CN212560025U - Spatial multilayer circulating conveying system for organic material fermentation cylinder group - Google Patents

Abstract

The invention discloses a spatial multi-layer circulating conveying system for an organic material fermentation cylinder group, which comprises a supporting frame, a fermentation cylinder group, a front cylinder group lifter, a rear cylinder group lifter, a push-pull device and a supporting track, wherein the front cylinder group lifter is arranged on the supporting frame; firstly, after fermentation cylinders are fully filled in a supporting track of the system, the system is started, a cylinder outlet layer and a cylinder inlet layer which are used for carrying out mutual circulation conveying are set, then, a cylinder outlet layer fermentation cylinder group is arranged, a cylinder inlet layer fermentation cylinder group is arranged, a cylinder outlet layer fermentation cylinder group is arranged, a cylinder inlet layer fermentation cylinder group is arranged, after the fermentation cylinder group is filled with materials, the cylinder inlet layer fermentation cylinder group is arranged, each fermentation cylinder is filled according to the materials, and the circulation is completed. The invention can realize the environmental protection and high efficiency of organic material fermentation; the same fermentation treatment amount, the occupied space of the equipment is saved by more than 30 percent; compared with other technologies, the energy consumption is reduced by more than 80%.

Description

Spatial multilayer circulating conveying system for organic material fermentation cylinder group

Technical Field

The invention belongs to the technical field of organic material fermentation equipment, and particularly relates to a spatial multi-layer circulating conveying system for an organic material fermentation cylinder set.

Background

In the production process of preparing organic fertilizer by using industrial and agricultural organic solid wastes, the nutrient conversion, dehydration and drying of the organic wastes are realized by high-temperature aerobic fermentation, in order to realize the environmental protection and high efficiency of organic material fermentation, three-dimensional fermentation processes such as tray type, fermentation cylinder group type and the like are increasingly used in the industry at present, in order to achieve the effect, the company develops patents such as a tray type organic material three-dimensional fermentation system and a fermentation method, an organic material tray type three-dimensional fermentation system and a fermentation method, a self-discharging tray type three-dimensional fermentation system and a turnover-free tray type three-dimensional fermentation system and a fermentation method in sequence, and the like.

However, the above three-dimensional fermentation system has been found to have some disadvantages in the practical application of fermentation production: for example, in order to further improve the utilization rate of the fermentation field and to make the utilization of land resources more intensive, it is more effective to change the circular transportation of the plate stack or the fermentation cylinder group of the fermentation tray from the original circular transportation on one plane fermentation transportation system device to the circular transportation on a plurality of plane transportation system devices. However, in practice, it is found that if the original single-layer fermentation production line is simply installed in a multilayer copy layout, many technical problems may occur, such as large vertical space occupied by the equipment, insufficient vertical space utilization, and the sharing of the matching devices, fermentation trays or fermentation cylinder assembly trays/cylinders, discharge and other commonly used functional unit devices in the production system may not be realized, which may result in the waste of the production capacity of the functional unit devices, and the substantial increase of the overall manufacturing cost of the whole production system.

Therefore, the design and development of a system for changing the circular conveying of the tray stack or the fermentation cylinder group of various fermentation trays from the circular conveying on one plane into the circular conveying of multiple spatial layers and multiple planes greatly improves the utilization rate of the space by equipment and simultaneously can reduce the comprehensive manufacturing cost of the equipment, thereby promoting the realization and the full play of the advantages of high efficiency, environmental protection and space saving of the related spatial multilayer fermentation system and promoting the progress of the fermentation technology of various organic materials or organic wastes.

Disclosure of Invention

The invention aims to provide a spatial multi-layer circulating conveying system for an organic material fermentation cylinder group, which solves the technical problem that only single-layer layout can be realized in the prior art.

The purpose of the invention and the technical problem to be solved are realized by adopting the following technical scheme. The invention provides a spatial multi-layer circulating conveying system for an organic material fermentation cylinder group, which comprises a supporting frame, a fermentation cylinder group, a front cylinder group lifter, a rear cylinder group lifter, a push-pull device and a supporting track, wherein the front cylinder group lifter is arranged on the supporting frame; the front cylinder group lifter and the rear cylinder group lifter are connected and installed on the front side and the rear side of the supporting frame; the supporting rails are respectively and symmetrically connected and installed on the left inner side and the right inner side of the supporting frame in parallel; the push-pull devices are respectively and symmetrically connected and installed on the left inner side and the right inner side of the supporting frame and the outer side of the supporting track;

