of a ninety degree clockwise rotation of the internal pressure mechanism.

Fig. 5 is a schematic diagram of a ninety degree clockwise rotation motion of the internal pressure mechanism.

Fig. 6 is a detailed structural schematic diagram of the jack mechanism.

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

Fig. 8 is a schematic diagram showing the movement state of the internal pressure mechanism.

Fig. 9 is a schematic view of the connection position structure of the jack-up mechanism.

Fig. 10 is a schematic view of the connection position of the jack-up mechanism.

Fig. 11 is a schematic structural view of the expanding state of the jack mechanism.

In the figure: the device comprises a base-1, a hydraulic press-2, a stirring cylinder-3, a bobbin-4, a side tray frame-5, a guide bucket-6, a fungus stick hollow curing mechanism-7, a hydraulic telescopic rod-21, a stamping sleeve-22, a hollow stick-23, a reverse taper pressing strip-24, a curing mechanism-25, a rotary top tray-251, an internal pressure mechanism-252, a fixing rod-2531, a sleeve rod-2532, a top supporting mechanism-2533, a stay-11, a shallow slot strip-12, a shaft pin-13, a lock sleeve-14, a ring layer expanding strip-2521, a guide strip-2522, a guide strip-2523, an auxiliary sheet-2524, a magnetic plate-2525, a sleeve ring-31, an I-shaped sleeve-32 and a magnetic block-241.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the invention but are not intended to limit the scope of the invention.

In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore 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 should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Please refer to fig. 1-11: the utility model provides a mushroom fungus stick processing forming device, its structure includes base 1, hydraulic press 2, stirring feed cylinder 3, bobbin 4, side dish frame 5, leads fill 6, fungus stick cavity curing mechanism 7, hydraulic press 2 has been fixedly placed on base 1 top, the hydraulic press 2 side is equipped with stirring feed cylinder 3, stirring feed cylinder 3 bottom welds with base 1 mutually, stirring feed cylinder 3 right side fixed mounting has bobbin 4, bobbin 4 passes through bolted connection with side dish frame 5, side dish frame 5 bottom welds mutually with leading fill 6 top, and leads fill 6 left side and base 1 welded fastening, bobbin 4 inside is equipped with fungus stick cavity curing mechanism 7, and fungus stick cavity curing mechanism 7 is connected with hydraulic press 2, fungus stick cavity curing mechanism 7 includes hydraulic telescoping rod 21, punching press external member 22, cavity press stick 23, reverse taper strip 24, curing mechanism 25, the stiff end and the welding of hydraulic press 2 of hydraulic telescoping rod 21 left side is fixed, and the right side welding of punching press external member 22 is fixed, punching press external axis position is equipped with cavity taper strip 23 and the inside is equipped with four taper strips that the inside is equipped with in the four sides and is equipped with the hollow taper strip of hollow taper strip group 23, four taper strip inside the four taper strip inside of the same, four taper strip inside of the hollow taper strip group 23 is equipped with one side and four taper strip inside the hollow taper strip 24.

As a further improvement, the curing mechanism 25 includes a rotary top plate 251 screwed with the punching sleeve 22, and the rotary top plate 251 is fixed perpendicularly to the internal pressure mechanism 252.

As a further improvement, the internal pressure mechanism 252 comprises a fixed rod 2531 welded with the rotary top plate 251 vertically, the fixed rod 2531 is in clearance fit with a sleeve rod 2532, a top supporting mechanism 2533 is embedded on the outer side surface of the sleeve rod 2532, and four protection belts 2534 are embedded on the outer surface of the sleeve rod 2532.

Wherein, the protection belt 2534 is made of soft rubber material into a double-layer structure, the width of the upper layer is larger than that of the lower layer, and the upper layer and the lower layer are mutually covered, so that the filling of bacteria stick raw materials can be effectively placed.

As a further improvement, the propping mechanism 2533 comprises a stay 11, the top of which is connected with a sleeve rod 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.

Wherein, the stay 11 adopts rubber material to make, and its external surface is as shallow slot strip 12 that shows in fig. 6, can make the one side thickness of stay 11 uneven, and then makes it when bearing both sides pressure, can stabilize its protruding direction to through setting up shallow slot strip 12 and can protect stay 11, effectively prevent the condition of cracking.

As a further improvement, the hollow pressing rod 23 includes a ring layer diffusion strip 2521 hinged to the top support mechanism 2533, two groove strips are disposed inside the ring layer diffusion strip 2521, a magnetic plate 2525 is inserted into the groove strip near the inner side, a guide strip 2522 is inserted into the groove strip near the outer side, an auxiliary tab 2524 is disposed on the outer side of the guide strip 2522, the inner side is connected with a pull strip 2523 through a circular hole disposed on the upper side of the guide strip 2522, and the pull strip 2523 is connected with the rotary top disc 251 through a knotting method.

