CN215346251U - Useless fungus sediment nutritive matrix compressor arrangement of abandoning of domestic fungus - Google Patents

Abstract

A compression device for nutrition matrix of waste edible fungus residue relates to a compression device for nutrition matrix. The utility model aims to solve the technical problems that the conventional edible fungus waste mushroom dreg nutrition matrix compression device can only compress one brick at a time, has low working efficiency and is not suitable for industrial large-scale application. In the utility model, 6 grooves correspond to 6 rows of positions in the through holes one by one; the material distribution oil cylinder drives the material distribution shell and the material distribution inner box to slowly move towards the direction far away from the lower die, so that the nutrient medium can uniformly enter 36 through holes; the compressing device for the edible fungus waste fungus dreg nutrition matrix has the advantages of simple structure, convenient use, high compactness of the compressed matrix brick, and difficult loosening in the logistics and storage processes, thereby ensuring the product quality. Has good popularization value; and a plurality of bricks can be compressed each time, so that the working efficiency is high, and the method is suitable for industrial large-scale application.

Description

Useless fungus sediment nutritive matrix compressor arrangement of abandoning of domestic fungus

Technical Field

The utility model relates to a nutrient medium compression device.

Background

The edible fungus residue is used as a vegetable culture medium, so that vegetable seedlings can grow normally under the condition of irrigating clear water in a short period. The nutrient medium is generally required to be compressed into blocks after being prepared, the compacted matrix bricks have high compactness and are not easy to loosen in the logistics and storage processes, and the product quality is ensured. However, the conventional compressing device for the edible fungus waste mushroom residue nutrient medium can only compress one brick at a time, has low working efficiency and is not suitable for industrial large-scale application.

SUMMERY OF THE UTILITY MODEL

The utility model provides a compressing device for a nutrition matrix of waste edible fungus dregs, which aims to solve the technical problems that the conventional compressing device for the nutrition matrix of the waste edible fungus dregs can only compress one brick at a time, has low working efficiency and is not suitable for industrialized large-scale application.

The compression device for the edible fungus waste mushroom residue nutrient medium consists of an upper die 1, an upper die oil cylinder 2, a lower die oil cylinder 3, a lower die 4, a cylindrical slide rod 5, a rack 6, a cloth shell 7, a cloth oil cylinder 8, a pulley 9, a retainer plate 10, an upper die sleeve 11, a lower die sleeve 12, a bottom plate 13, a cloth inner box 14, a first oil cylinder 15 and a rotating shaft 16;

the inner sides of four corners of the middle upper part of the frame 6 are respectively provided with a cylindrical sliding rod 5;

the lower end of the upper die 1 is uniformly provided with a plurality of pressure levers 1-1, four corners of the upper end of the upper die 1 are respectively provided with an upper die sleeve 11, and 4 upper die sleeves 11 are respectively sleeved on 4 cylindrical slide rods 5 and are in sliding connection;

the lower die 4 is provided with two opposite cross beams 4-3, the centers of the upper surfaces of the two cross beams 4-3 are respectively provided with an oil cylinder connecting lug 4-2, two ends of each cross beam 4-3 are respectively provided with a lower die sleeve 12, 36 through holes 4-1 are arranged between the two cross beams 4-3, the 36 through holes 4-1 are arranged in a 6-row by 6-column mode, and the 4 lower die sleeves 12 are respectively sleeved on 4 cylindrical slide rods 5 and are in sliding connection;

the lower die 4 is positioned right below the upper die 1, the number of the pressure levers 1-1 is equal to that of the through holes 4-1, and the positions of the pressure levers 1-1 correspond to the positions of the through holes 4-1 one by one;

the lower free ends of the two lower die oil cylinders 3 are respectively fixedly connected with the two oil cylinder connecting lugs 4-2, and the upper ends of the two lower die oil cylinders 3 are fixed on the frame 6;

the lower free end of the upper die oil cylinder 2 is fixedly connected with the center of the upper surface of the upper die 1, the upper end of the upper die oil cylinder 2 is fixed on the frame 6, and the two lower die oil cylinders 3 are respectively positioned at two sides of the upper die oil cylinder 2;