the push-pull device consists of a push-pull supporting seat, a push-pull driving mechanism, a push-pull cylinder clamp, a cylinder clamp telescopic cylinder, a push-pull guide rod, a push-pull guide sleeve and a push-pull sliding block; the push-pull supporting seats are connected and installed on the left inner side and the right inner side of the supporting frame and the outer side of the supporting track; the push-pull guide sleeve is connected and installed on the push-pull support seat, and the push-pull guide rod is installed in the push-pull guide sleeve; the push-pull sliding block is connected and installed at the moving end of the push-pull driving mechanism and one end of the push-pull guide rod; the push-pull driving mechanism is connected between the push-pull supporting seat and the push-pull sliding block; the push-pull barrel clamp and the barrel clamp telescopic cylinder are connected and mounted on the push-pull sliding block, and the push-pull barrel clamp is in driving connection with a piston rod of the barrel clamp telescopic cylinder;

the supporting track is connected and installed on more than two layers in the vertical direction, and each layer is provided with at least one push-pull device.

The purpose of the invention and the technical problem to be solved can be further realized by adopting the following technical measures:

preferably, the push-pull device is a push-pull driving mechanism; the push-pull driving mechanism is driven by any one of an air cylinder, an oil cylinder or a speed reducing motor.

Preferably, the distance between two layers of the support rails in the vertical direction is 300-3000 mm.

Preferably, the support rail is installed to be inclined downward in an advancing direction of the fermenting cylinder group or the pushing or pulling.

Preferably, the spatial multi-layer circular conveying system for organic material fermentation cylinder groups further comprises a cylinder group blocking mechanism; the cylinder group blocking mechanism is connected and installed at one end or two ends of the supporting track.

Preferably, the spatial multi-layer circulating conveying system for the organic material fermentation cylinder group further comprises a cylinder group limiting track; the barrel group limiting rail is connected and installed on the inner side of the supporting frame and above the supporting rail.

Preferably, the spatial multi-layer circular conveying system for organic material fermentation cylinder groups further comprises a cylinder group limiting wheel; the barrel group limiting wheels are connected and installed above two ends of the fermentation barrel group.

The use method of the spatial multi-layer circulating conveying system for the organic material fermentation cylinder group provided by the invention comprises the following steps of:

s1: preparing a system: placing a group of fermentation cylinder groups close to each layer of the support rail of the organic material fermentation cylinder group circulating conveying system;

s2: starting and setting a system: starting the organic material fermentation cylinder group circulating conveying system to enable the front cylinder group lifter, the rear cylinder group lifter, the push-pull device and the cylinder group blocking mechanism to be in a starting state and set a cylinder outlet layer and a cylinder inlet layer of the supporting track for mutual circulating conveying;

s3: and (3) discharging the fermentation cylinder of the cylinder layer: the front barrel group lifter ascends or descends to a barrel discharging layer of the supporting track, the lifting supporting track of the front barrel group lifter is horizontally aligned with a barrel discharging end of the supporting track of the barrel discharging layer, the barrel group blocking mechanism arranged at the barrel discharging end of the supporting track acts to open, a barrel group push-pull mechanism of the front barrel group lifter or the push-pull barrel clamps of the push-pull device do stretching actions to clamp one or more fermentation barrel groups, a push-pull driving mechanism of the push-pull device drives the push-pull sliding block, the push-pull sliding block drives the push-pull barrel clamps to do pushing actions towards the barrel discharging end, and one fermentation barrel group at the forefront end of the supporting track of the barrel discharging layer is pulled or pushed onto the front barrel group lifter;

s4: feeding a fermentation cylinder in the cylinder layer to assemble a cylinder: the rear barrel group lifter is lifted or lowered to a barrel inlet layer of the supporting track, a lifting supporting track of the rear barrel group lifter is horizontally aligned with a barrel outlet end of the supporting track of the barrel inlet layer, the barrel group blocking mechanism arranged at the barrel outlet end of the supporting track is opened in an action mode, a barrel group push-pull mechanism of the rear barrel group lifter or the push-pull barrel clamps of the push-pull device are extended to clamp one or more fermentation barrel groups, a push-pull driving mechanism of the push-pull device drives the push-pull sliding block, the push-pull sliding block drives the push-pull barrel clamps to push the fermentation barrel groups to the barrel outlet end, and one fermentation barrel group at the rearmost end of the supporting track of the barrel inlet layer is pulled or pushed onto the rear barrel group lifter;

