CN218262326U - Plant material sediment processing system - Google Patents

Abstract

The application relates to the technical field of material sediment treatment facility, specifically discloses a plant material sediment processing system, and its technical scheme main points are: including material sediment dewatering device, mixing arrangement and material sediment fertilizer apparatus for producing, material sediment dewatering device includes the drain tank, extrusion mechanism and pushing equipment, extrusion mechanism is used for extrudeing the plant material sediment, pushing equipment is used for releasing the drain tank with the plant material sediment that extrusion operation was accomplished, mixing arrangement includes blending tank and rabbling mechanism, rabbling mechanism is used for stirring the plant material sediment that gets into the blending tank inside and fermentation tubes and mixes, material sediment fertilizer apparatus for producing is used for making the plant material sediment after the fermentation fertilizer, material sediment fertilizer apparatus for producing is including the fermentation mechanism that is linked together in proper order, granulation mechanism and stoving mechanism. This application has when handling the plant material sediment, is favorable to resources are saved, environmental protection's effect.

Description

Plant material sediment processing system

Technical Field

The application relates to the technical field of material slag treatment equipment, in particular to a plant material slag treatment system.

Background

The plant residue is organic waste after relevant target products are extracted from plant materials such as traditional Chinese medicinal materials, tea leaves and the like through operations such as purification, extraction and the like, is generally wet materials, and is characterized by high water content, easy decay and strong and pungent smell.

In the related art, the plant residues are mostly treated by stacking, burying, burning and the like.

In view of the above-mentioned related technologies, the inventor believes that the disposal method of stacking, burying and burning not only needs to consume a large amount of capital and occupy a large area of land, but also causes resource waste and serious environmental pollution, and is very easy to cause deep pollution if not disposed in time.

SUMMERY OF THE UTILITY MODEL

In order to be favorable to resources are saved, environmental protection when being handled to plant material sediment, this application provides a plant material sediment processing system.

The application provides a plant material sediment processing system adopts following technical scheme:

a plant slag treatment system, comprising:

the material slag dehydration device is used for dehydrating plant material slag and comprises a dehydration tank, an extrusion mechanism and a material pushing mechanism, wherein the dehydration tank is provided with a first feeding pipe for plant material slag to enter the dehydration tank and a first discharging pipe for the plant material slag after the dehydration operation to be discharged out of the dehydration tank, the extrusion mechanism is arranged at the top of the dehydration tank and used for extruding the plant material slag, and the material pushing mechanism is arranged on the side wall of the dehydration tank and used for pushing the plant material slag after the extrusion operation out of the dehydration tank;

the mixing device is used for mixing zymophyte and dehydrated plant material residues, and comprises a mixing tank and a stirring mechanism, wherein the mixing tank is positioned on one side of the dehydrating tank and is communicated with the dehydrating tank through a first discharging pipe, the mixing tank is provided with a second feeding pipe for the zymophyte to enter the mixing tank, the stirring mechanism is used for stirring and mixing the plant material residues and the zymophyte which enter the mixing tank, and the mixing tank is provided with a second discharging pipe for the fully mixed plant material residues to be discharged out of the mixing tank;

the material residue fertilizer production device is used for preparing fermented plant material residues into fertilizers, and comprises a fermentation mechanism, a granulation mechanism and a drying mechanism which are sequentially communicated, wherein the fermentation mechanism is communicated with the mixing tank through the second discharge pipe.

By adopting the technical scheme, the material slag dehydration device is used for dehydrating plant material slag, the plant material slag enters the dehydration tank through the first feeding pipe, the extrusion mechanism performs extrusion operation on the plant material slag entering the dehydration tank so as to extrude water in the plant material slag, and then the pushing mechanism pushes the plant material slag after the extrusion operation out of the dehydration tank through the first discharging pipe; the mixing device is used for mixing the zymophyte and the dehydrated plant material slag, the dehydrated plant material slag enters the mixing tank through the first discharge pipe, meanwhile, the zymophyte enters the mixing tank through the second feed pipe, and the stirring mechanism is used for stirring the plant material slag and the zymophyte in the mixing tank, so that the plant material slag and the zymophyte are fully mixed; material sediment fertilizer apparatus for producing is arranged in making fertilizer with the plant material sediment after the fermentation, and the plant material sediment of accomplishing with the zymophyte intensive mixing lets in fermentation mechanism, granulation mechanism and stoving mechanism in proper order through the second discharging pipe for the fertilizer is made after plant material sediment through fermentation chemical fertilizer, granulation, stoving operation, and reutilization is realized to plant material sediment, when handling plant material sediment, is favorable to resources are saved, the environmental protection.