the inner sides of the 4 cylindrical sliding rods 5 are respectively provided with a horizontal sliding rail, the 4 horizontal sliding rails are equal in height, and two ends of the retainer plate 10 are arranged in the four horizontal sliding rails and are in sliding connection with the four horizontal sliding rails; the lower die 4 is arranged on the upper surface of the retainer plate 10;

a bottom plate 13 is fixed on the outer side of the frame 6, a slideway 13-1 is arranged at the center of the bottom plate 13, and the slideway 13-1 is of a through hole structure;

the cloth shell 7 consists of three side walls, and the other side surface is an open structure and is positioned at one side close to the rack 6; the upper part and the lower part of the cloth shell 7 are both open structures; the outer part of the side wall of the cloth shell 7 far away from the rack 6 is fixedly connected with the free end of the cloth oil cylinder 8; a plurality of pulleys 9 are arranged on the lower surfaces of two opposite side walls of the cloth shell 7;

the cloth inner box 14 is formed by three side walls and a bottom surface; the cloth inner box 14 is arranged inside the cloth outer shell 7, the rotating shaft 16 penetrates through two opposite side walls of the cloth inner box 14 and two opposite side walls of the cloth outer shell 7, and the cloth inner box 14 and the cloth outer shell 7 are in a rotating relationship; the rotating shaft 16 is arranged at one end of the cloth shell 7 close to the rack 6; 6 parallel grooves 14-1 are arranged in the cloth inner box 14, and one side of each groove 14-1, which is close to the rack 6, is of an open structure; the lower surface of the cloth inner box 14 is hinged with the free end of a piston rod 15-1 of a first oil cylinder 15, the first oil cylinder 15 is arranged at one end of the cloth inner box 14 far away from the rack 6, and the piston rod 15-1 is arranged in the slideway 13-1.

The use method of the edible fungus waste mushroom dreg nutrition substrate compression device comprises the following steps: the upper die 1 is driven to lift up through the upper die oil cylinder 2, and the lower die 4 falls on the upper surface of the material supporting plate 10; manually placing edible fungus waste mushroom residue nutrient media in 6 grooves 14-1, driving a cloth shell 7 and a cloth inner box 14 to move towards the direction of a lower die 4 together through a cloth oil cylinder 8, reducing resistance during movement due to arrangement of a pulley 9, enabling a first oil cylinder 15 to slide in a slide way 13-1 to move along with the cloth inner box 14, enabling the cloth shell 7 to enter between an upper die 1 and the lower die 4, stopping moving after the cloth shell 7 completely covers the upper part of the lower die 4, jacking the tail end of the cloth inner box 14 through the first oil cylinder 15 (see figure 6), enabling the nutrient media in the grooves 14-1 to slide into through holes 4-1 of the lower die 4 due to the action of gravity, and enabling 6 grooves 14-1 to correspond to 6 rows of positions in the through holes 4-1 one by one; the material distribution oil cylinder 8 drives the material distribution shell 7 and the material distribution inner box 14 to slowly move towards the direction far away from the lower die 4 together, so that the nutrient medium can uniformly enter 36 through holes 4-1; when the cloth shell 7 completely leaves the range of the frame 6, the upper die oil cylinder 2 pushes the upper die 1 to move from top to bottom along the cylindrical sliding rod 5, the fungus dreg nutrient substrate in the through hole 4-1 is compressed by matching with the material supporting plate 10, the upper die oil cylinder 2 stops moving forward and is in a pressure maintaining state, and then the lower die oil cylinder 3 moves upwards in a short distance to enable the lower die 4 to move from bottom to top by a distance to push the lower half part of the formed lump material out of the through hole 4-1; then the upper die oil cylinder 2 and the lower die oil cylinder 3 move upwards simultaneously, the upper die 1 and the profiling lower die 4 move upwards simultaneously to enable the forming lump materials to be completely separated from the lower die 4, then the retainer plate 10 is drawn out from the horizontal slide rail to convey the forming lump materials, the upper die 1 and the lower die 4 are restored to the initial state, and the operation cycle is completed.