s5: and (3) taking out the fermentation cylinder of the cylinder layer and assembling into a cylinder: the rear barrel group lifter ascends or descends to a barrel discharging layer of the supporting track, the lifting supporting track of the rear barrel group lifter is horizontally aligned with a barrel feeding end of the supporting track of the barrel discharging layer, a barrel group push-pull mechanism of the rear barrel group lifter or a push-pull barrel clamp of a push-pull device on the barrel discharging layer do stretching actions to clamp one or more fermentation barrel groups, a push-pull driving mechanism of the push-pull device drives a push-pull sliding block, the push-pull sliding block drives the push-pull barrel clamp to do a pulling action towards the barrel discharging end, and the fermentation barrel group on the rear barrel group lifter is pushed or pulled to the barrel feeding end of the supporting track of the barrel discharging layer;

s6: pouring and charging the fermentation cylinder group: the front barrel group lifter is lifted or lowered to a material pouring and charging operation position to complete the material pouring and charging operation by means of other equipment;

s7: feeding the fermentation cylinder into the cylinder layer: the front barrel group lifter ascends or descends to a barrel outlet layer of the supporting track, the lifting supporting track of the front barrel group lifter is horizontally aligned with a barrel inlet end of the supporting track of the barrel inlet layer, a barrel group push-pull mechanism of the front barrel group lifter or a push-pull barrel clamp of a push-pull device on the barrel inlet layer extends out to clamp one or more fermentation barrel groups, a push-pull driving mechanism of the push-pull device drives a push-pull sliding block, the push-pull sliding block drives the push-pull barrel clamp to pull back towards the barrel outlet end, the fermentation barrel groups on the front barrel group lifter are pushed or pulled to the barrel inlet end of the supporting track of the barrel inlet layer, and the two layers of supporting tracks complete one-time circular conveying of the fermentation barrel groups, namely complete the exchange of one fermentation barrel group;

s8: and (3) completing circular conveying of the fermentation cylinder group: and continuously repeating the steps of S3-S7 for the same number of times as that of all the fermentation cylinder groups on the two layers of the supporting rails, completing one-time circulation conveying of the fermentation cylinder groups on the two layers of the supporting rails, and returning all the fermentation cylinder groups to the initial positions.

Preferably, the method for using the spatial multi-layer circular conveying system for organic material fermentation cylinder groups further comprises:

s2, setting a cylinder inlet layer corresponding to a plurality of cylinder outlet layers, or a plurality of cylinder inlet layers corresponding to a cylinder outlet layer;

s8, continuously repeating the steps S3-S7 the same number of times as that of all the fermentation cylinder groups on one layer of the supporting track, and circularly conveying the fermentation cylinder groups on two layers of the supporting track at one time of exchanging positions, namely, the fermentation cylinder groups originally positioned on the upper layer of the supporting track are exchanged to the supporting track positioned on the lower layer, and the fermentation cylinder groups originally positioned on the lower layer of the supporting track are exchanged to the supporting track positioned on the upper layer.

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

firstly, the fermentation cylinder group is circularly conveyed on a plane fermentation conveying system device, and the circular device in space runs reliably when the fermentation cylinder group enters, moves and exits the fermentation cylinder;

secondly, the environmental protection and the high efficiency of the organic material fermentation can be realized, the fermentation treatment capacity is the same, and the occupied space of the equipment is saved by more than 30 percent;

and the air cylinder is used as a main execution element, the support rail can support the long-distance movable fermentation cylinder group, long conveying lines and multi-power driving are not needed, and the energy consumption is reduced by more than 80% compared with other technologies.

Drawings

Fig. 1 is a schematic front view of a structure according to a first embodiment of the present invention.

Fig. 2 is a schematic top view of a structure according to a first embodiment of the present invention.

Fig. 3 is a schematic side view of the structure according to the first embodiment of the present invention.

Fig. 4 is a front view schematically illustrating a push-pull device according to a first embodiment of the present invention.

Fig. 5 is a schematic front view of a push-pull device according to a second embodiment of the present invention.

Fig. 6 is a schematic front view of the structure of the second embodiment of the present invention.

Fig. 7 is a schematic front view of the structure of the third embodiment of the present invention.