Preferably, the extrusion mechanism includes backup pad, extrusion cylinder and stripper plate, the backup pad fixed set up in the inside wall of dewatering tank, the backup pad will the inside partition of dewatering tank becomes two spaces, be provided with the filter screen in the backup pad, the vertical fixed set up of extrusion cylinder in the top of dewatering tank, the piston rod of extrusion cylinder is vertical setting downwards, the stripper plate fixed set up in the tip of extrusion cylinder piston rod.

Through adopting above-mentioned technical scheme, when the plant material sediment got into the drain sump, the backup pad supported the plant material sediment that gets into in the drain sump, and extrusion cylinder's piston rod is tensile in order to promote the vertical downstream of stripper plate, and the stripper plate extrudees the plant material sediment, and the moisture in the plant material sediment is extruded the back and is flowed through the filter screen to realize the dehydration of plant material sediment.

Preferably, the pushing mechanism comprises a pushing cylinder and a push plate, the pushing cylinder is horizontally and fixedly arranged on the side wall of the dewatering tank, the push plate is fixedly arranged at the end part of a piston rod of the pushing cylinder, and the bottom end of the push plate is abutted to the upper plate surface of the supporting plate.

Through adopting above-mentioned technical scheme, the plant material sediment after the extrusion operation is accomplished is kept somewhere in the backup pad, pushes away the piston rod of material cylinder and stretches to remove towards the direction that is close to first discharging pipe in order to promote the push pedal, and the dehydration tank is released through first discharging pipe to the plant material sediment after the dehydration operation is accomplished, is convenient for go on of next plant material sediment dehydration.

Preferably, the rabbling mechanism includes driving motor, (mixing) shaft and a plurality of stirring vane, driving motor vertical fixed set up in the top of blending tank, the coaxial fixed connection of (mixing) shaft in driving motor's output shaft, a plurality of the stirring vane interval fixed set up in all sides of (mixing) shaft.

Through adopting above-mentioned technical scheme, when plant material sediment gets into the blending tank through first discharging pipe, when the fermentation tubes got into the blending tank through the second inlet pipe, driving motor drive (mixing) shaft rotated, and the (mixing) shaft rotates and drives stirring vane and rotate in order to stir the operation to plant material sediment and fermentation tubes, realized the intensive mixing of fermentation tubes and plant material sediment, was favorable to improving the fermentation efficiency of plant material sediment.

Preferably, the height of the supporting plate gradually decreases from the side wall of the dewatering tank to the axis position direction of the dewatering tank and is in inclined arrangement, and the filter screen is arranged at the lowest point position of the supporting plate.

Through adopting above-mentioned technical scheme, this setting makes the position that assembles the filter screen under the action of gravity from the water that breaks away from out in the plant material sediment, the separation of moisture in the plant material sediment of being convenient for.

Preferably, the push plate is provided with a tightly supporting component for tightly supporting the upper plate surface of the support plate, the tightly supporting component comprises a tightly supporting plate and a tightly supporting spring, a containing groove for containing the tightly supporting plate is formed in the lower surface of the push plate, the tightly supporting plate movably penetrates through the lower end of the push plate, one end of the tightly supporting spring is fixedly arranged at the bottom of the containing groove, and the other end of the tightly supporting spring is fixedly connected with the upper end of the tightly supporting plate.

Through adopting above-mentioned technical scheme, support tight spring and will support tight board and connect the lower surface at the push pedal, and support tight spring and promote to support tight board and support the last face tightly in the backup pad, the push pedal with support tight board and push away the plant material sediment that extrusion operation was accomplished jointly under the promotion that pushes away the material cylinder and release from the dehydration tank, be favorable to avoiding the plant material sediment that dehydration operation was accomplished to remain in the backup pad.

Preferably, the first discharge pipe is arranged at the position of the joint of the support plate and the dewatering tank.

Through adopting above-mentioned technical scheme, first discharging pipe sets up the push pedal of being convenient for in the position of backup pad and drain sump junction and pushes out the plant material sediment from the drain sump.

Preferably, the first discharge pipe is arranged in a flared tubular shape.