The compressing device for the edible fungus waste fungus dreg nutrition matrix has the advantages of simple structure, convenient use, high compactness of the compressed matrix brick, and difficult loosening in the logistics and storage processes, thereby ensuring the product quality. Has good popularization value; and a plurality of bricks can be compressed each time, so that the working efficiency is high, and the method is suitable for industrial large-scale application.

Drawings

FIG. 1 is a schematic view of a device for compressing a nutrition medium of waste edible fungus dregs according to a first embodiment;

fig. 2 is a schematic view of an upper mold 1 according to a first embodiment;

fig. 3 is a schematic view of a lower die 4 according to the first embodiment;

FIG. 4 is a top view of FIG. 3;

fig. 5 is a plan view of the cloth outer case 7 and the cloth inner case 14 according to the first embodiment;

FIG. 6 is a schematic view of a device for compressing the nutrition medium of the waste edible fungus dregs when the first oil cylinder 15 jacks up the end of the inner cloth box 14 in the first embodiment;

fig. 7 is a plan view of the base plate 13 according to the first embodiment.

Detailed Description

The first embodiment is as follows: the embodiment is a compressing device for edible fungus waste fungus dreg nutrition matrix, as shown in fig. 1-7, and specifically comprises an upper die 1, an upper die oil cylinder 2, a lower die oil cylinder 3, a lower die 4, a cylindrical slide rod 5, a frame 6, a cloth shell 7, a cloth oil cylinder 8, a pulley 9, a retainer plate 10, an upper die sleeve 11, a lower die sleeve 12, a bottom plate 13, a cloth inner box 14, a first oil cylinder 15 and a rotating shaft 16;

the inner sides of four corners of the middle upper part of the frame 6 are respectively provided with a cylindrical sliding rod 5;

the lower end of the upper die 1 is uniformly provided with a plurality of pressure levers 1-1, four corners of the upper end of the upper die 1 are respectively provided with an upper die sleeve 11, and 4 upper die sleeves 11 are respectively sleeved on 4 cylindrical slide rods 5 and are in sliding connection;

the lower die 4 is provided with two opposite cross beams 4-3, the centers of the upper surfaces of the two cross beams 4-3 are respectively provided with an oil cylinder connecting lug 4-2, two ends of each cross beam 4-3 are respectively provided with a lower die sleeve 12, 36 through holes 4-1 are arranged between the two cross beams 4-3, the 36 through holes 4-1 are arranged in a 6-row by 6-column mode, and the 4 lower die sleeves 12 are respectively sleeved on 4 cylindrical slide rods 5 and are in sliding connection;

the lower die 4 is positioned right below the upper die 1, the number of the pressure levers 1-1 is equal to that of the through holes 4-1, and the positions of the pressure levers 1-1 correspond to the positions of the through holes 4-1 one by one;

the lower free ends of the two lower die oil cylinders 3 are respectively fixedly connected with the two oil cylinder connecting lugs 4-2, and the upper ends of the two lower die oil cylinders 3 are fixed on the frame 6;

the lower free end of the upper die oil cylinder 2 is fixedly connected with the center of the upper surface of the upper die 1, the upper end of the upper die oil cylinder 2 is fixed on the frame 6, and the two lower die oil cylinders 3 are respectively positioned at two sides of the upper die oil cylinder 2;

the inner sides of the 4 cylindrical sliding rods 5 are respectively provided with a horizontal sliding rail, the 4 horizontal sliding rails are equal in height, and two ends of the retainer plate 10 are arranged in the four horizontal sliding rails and are in sliding connection with the four horizontal sliding rails; the lower die 4 is arranged on the upper surface of the retainer plate 10;

a bottom plate 13 is fixed on the outer side of the frame 6, a slideway 13-1 is arranged at the center of the bottom plate 13, and the slideway 13-1 is of a through hole structure;