The ring layer diffusion strip 2521 and the components directly connected with the ring layer diffusion strip 2521 are all provided with four, and the ring layer diffusion strip 2521 is provided with extension parts on two sides, one side is an extension part, the other side is an inner extension part, so that the extension distance of the ring layer diffusion strip 2521 can be doubled, and further, after the hollow pressure rod 23 is extended, the ring layer diffusion strip 2521 still can be fully contacted with a fungus rod, and the inner hole of the ring layer diffusion strip 2521 is fully pressed.

As a further improvement, the fixing rod 2531 includes a collar 31 welded to the lower portion of the fixing rod 2531, and four i-shaped shaft sleeves 32 are connected to the collar 31 in a nested manner, and the installation angle of the fixing rod is ninety degrees.

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

The reverse taper depression bar 24 is connected with the auxiliary tab 2524, and is mainly affected by the dynamic effect of the guide bar 2522 when sliding in the groove as shown in fig. 7, so that the puncture is realized, and when the reverse taper depression bar 24 is retracted, the restoring force needs to be guided by the magnetic attraction of the magnetic attraction block 241 in the reverse taper depression bar. When the mushroom fungus bar material is pressed in the bobbin 4 in a sliding way through the punching sleeve 22, the original loose fungus bar mixed material is gradually compacted in the punching sleeve 22 in the rapid punching process under the pushing of the hydraulic telescopic rod 21, and in the preliminary forming process, the hollow columnar fungus bar can be directly formed through the position relation of the hollow bar 23 in the middle, the curing mechanism 25 can be contacted with the inner side surface of the side tray 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 tray frame 5 in the contact process, the sleeve rod 2532 can shrink towards the inside of the punching sleeve 22 under the action of reverse force, the I-shaped shaft sleeve 32 arranged below the fixing rod 2531 can drive the jacking mechanism 2533 connected with the sleeve rod 2531 in the retracting process of the sleeve rod 2532, the lower end part of the jacking mechanism 2533 is moved upwards, the middle part of the push supporting mechanism 2533 protrudes outwards to form a circular arc protruding state, and as the push supporting mechanism 2533 is connected with the ring layer diffusion strip 2521 through the shaft pin 13 and the lock sleeve 14, the push supporting mechanism can push the ring layer diffusion strip 2521 to protrude outwards in the protruding process, the inner ring layer is pressurized on the fungus sticks with inner holes, the density of the inner ring layer is higher, meanwhile, the pull belt 2523 is pulled in the process of outwards moving the ring layer diffusion strip 2521, the guide strip 2522 slides a certain distance in the pulling direction, a pulling effect is generated on the reverse cone pressing strip 24 through the auxiliary connection piece 2524, the reverse cone pressing strip 24 can slide outwards to penetrate into the fungus sticks, the contact area between the interior and air is increased and is deeper in the process of secondarily pressurizing, and when the hydraulic telescopic rod 21 pulls the punching sleeve 22 to reset, the combination is reset through the reverse process.

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

s1: preparing wood dust, corn, bran, fungus grass, clotrimazole A, gypsum powder and water according to a fixed formula proportion, and placing the materials in a stirring box for stirring;

s11: wherein the proportion of wood dust is 73%, corn 2%, bran 15%, fungus grass 6%, gypsum powder 1%, clotrimazole A3%, and the addition amount of water is 60% of the total amount of the materials.

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

s2: columnar hollow punching is carried out on the stirred ingredients by matching the hydraulic press 2 with the fungus stick hollow curing mechanism 7;

s3: when the end is stamped, the side tray frame 5 is used for propping against the curing mechanism 25 to form reverse boosting force, the curing mechanism 25 can realize inward expansion, the hollow pressing rod 23 is propped against from the inside, the hollow pressing rod 23 is enabled to generate outward expansion of the diameter, and therefore the density of the inner ring layers of the mushroom fungus rods is increased, and collapse is not easy to occur;

s4: simultaneously, the linkage effect generated in the process of expanding the reverse cone pressing strip 24 and the hollow pressing rod 23 is that the reverse cone pressing strip is pricked towards the inner hole circle of the mushroom stick to form a complete cylindrical mushroom stick with a hollow pricked hole;

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

The embodiments of the 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 embodiments were 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 (6)