Through adopting above-mentioned technical scheme, this setting is convenient for the push pedal and is carried the plant material sediment from the dehydration tank in pushing first discharging pipe.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through setting up backup pad, filter screen, extrusion cylinder and stripper plate, when the plant material sediment got into the drain sump, the backup pad supported the plant material sediment that gets into in the drain sump, and extrusion cylinder's piston rod is tensile in order to promote the vertical downstream of stripper plate, and the stripper plate extrudees the plant material sediment, and the moisture in the plant material sediment is extruded the back and is flowed through the filter screen to realize the dehydration of plant material sediment.

2. Push away material cylinder and push pedal through the setting, and the bottom of push pedal butt all the time in the last face of backup pad, the piston rod that pushes away the material cylinder is tensile to be removed near the direction of first discharging pipe towards promoting the push pedal, and the dehydration jar is released through first discharging pipe to the plant material sediment after the dehydration operation is accomplished, is convenient for go on of next plant material sediment dehydration operation.

3. Through setting up driving motor, (mixing) shaft and a plurality of stirring vane, when the plant material sediment gets into the blending tank through first discharging pipe, when the fermentation tubes got into the blending tank through the second inlet pipe, driving motor drive (mixing) shaft rotated, and the (mixing) shaft rotates and drives stirring vane and rotate and stir the operation in order to plant material sediment and fermentation tubes, realizes the intensive mixing of fermentation tubes and plant material sediment, is favorable to improving the fermentation efficiency of plant material sediment.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a plant material slag processing system according to an embodiment of the application.

FIG. 2 is a sectional view of a slag dewatering device and a mixing device according to an embodiment of the present disclosure.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Description of the reference numerals:

1. a slag dewatering device; 11. a dewatering tank; 12. an extrusion mechanism; 121. a support plate; 122. an extrusion cylinder; 123. a compression plate; 13. a material pushing mechanism; 131. a material pushing cylinder; 132. pushing the plate; 2. a first feed tube; 3. a first discharge pipe; 4. a mixing device; 41. a mixing tank; 42. a stirring mechanism; 421. a drive motor; 422. a stirring shaft; 423. a stirring blade; 5. a second feed pipe; 6. a second discharge pipe; 7. a slag fertilizer production device; 71. a fermentation mechanism; 72. a granulation mechanism; 73. a drying mechanism; 8. a filter screen; 9. a propping component; 91. a resisting plate; 92. the spring is pressed tightly.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses plant material sediment processing system, refer to fig. 1, including material sediment dewatering device 1, mixing arrangement 4 and material sediment fertilizer apparatus for producing 7, material sediment dewatering device 1 is used for carrying out the dehydration operation to the plant material sediment, mixing arrangement 4 is used for carrying out the mixing operation with the plant material sediment that the dehydration was accomplished with zymophyte, material sediment fertilizer apparatus for producing 7 are used for making the plant material sediment after the fermentation into fertilizer, realize the reutilization of plant material sediment, when handling the plant material sediment, can be favorable to resources are saved, the environmental protection.

Referring to fig. 1 and 2, material sediment dewatering device 1 includes drain tank 11, extrusion mechanism 12 and pushing equipment 13, it is specific, the fixed first inlet pipe 2 that is provided with the plant material sediment that supplies the plant material sediment to get into the inside of drain tank 11 and supplies the plant material sediment discharge drain tank 11's that dehydration operation accomplished first discharging pipe 3 of drain tank 11 of lateral wall of drain tank 11, first inlet pipe 2 is linked together with drain tank 11, first discharging pipe 3 is linked together with drain tank 11, and first inlet pipe 2 is located the top of first discharging pipe 3, extrusion mechanism 12 installs and is used for extrudeing the plant material sediment in the top of drain tank 11, make moisture break away from the plant material sediment, pushing equipment 13 installs in the lateral wall of drain tank 11 and is used for pushing out the plant material sediment that extrusion operation accomplished through first discharging pipe 3 drain tank 11.

With continued reference to fig. 1 and 2, the pressing mechanism 12 includes a support plate 121, a pressing cylinder 122, and a pressing plate 123, the support plate 121 is fixedly welded to the inner sidewall of the dewatering tank 11, and the support plate 121 partitions the interior of the dewatering tank 11 into upper and lower spaces. It is worth mentioning that the height of the supporting plate 121 is gradually decreased from the side wall of the dewatering tank 11 to the central axis of the dewatering tank 11 and is set to be inclined. Meanwhile, a filter screen 8 is arranged on the support plate 121, and the filter screen 8 is horizontally and fixedly arranged on the plane of the lowest point of the support plate 121.