the cloth shell 7 consists of three side walls, and the other side surface is an open structure and is positioned at one side close to the rack 6; the upper part and the lower part of the cloth shell 7 are both open structures; the outer part of the side wall of the cloth shell 7 far away from the rack 6 is fixedly connected with the free end of the cloth oil cylinder 8; a plurality of pulleys 9 are arranged on the lower surfaces of two opposite side walls of the cloth shell 7;

the cloth inner box 14 is formed by three side walls and a bottom surface; the cloth inner box 14 is arranged inside the cloth outer shell 7, the rotating shaft 16 penetrates through two opposite side walls of the cloth inner box 14 and two opposite side walls of the cloth outer shell 7, and the cloth inner box 14 and the cloth outer shell 7 are in a rotating relationship; the rotating shaft 16 is arranged at one end of the cloth shell 7 close to the rack 6; 6 parallel grooves 14-1 are arranged in the cloth inner box 14, and one side of each groove 14-1, which is close to the rack 6, is of an open structure; the lower surface of the cloth inner box 14 is hinged with the free end of a piston rod 15-1 of a first oil cylinder 15, the first oil cylinder 15 is arranged at one end of the cloth inner box 14 far away from the rack 6, and the piston rod 15-1 is arranged in the slideway 13-1.

The use method of the edible fungus waste mushroom dreg nutrition substrate compression device in the embodiment comprises the following steps: the upper die 1 is driven to lift up through the upper die oil cylinder 2, and the lower die 4 falls on the upper surface of the material supporting plate 10; manually placing edible fungus waste mushroom residue nutrient media in 6 grooves 14-1, driving a cloth shell 7 and a cloth inner box 14 to move towards the direction of a lower die 4 together through a cloth oil cylinder 8, reducing resistance during movement due to arrangement of a pulley 9, enabling a first oil cylinder 15 to slide in a slide way 13-1 to move along with the cloth inner box 14, enabling the cloth shell 7 to enter between an upper die 1 and the lower die 4, stopping moving after the cloth shell 7 completely covers the upper part of the lower die 4, jacking the tail end of the cloth inner box 14 through the first oil cylinder 15 (see figure 6), enabling the nutrient media in the grooves 14-1 to slide into through holes 4-1 of the lower die 4 due to the action of gravity, and enabling 6 grooves 14-1 to correspond to 6 rows of positions in the through holes 4-1 one by one; the material distribution oil cylinder 8 drives the material distribution shell 7 and the material distribution inner box 14 to slowly move towards the direction far away from the lower die 4 together, so that the nutrient medium can uniformly enter 36 through holes 4-1; when the cloth shell 7 completely leaves the range of the frame 6, the upper die oil cylinder 2 pushes the upper die 1 to move from top to bottom along the cylindrical sliding rod 5, the fungus dreg nutrient substrate in the through hole 4-1 is compressed by matching with the material supporting plate 10, the upper die oil cylinder 2 stops moving forward and is in a pressure maintaining state, and then the lower die oil cylinder 3 moves upwards in a short distance to enable the lower die 4 to move from bottom to top by a distance to push the lower half part of the formed lump material out of the through hole 4-1; then the upper die oil cylinder 2 and the lower die oil cylinder 3 move upwards simultaneously, the upper die 1 and the profiling lower die 4 move upwards simultaneously to enable the forming lump materials to be completely separated from the lower die 4, then the retainer plate 10 is drawn out from the horizontal slide rail to convey the forming lump materials, the upper die 1 and the lower die 4 are restored to the initial state, and the operation cycle is completed.

The compressing device for the edible fungus waste fungus dreg nutrition matrix of the embodiment has the advantages of simple structure, convenient use, high compactness of the compressed matrix brick, and difficult loosening in the logistics and storage processes, thereby ensuring the product quality. Has good popularization value; and a plurality of bricks can be compressed each time, so that the working efficiency is high, and the method is suitable for industrial large-scale application.

The second embodiment is as follows: the first difference between the present embodiment and the specific embodiment is: the upper die oil cylinder 2 is a hydraulic oil cylinder. The rest is the same as the first embodiment.