Description of the main element symbols:

1: the supporting frame 2: fermentation cylinder group

21: barrel group limiting wheel 3: front barrel group lifter

31: front lifter lift support rail 32: front elevator barrel group push-pull mechanism

4: rear cylinder group lifter 41: lifting support rail of rear lifter

42: rear elevator barrel assembly push-pull mechanism 5: push-pull device

51: push-pull support seat 52: push-pull driving mechanism

521: push-pull cylinder 522: push-pull oil cylinder or speed reducing motor

53: push-pull cartridge clip 54: cylinder clamp telescopic cylinder

55: push-pull guide bar 56: push-pull guide sleeve

57: and (3) pushing and pulling the sliding block 6: support rail

7: the cartridge group blocking mechanism 8: the section of thick bamboo group spacing track.

Detailed Description

In order to further illustrate the technical means and effects of the present invention for achieving the predetermined objects, the following detailed description of the spatial multi-layer circulation transportation system for organic material fermentation cylinder set and the specific implementation, structure, features and effects thereof according to the present invention will be made with reference to the accompanying drawings and preferred embodiments.

The first embodiment is as follows:

referring to fig. 1 to 4, a spatial multi-layer circular conveying system of an organic material fermentation cylinder set according to an embodiment of the present invention mainly includes a supporting frame 1, a fermentation cylinder set 2, a front cylinder set elevator 3, a rear cylinder set elevator 4, a push-pull device 5, and a supporting rail 6; the front cylinder group lifter 3 and the rear cylinder group lifter 4 are connected and installed at the front side and the rear side of the support frame 1; the supporting rails 6 are respectively and symmetrically connected and installed on the left inner side and the right inner side of the supporting frame 1 in parallel; the push-pull devices 5 are symmetrically connected and installed on the left inner side and the right inner side of the supporting frame 1 and the outer side of the supporting track 6 respectively;

the push-pull device 5 consists of a push-pull supporting seat 51, a push-pull driving mechanism 52, a push-pull cylinder clamp 53, a cylinder clamp telescopic cylinder 54, a push-pull guide rod 55, a push-pull guide sleeve 56 and a push-pull sliding block 57; the push-pull supporting seat 51 is connected and installed at the left and right inner sides of the supporting frame 1 and the outer side of the supporting track 6; the push-pull guide sleeve 56 is connected and mounted on the push-pull support seat 51, and the push-pull guide rod 55 is mounted in the push-pull guide sleeve 56; the push-pull slide block 57 is connected and installed at the moving end of the push-pull driving mechanism 52 and at one end of the push-pull guide rod 55; the push-pull driving mechanism 52 is connected between the push-pull supporting seat 51 and the push-pull sliding block 57; the push-pull driving mechanism is driven by a push-pull air cylinder 521, the push-pull barrel clamp 53 and the barrel clamp telescopic air cylinder 54 are connected and installed on the push-pull sliding block 57, and the push-pull barrel clamp 53 is in driving connection with a piston rod of the barrel clamp telescopic air cylinder 54;

in order to utilize space more efficiently and reduce manufacturing cost, the support rail 6 is connected and installed in more than two layers in the vertical direction, and each layer is provided with at least one push-pull device 5.

Example two:

referring to fig. 5 to 6, a spatial multi-layer circular conveying system of an organic material fermentation cylinder set according to a second embodiment of the present invention is similar to the first embodiment, except that:

in order to make the push-pull device 5 more easily push or pull the fermentation cylinder group, the present embodiment mainly increases the driving force by using the push-pull device 5, and the push-pull driving device 52 is driven by any one of an oil cylinder or a speed reduction motor 522;

in order to make it easier for the push-pull device 5 to push or pull the fermentation cylinder group, and mainly reduce the load, the support rail 6 of the present embodiment is installed to be inclined downward in the direction of advance of the fermentation cylinder group or push or pull.

Example three:

referring to fig. 7, a spatial multi-layer circular conveying system for organic material fermentation cylinder sets according to a third embodiment of the present invention is similar to the first embodiment, except that:

in order to improve the stability and reliability of the fermentation cylinder group 2 during circulating conveying, the organic material fermentation cylinder group spatial multi-layer circulating conveying system is also provided with a cylinder group limiting track 8; the barrel group limiting rail 8 is connected and installed on the inner side of the supporting frame 1 and above the supporting rail 6. The fermentation cylinder group 2 is also provided with a cylinder group limiting wheel 21; the barrel group limiting wheels 21 are connected and installed above two ends of the fermentation barrel group 2 and below the barrel group limiting rail 8. The anti-derailing limiting function is realized when the fermentation cylinder group 2 is pushed, pulled or pulled back.