Continuing to refer to fig. 1 and 2, the squeezing cylinder 122 is vertically and fixedly arranged outside the top of the dewatering tank 11, the piston rod of the squeezing cylinder 122 is vertically and downwardly arranged and movably penetrates into the inside of the dewatering tank 11, and the squeezing plate 123 is horizontally and fixedly arranged at the end of the piston rod of the squeezing cylinder 122. When plant material sediment gets into in the dewatering tank 11 through first inlet pipe 2, backup pad 121 supports the plant material sediment, extrusion cylinder 122's piston rod is tensile in order to promote the vertical phase displacement of stripper plate 123, the lateral wall of stripper plate 123 slides at the inside wall butt of dewatering tank 11, the hypoplastron of stripper plate 123 extrudees the operation in the face of plant material sediment, make the moisture in the plant material sediment extruded, then moisture is filtering down on gathering filter screen 8 through the face that backup pad 121 is the slope setting, thereby realize that the moisture in the plant material sediment breaks away from.

With reference to fig. 1 and fig. 2, the pushing mechanism 13 includes a pushing cylinder 131 and a pushing plate 132, specifically, the pushing cylinder 131 is horizontally and fixedly disposed on the outer side wall of the dewatering tank 11, the pushing cylinder 131 is located on the opposite side of the first discharging pipe 3, a piston rod of the pushing cylinder 131 horizontally faces the dewatering tank 11 and movably penetrates into the dewatering tank 11, the pushing plate 132 is vertically and fixedly disposed at an end of the piston rod of the pushing cylinder 131, and a bottom end of the pushing plate 132 abuts against an upper plate surface of the supporting plate 121. After the extrusion operation of the plant material slag is completed, the piston rod of the material pushing cylinder 131 is stretched to push the push plate 132 to move towards the direction close to the first material discharging pipe 3 horizontally, and the push plate 132 pushes the plant material slag after the dehydration operation to be close to the first material discharging pipe 3, so that the plant material slag is discharged from the first material discharging pipe 3. It should be noted that the first discharge pipe 3 is disposed at a connection position of the support plate 121 and the dewatering tank 11, and an end portion of the first discharge pipe 3 connected to the dewatering tank 11 is in a flared tubular shape, so that the push plate 132 pushes the plant material residue after the dewatering operation into the first discharge pipe 3 from the dewatering tank 11 for transportation.

Referring to fig. 2 and 3, the pushing plate 132 is provided with a tightening assembly 9 for tightening the upper plate surface of the supporting plate 121, specifically, the tightening assembly 9 includes a tightening plate 91 and a tightening spring 92, meanwhile, the lower surface of the pushing plate 132 is provided with a receiving groove for receiving the tightening plate 91 along the length direction thereof, and the tightening plate 91 is vertically movably disposed on the lower end surface of the pushing plate 132. The abutting spring 92 is vertically arranged, the upper end of the abutting spring 92 is fixedly arranged at the bottom of the accommodating groove, and the other end of the abutting spring 92 is fixedly connected with the upper end of the abutting plate 91. It should be noted that the holding spring 92 is fixed in the accommodating groove and is always in a compressed state, so that the holding spring 92 always has a force of pushing the holding plate 91 outwards from the accommodating groove. In this embodiment, the number of the abutting springs 92 is set to be a plurality, and the plurality of abutting springs 92 are uniformly spaced along the length direction of the accommodating groove. The arrangement enables the lower end of the abutting plate 91 to abut against the upper plate surface of the supporting plate 121 no matter which position the pushing plate 132 is pushed by the pushing cylinder 131, thereby facilitating the pushing of the plant material residue on the supporting plate 121 from the dewatering tank 11.

Referring to fig. 1 and 2, the mixing device 4 includes a mixing tank 41 and an agitating mechanism 42, the mixing tank 41 is located at one side of the dehydration tank 11, and the mixing tank 41 is communicated with the dehydration tank 11 through the first discharge pipe 3. It should be noted that the end of the first discharge pipe 3 connected to the dewatering tank 11 is higher than the end of the first discharge pipe 3 connected to the mixing tank 41, so that the plant material residue after the dewatering operation is transferred from the dewatering tank 11 to the mixing tank 41.