The third concrete implementation mode: the present embodiment differs from the first or second embodiment in that: the lower die oil cylinder 3 is a hydraulic oil cylinder. The others are the same as in the first or second embodiment.

The fourth concrete implementation mode: the difference between this embodiment mode and one of the first to third embodiment modes is: the material distribution oil cylinder 8 is a hydraulic oil cylinder. The rest is the same as one of the first to third embodiments.

The fifth concrete implementation mode: the fourth difference between this embodiment and the specific embodiment is that: the first oil cylinder 15 is a hydraulic oil cylinder. The rest is the same as the fourth embodiment.

The utility model was verified with the following tests:

test one: the test is a compression device for edible fungus waste fungus residue nutrient medium, which is specifically composed of an upper die 1, an upper die oil cylinder 2, a lower die oil cylinder 3, a lower die 4, a cylindrical slide rod 5, a frame 6, a cloth shell 7, a cloth oil cylinder 8, a pulley 9, a retainer plate 10, an upper die sleeve 11, a lower die sleeve 12, a bottom plate 13, a cloth inner box 14, a first oil cylinder 15 and a rotating shaft 16, as shown in figures 1-7; the upper die oil cylinder 2 is a hydraulic oil cylinder; the lower die oil cylinder 3 is a hydraulic oil cylinder; the material distribution oil cylinder 8 is a hydraulic oil cylinder; the first oil cylinder 15 is a hydraulic oil cylinder;

the inner sides of four corners of the middle upper part of the frame 6 are respectively provided with a cylindrical sliding rod 5;

the lower end of the upper die 1 is uniformly provided with a plurality of pressure levers 1-1, four corners of the upper end of the upper die 1 are respectively provided with an upper die sleeve 11, and 4 upper die sleeves 11 are respectively sleeved on 4 cylindrical slide rods 5 and are in sliding connection;

the lower die 4 is provided with two opposite cross beams 4-3, the centers of the upper surfaces of the two cross beams 4-3 are respectively provided with an oil cylinder connecting lug 4-2, two ends of each cross beam 4-3 are respectively provided with a lower die sleeve 12, 36 through holes 4-1 are arranged between the two cross beams 4-3, the 36 through holes 4-1 are arranged in a 6-row by 6-column mode, and the 4 lower die sleeves 12 are respectively sleeved on 4 cylindrical slide rods 5 and are in sliding connection;

the lower die 4 is positioned right below the upper die 1, the number of the pressure levers 1-1 is equal to that of the through holes 4-1, and the positions of the pressure levers 1-1 correspond to the positions of the through holes 4-1 one by one;

the lower free ends of the two lower die oil cylinders 3 are respectively fixedly connected with the two oil cylinder connecting lugs 4-2, and the upper ends of the two lower die oil cylinders 3 are fixed on the frame 6;

the lower free end of the upper die oil cylinder 2 is fixedly connected with the center of the upper surface of the upper die 1, the upper end of the upper die oil cylinder 2 is fixed on the frame 6, and the two lower die oil cylinders 3 are respectively positioned at two sides of the upper die oil cylinder 2;

the inner sides of the 4 cylindrical sliding rods 5 are respectively provided with a horizontal sliding rail, the 4 horizontal sliding rails are equal in height, and two ends of the retainer plate 10 are arranged in the four horizontal sliding rails and are in sliding connection with the four horizontal sliding rails; the lower die 4 is arranged on the upper surface of the retainer plate 10;

a bottom plate 13 is fixed on the outer side of the frame 6, a slideway 13-1 is arranged at the center of the bottom plate 13, and the slideway 13-1 is of a through hole structure;

the cloth shell 7 consists of three side walls, and the other side surface is an open structure and is positioned at one side close to the rack 6; the upper part and the lower part of the cloth shell 7 are both open structures; the outer part of the side wall of the cloth shell 7 far away from the rack 6 is fixedly connected with the free end of the cloth oil cylinder 8; a plurality of pulleys 9 are arranged on the lower surfaces of two opposite side walls of the cloth shell 7;