The use method of the spatial multi-layer circulating conveying system for the organic material fermentation cylinder group provided by the invention comprises the following steps of:

s1: preparing a system: placing one set of the fermentation cylinder groups 2 next to one set to fill each layer of the support rails 6 of the organic material fermentation cylinder group circulating conveying system;

s2: starting and setting a system: starting the organic material fermentation cylinder group circulating conveying system to enable the front cylinder group lifter 3, the rear cylinder group lifter 4, the push-pull device 5 and the cylinder group blocking mechanism 7 to be in a starting state and set a cylinder outlet layer and a cylinder inlet layer of the supporting track 6 for mutual circulating conveying;

s3: and (3) discharging the fermentation cylinder of the cylinder layer: the front barrel group lifter 3 ascends or descends to a barrel discharging layer of the supporting track 6, the lifting supporting track 31 of the front barrel group lifter 3 is horizontally aligned with a barrel discharging end of the supporting track 6 of the barrel discharging layer, the barrel group blocking mechanism 7 arranged at the barrel discharging end of the supporting track 6 acts to open, the barrel group push-pull mechanism 32 of the front barrel group lifter 3 or the push-pull barrel clamp 53 of the push-pull device 5 do stretching action to clamp one or more fermentation barrel groups 2, the push-pull driving mechanism 52 of the push-pull device 5 drives the push-pull slider 55, the push-pull slider 55 drives the push-pull barrel clamp 53 to do pushing action towards the barrel discharging end, and one fermentation barrel group 2 at the forefront end of the supporting track 6 of the barrel discharging layer is pulled or pushed onto the front barrel group lifter 3;

s4: and (3) feeding the fermentation cylinder group 2 into a cylinder layer and discharging: the rear barrel group lifter 4 ascends or descends to a barrel inlet layer of the support rail 6, the lifting support rail 41 of the rear barrel group lifter 4 is horizontally aligned with a barrel outlet end of the support rail 6 of the barrel inlet layer, the barrel group blocking mechanism 7 arranged at the barrel outlet end of the support rail 6 acts to open, the barrel group push-pull mechanism 42 of the rear barrel group lifter 4 or the push-pull barrel clamp 53 of the push-pull device 5 do stretching action to clamp one or more fermentation barrel groups 2, the push-pull driving mechanism 52 of the push-pull device 5 drives the push-pull slider 55, the push-pull slider 55 drives the push-pull barrel clamp 53 to do pushing action towards the barrel outlet end, and one fermentation barrel group 2 at the rearmost end of the support rail 6 of the barrel inlet layer is pulled or pushed onto the rear barrel group lifter 4;

s5: and (3) feeding the fermentation cylinder group 2: the rear barrel group lifter 4 ascends or descends to a barrel outlet layer of the support rail 6, the lifting support rail 41 of the rear barrel group lifter 4 is horizontally aligned with a barrel inlet end of the support rail 6 of the barrel outlet layer, the barrel group push-pull mechanism 42 of the rear barrel group lifter 4 or the push-pull barrel clamp 53 of the push-pull device 5 on the barrel outlet layer do stretching actions to clamp one or more fermentation barrel groups 2, the push-pull driving mechanism 52 of the push-pull device 5 drives the push-pull slide block 55, the push-pull slide block 55 drives the push-pull barrel clamp 53 to do pulling actions towards the barrel outlet end, and the fermentation barrel group 42 on the rear barrel group lifter 4 is pushed or pulled to the barrel inlet end of the support rail 6 of the barrel outlet layer;

s6: and (3) pouring and charging in the fermentation cylinder group 2: the front barrel group lifter 3 is lifted or lowered to a material pouring and charging operation position to complete material pouring and charging operations by means of other equipment;

s7: and (3) feeding the fermentation cylinder group 2 into the cylinder: the front barrel group lifter 3 ascends or descends to the barrel outlet layer of the supporting track 6, the lifting supporting track 31 of the front barrel group lifter 3 is horizontally aligned with the barrel inlet end of the supporting track 6 of the barrel inlet layer, the cylinder group push-pull mechanism 32 of the front cylinder group lifter 3 or the push-pull cylinder clamp 53 of the push-pull device 5 on the cylinder inlet layer do extension action to clamp one or more fermentation cylinder groups 2, the push-pull driving mechanism 52 of the push-pull device 5 drives the push-pull slide block 55, the push-pull slide block 55 drives the push-pull barrel clamp 53 to do the action of pulling back towards the barrel outlet end, the fermentation barrel group 2 on the front barrel group lifter 3 is pushed or pulled to the barrel inlet end of the support track 6 of the barrel inlet layer, the two layers of the supporting tracks 6 finish the circulation conveying of the fermentation cylinder groups 2 once, namely finish the exchange of one fermentation cylinder group 2;