1. The utility model provides a mushroom fungus stick processing forming device, its structure includes base (1), hydraulic press (2), stirring feed cylinder (3), bobbin (4), side dish frame (5), guide fill (6), fungus stick cavity curing means (7), hydraulic press (2) have been fixedly placed on base (1) top, hydraulic press (2) side is equipped with stirring feed cylinder (3), stirring feed cylinder (3) bottom welds with base (1) mutually, stirring feed cylinder (3) right side fixed mounting has bobbin (4), bobbin (4) and side dish frame (5) pass through bolted connection, side dish frame (5) bottom welds with guide fill (6) top mutually, and guide fill (6) left side and base (1) welded fastening, the inside fungus stick cavity curing means (7) that are equipped with of bobbin (4), and fungus stick cavity curing means (7) are connected with hydraulic press (2), its characterized in that:

the fungus stick hollow curing mechanism (7) comprises a hydraulic telescopic rod (21), a punching sleeve (22), a hollow pressing rod (23), reverse cone pressing strips (24) and a curing mechanism (25), wherein a fixed end on the left side of the hydraulic telescopic rod (21) is welded and fixed with a hydraulic machine (2), a movable end on the right side of the hydraulic telescopic rod is welded and fixed with the left side of the punching sleeve (22), the hollow pressing rod (23) is arranged at the inner axis position of the punching sleeve (22), the hollow pressing rod (23) is screwed in the inner left side of the punching sleeve through threads, a group of reverse cone pressing strips (24) are arranged on four sides of the outer ring surface of the hollow pressing rod (23), each group is provided with four reverse cone pressing strips (24), one side of a pointed cone faces to the inner side, and the curing mechanism (25) is arranged in the hollow pressing rod (23);

the curing mechanism (25) further comprises an internal pressure mechanism (252), the internal pressure mechanism (252) comprises a fixed rod (2531) which is vertically welded with the rotary top disc (251), the fixed rod (2531) is in clearance fit with a sleeve rod (2532), a jacking mechanism (2533) is embedded on the outer side surface of the sleeve rod (2532), and four protection belts (2534) are embedded on the outer surface of the sleeve rod (2532);

the hollow pressing rod (23) comprises a ring layer expanding strip (2521) hinged with a jacking mechanism (2533), two groove strips are arranged inside the ring layer expanding strip (2521), a magnetic plate (2525) is inserted into the groove strips close to the inner side, a guide strip (2522) is embedded into the groove strips close to the outer side, an auxiliary sheet (2524) is arranged on the outer side of the guide strip (2522), the inner side of the guide strip is connected with a guide pull strip (2523) through a round hole formed in the upper side of the guide strip, and the guide pull strip (2523) is connected with a rotary jacking disc (251) through a knotting method.

2. A lentinula stick forming device as claimed in claim 1 wherein: the curing mechanism (25) comprises a rotary top disc (251) screwed with the stamping sleeve (22), and the rotary top disc (251) is vertically fixed with the internal pressure mechanism (252).

3. A lentinula stick forming device as claimed in claim 1 wherein: the top support mechanism (2533) comprises a support bar (11) with the top connected with a loop bar (2532) through a pin, a plurality of shallow groove strips (12) are arranged on the outer surface of the support bar (11), a lock sleeve (14) is arranged in the middle of the support bar (11), and a shaft pin (13) is embedded in the middle of the lock sleeve (14).

4. A lentinula stick forming device as claimed in claim 1 wherein: the fixing rod (2531) comprises a lantern ring (31) welded with the lower part of the fixing rod, four I-shaped shaft sleeves (32) are connected to the lantern ring (31) in a nested mode, and the installation angle of the fixing rod is ninety degrees.

5. A lentinula stick forming device as claimed in claim 1 wherein: the reverse cone pressing strip (24) comprises a magnetic attraction block (241) embedded in the reverse cone pressing strip.

6. A lentinula stick forming method using the lentinula stick forming device according to any one of claims 1 to 5, comprising the steps of:

s1: preparing wood dust, corn, bran, fungus grass, clotrimazole A, gypsum powder and water according to a fixed formula proportion, and placing the materials in a stirring box for stirring;

s2: columnar hollow punching is carried out on the stirred ingredients by matching the hydraulic press (2) with a fungus stick hollow curing mechanism (7);

s3: when the mushroom fungus stick is stamped to the tail end, the side tray frame (5) is used for pressing the curing mechanism (25) to form reverse boosting force, the curing mechanism (25) can realize internal expansion, the hollow pressing stick (23) is propped from the inside, the hollow pressing stick (23) generates external expansion to expand the diameter of the hollow pressing stick, so that the density of the inner hole ring layer of the mushroom fungus stick is increased, and the mushroom fungus stick is not easy to collapse;

s4: simultaneously, the linkage effect generated in the expansion process of the reverse cone pressing bar (24) and the hollow pressing bar (23) is that the reverse cone pressing bar is punched towards the inner hole ring of the mushroom fungus bar to form a complete cylindrical fungus bar with a hollow punched hole.