the cloth inner box 14 is formed by three side walls and a bottom surface; the cloth inner box 14 is arranged inside the cloth outer shell 7, the rotating shaft 16 penetrates through two opposite side walls of the cloth inner box 14 and two opposite side walls of the cloth outer shell 7, and the cloth inner box 14 and the cloth outer shell 7 are in a rotating relationship; the rotating shaft 16 is arranged at one end of the cloth shell 7 close to the rack 6; 6 parallel grooves 14-1 are arranged in the cloth inner box 14, and one side of each groove 14-1, which is close to the rack 6, is of an open structure; the lower surface of the cloth inner box 14 is hinged with the free end of a piston rod 15-1 of a first oil cylinder 15, the first oil cylinder 15 is arranged at one end of the cloth inner box 14 far away from the rack 6, and the piston rod 15-1 is arranged in the slideway 13-1.

The application method of the experimental edible fungus waste mushroom dreg nutrition substrate compression device comprises the following steps: the upper die 1 is driven to lift up through the upper die oil cylinder 2, and the lower die 4 falls on the upper surface of the material supporting plate 10; manually placing edible fungus waste mushroom residue nutrient media in 6 grooves 14-1, driving a cloth shell 7 and a cloth inner box 14 to move towards the direction of a lower die 4 together through a cloth oil cylinder 8, reducing resistance during movement due to arrangement of a pulley 9, enabling a first oil cylinder 15 to slide in a slide way 13-1 to move along with the cloth inner box 14, enabling the cloth shell 7 to enter between an upper die 1 and the lower die 4, stopping moving after the cloth shell 7 completely covers the upper part of the lower die 4, jacking the tail end of the cloth inner box 14 through the first oil cylinder 15 (see figure 6), enabling the nutrient media in the grooves 14-1 to slide into through holes 4-1 of the lower die 4 due to the action of gravity, and enabling 6 grooves 14-1 to correspond to 6 rows of positions in the through holes 4-1 one by one; the material distribution oil cylinder 8 drives the material distribution shell 7 and the material distribution inner box 14 to slowly move towards the direction far away from the lower die 4 together, so that the nutrient medium can uniformly enter 36 through holes 4-1; when the cloth shell 7 completely leaves the range of the frame 6, the upper die oil cylinder 2 pushes the upper die 1 to move from top to bottom along the cylindrical sliding rod 5, the fungus dreg nutrient substrate in the through hole 4-1 is compressed by matching with the material supporting plate 10, the upper die oil cylinder 2 stops moving forward and is in a pressure maintaining state, and then the lower die oil cylinder 3 moves upwards in a short distance to enable the lower die 4 to move from bottom to top by a distance to push the lower half part of the formed lump material out of the through hole 4-1; then the upper die oil cylinder 2 and the lower die oil cylinder 3 move upwards simultaneously, the upper die 1 and the profiling lower die 4 move upwards simultaneously to enable the forming lump materials to be completely separated from the lower die 4, then the retainer plate 10 is drawn out from the horizontal slide rail to convey the forming lump materials, the upper die 1 and the lower die 4 are restored to the initial state, and the operation cycle is completed.

This experimental useless fungus sediment nutrient medium compressor arrangement equipment structure of edible fungi is simple, convenient to use, the matrix brick compactness that compresses tightly is high, in the commodity circulation, the difficult loose assurance product quality of process of depositing. Has good popularization value; and a plurality of bricks can be compressed each time, so that the working efficiency is high, and the method is suitable for industrial large-scale application.

Claims (5)