s8: and (3) completing the circular conveying of the fermentation cylinder group 2: and continuously repeating the steps of S3-S7 for the same number of times as the number of all the fermentation cylinder groups 2 on the two layers of the supporting rails 6, completing one-time circulation conveying of the fermentation cylinder groups 2 on the two layers of the supporting rails 6, and returning all the fermentation cylinder groups 2 to the initial positions.

Another embodiment of the method for using the spatial multi-layer circular conveying system of the organic material fermentation cylinder group is similar to the previous embodiment, except that:

in step S2, setting one drum entering layer corresponding to multiple drum exiting layers, or multiple drum entering layers corresponding to one drum exiting layer;

and S8, repeating S3-S7 continuously the same number of times as that of all the fermentation cylinder groups 2 on one layer of the supporting track 6, wherein the fermentation cylinder groups 2 on two layers of the supporting track 6 complete the circulating transportation of one exchange position, that is, the fermentation cylinder group 2 on the upper layer of the supporting track 6 is exchanged to the supporting track 6 on the lower layer, and the fermentation cylinder group 2 on the supporting track 6 on the lower layer is exchanged to the supporting track 6 on the upper layer.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. The utility model provides an organic material fermentation section of thick bamboo group space multilayer circulation conveying system which characterized in that: comprises a supporting frame, a fermentation cylinder group, a front cylinder group lifter, a rear cylinder group lifter, a push-pull device and a supporting track; the front cylinder group lifter and the rear cylinder group lifter are connected and installed on the front side and the rear side of the supporting frame; the supporting rails are respectively and symmetrically connected and installed on the left inner side and the right inner side of the supporting frame in parallel; the push-pull devices are respectively and symmetrically connected and installed on the left inner side and the right inner side of the supporting frame and the outer side of the supporting track;

the push-pull device consists of a push-pull supporting seat, a push-pull driving mechanism, a push-pull cylinder clamp, a cylinder clamp telescopic cylinder, a push-pull guide rod, a push-pull guide sleeve and a push-pull sliding block; the push-pull supporting seats are connected and installed on the left inner side and the right inner side of the supporting frame and the outer side of the supporting track; the push-pull guide sleeve is connected and installed on the push-pull support seat, and the push-pull guide rod is installed in the push-pull guide sleeve; the push-pull sliding block is connected and installed at the moving end of the push-pull driving mechanism and one end of the push-pull guide rod; the push-pull driving mechanism is connected between the push-pull supporting seat and the push-pull sliding block; the push-pull barrel clamp and the barrel clamp telescopic cylinder are connected and mounted on the push-pull sliding block, and the push-pull barrel clamp is in driving connection with a piston rod of the barrel clamp telescopic cylinder;

the supporting track is connected and installed on more than two layers in the vertical direction, and each layer is provided with at least one push-pull device.

2. The organic material fermentation cylinder group space multilayer circulation conveying system as claimed in claim 1, characterized in that: the push-pull device is driven by any one of an air cylinder, an oil cylinder or a speed reducing motor.

3. The organic material fermentation cylinder group space multilayer circulation conveying system as claimed in claim 1, characterized in that: the distance between two layers of the support rails in the vertical direction is 300-3000 mm.

4. The organic material fermentation cylinder group space multilayer circulation conveying system as claimed in claim 1, characterized in that: the support rails are installed to be inclined downward in the advancing direction of the fermenter block or the push or pull.

5. The organic material fermentation cylinder group space multilayer circulation conveying system as claimed in claim 1, characterized in that: the device also comprises a cylinder group blocking mechanism; the cylinder group blocking mechanism is connected and installed at one end or two ends of the supporting track.

6. The organic material fermentation cylinder group space multilayer circulation conveying system as claimed in claim 1, characterized in that: the device also comprises a barrel group limiting track; the barrel group limiting rail is connected and installed on the inner side of the supporting frame and above the supporting rail.

7. The organic material fermentation cylinder group space multilayer circulation conveying system as claimed in claim 1, characterized in that: the device also comprises a barrel group limiting wheel; the barrel group limiting wheels are connected and installed above two ends of the fermentation barrel group.

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