1. A compression device for edible fungus waste mushroom residue nutrient medium is characterized by comprising an upper die (1), an upper die oil cylinder (2), a lower die oil cylinder (3), a lower die (4), a cylindrical slide rod (5), a rack (6), a cloth shell (7), a cloth oil cylinder (8), a pulley (9), a material supporting plate (10), an upper die sleeve (11), a lower die sleeve (12), a bottom plate (13), a cloth inner box (14), a first oil cylinder (15) and a rotating shaft (16);

the inner sides of four corners of the middle upper part of the frame (6) are respectively provided with a cylindrical sliding rod (5);

the lower end of the upper die (1) is uniformly provided with a plurality of pressure levers (1-1), four corners of the upper end of the upper die (1) are respectively provided with an upper die sleeve (11), and 4 upper die sleeves (11) are respectively sleeved on 4 cylindrical slide rods (5) and are in sliding connection;

the lower die (4) is provided with two opposite cross beams (4-3), the centers of the upper surfaces of the two cross beams (4-3) are respectively provided with an oil cylinder connecting lug (4-2), two ends of each cross beam (4-3) are respectively provided with a lower die sleeve (12), 36 through holes (4-1) are formed between the two cross beams (4-3), the 36 through holes (4-1) are arranged in a 6-row-6-column mode, and the 4 lower die sleeves (12) are respectively sleeved on 4 cylindrical sliding rods (5) and are in sliding connection;

the lower die (4) is positioned right below the upper die (1), the number of the pressure rods (1-1) is equal to that of the through holes (4-1), and the positions of the pressure rods (1-1) correspond to those of the through holes (4-1) one by one;

the lower free ends of the two lower die oil cylinders (3) are respectively fixedly connected with the two oil cylinder connecting lugs (4-2), and the upper ends of the two lower die oil cylinders (3) are fixed on the rack (6);

the lower free end of the upper die oil cylinder (2) is fixedly connected with the center of the upper surface of the upper die (1), the upper end of the upper die oil cylinder (2) is fixed on the frame (6), and the two lower die oil cylinders (3) are respectively positioned at two sides of the upper die oil cylinder (2);

the inner sides of the 4 cylindrical sliding rods (5) are respectively provided with a horizontal sliding rail, the 4 horizontal sliding rails are equal in height, and two ends of the retainer plate (10) are arranged in the four horizontal sliding rails and are in sliding connection with the four horizontal sliding rails; the lower die (4) is arranged on the upper surface of the material supporting plate (10);

a bottom plate (13) is fixed on the outer side of the rack (6), a slide way (13-1) is arranged at the center of the bottom plate (13), and the slide way (13-1) is of a through hole structure;

the cloth shell (7) consists of three side walls, and the other side surface is of an open structure and is positioned at one side close to the rack (6); the upper part and the lower part of the cloth shell (7) are both in an open structure; the outer part of the side wall of the cloth shell (7) far away from the rack (6) is fixedly connected with the free end of the cloth oil cylinder (8); a plurality of pulleys (9) are arranged on the lower surfaces of two opposite side walls of the cloth shell (7);

the cloth inner box (14) is formed by three side walls and a bottom surface in a surrounding way; the cloth inner box (14) is arranged inside the cloth outer shell (7), the rotating shaft (16) penetrates through two opposite side walls of the cloth inner box (14) and two opposite side walls of the cloth outer shell (7), and the cloth inner box (14) and the cloth outer shell (7) are in a rotating relation; the rotating shaft (16) is arranged at one end of the cloth shell (7) close to the rack (6); 6 parallel grooves (14-1) are arranged in the cloth inner box (14), and one side of each groove (14-1) close to the rack (6) is of an open structure; the lower surface of the cloth inner box (14) is hinged with the free end of a piston rod (15-1) of a first oil cylinder (15), the first oil cylinder (15) is arranged at one end, far away from the rack (6), of the cloth inner box (14), and the piston rod (15-1) is arranged in the slide way (13-1).

2. The edible fungus waste mushroom dreg nutrition medium compressing device as claimed in claim 1, wherein the upper die oil cylinder (2) is a hydraulic oil cylinder.

3. The edible fungus waste mushroom dreg nutrition medium compressing device as claimed in claim 1, wherein the lower die oil cylinder (3) is a hydraulic oil cylinder.

4. The edible fungus waste mushroom dreg nutrition substrate compression device as claimed in claim 1, wherein the material distribution oil cylinder (8) is a hydraulic oil cylinder.

5. A device for compressing a nutritive medium of edible fungus waste mushroom dregs according to claim 1, wherein the first oil cylinder (15) is a hydraulic oil cylinder.

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