Referring to fig. 1 and 2, the top of the mixing tank 41 is connected with a second feeding pipe 5 for the fermentation bacteria to enter the mixing tank 41, and the fermentation bacteria ferment the fertilizer on the plant residues to make the plant residues into fertilizer. The stirring mechanism 42 is used for stirring and mixing the plant material dregs and the zymophyte which enter the mixing tank 41, and meanwhile, the mixing tank 41 is provided with a second discharge pipe 6 for discharging the plant material dregs out of the mixing tank 41 after the plant material dregs are fully mixed.

Referring to fig. 1 and fig. 2, rabbling mechanism 42 includes driving motor 421, (mixing) shaft 422 and a plurality of stirring vane 423, driving motor 421 is vertical fixed to be set up in the top of blending tank 41, and the output shaft of driving motor 421 is vertical downward setting, and the coaxial fixed connection of (mixing) shaft 422 in the output shaft of driving motor 421, and (mixing) shaft 422 penetrates the inside of blending tank 41, and the even interval of a plurality of stirring vane 423 is fixed to be welded in the week side of (mixing) shaft 422. When plant material sediment and fermentation tubes all get into blending tank 41, driving motor 421 drive (mixing) shaft 422 rotates, and (mixing) shaft 422 rotates and drives a plurality of stirring vane 423 and rotate in order to stir mixing operation with plant material sediment and fermentation tubes for plant material sediment and fermentation tubes fully contact the mixture.

Referring to fig. 1, the material residue fertilizer production device 7 includes a fermentation mechanism 71, a granulation mechanism 72 and a drying mechanism 73 which are sequentially communicated, and the fermentation mechanism 71 is communicated with the mixing tank 41 through the second discharge pipe 6. Plant material sediment that mixes with fermentation tubes fully carries out the fermentation operation in fermentation mechanism 71 through second discharging pipe 6 for plant material sediment fermentation forms fertilizer, then makes the fertilizer granular into through granulation mechanism 72, and the final stoving of granular fertilizer in stoving mechanism 73 makes the fertilizer finished product finally.

The implementation principle of a plant material sediment processing system of the embodiment of the application is as follows: plant material slag enters the dewatering tank 11 through the first feeding pipe 2, the piston rod of the squeezing cylinder 122 stretches to push the squeezing plate 123 to move vertically downwards to squeeze the plant material slag, so that moisture is squeezed out of the plant material slag, the dewatering operation of the plant material slag is achieved, then the piston rod of the pushing cylinder 131 stretches to push the pushing plate 132 and the abutting plate 91 to move towards the direction close to the first discharging pipe 3, so that the dewatered plant material slag is pushed out of the dewatering tank 11 through the first discharging pipe 3, the plant material slag after the dewatering operation is conducted is introduced into the mixing tank 41 through the first discharging pipe 3, meanwhile, fermentation bacteria enter the mixing tank 41 through the second feeding pipe 5, the driving motor 421 is started to drive the stirring shaft 422 and the stirring blades 423 to rotate, the plant material slag and the fermentation bacteria are fully mixed, the plant material slag after the fully mixing is fermented in the fermentation mechanism 71 through the second discharging pipe 6, the plant material slag is fermented to form fertilizer, then the fertilizer is granulated through the granulation mechanism 72, finally, the granulated fertilizer is dried in the drying mechanism 73, the finished product is finally made, the plant material slag is made into a finished product, the secondary utilization of the plant material slag is beneficial to the conservation of the environment, and the secondary resource is protected.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A plant material slag processing system, comprising:

the material slag dewatering device (1) is used for dewatering plant material slag, the material slag dewatering device (1) comprises a dewatering tank (11), an extrusion mechanism (12) and a material pushing mechanism (13), the dewatering tank (11) is provided with a first feeding pipe (2) for plant material slag to enter the dewatering tank (11) and a first discharging pipe (3) for plant material slag after dewatering operation to be discharged out of the dewatering tank (11), the extrusion mechanism (12) is installed at the top of the dewatering tank (11) and used for extruding the plant material slag, and the material pushing mechanism (13) is installed on the side wall of the dewatering tank (11) and used for pushing the plant material slag after extrusion operation out of the dewatering tank (11);

the mixing device (4) is used for mixing fermentation tubes and dehydrated plant material residues, the mixing device (4) comprises a mixing tank (41) and a stirring mechanism (42), the mixing tank (41) is located on one side of the dehydrating tank (11), the mixing tank (41) is communicated with the dehydrating tank (11) through the first discharging pipe (3), the mixing tank (41) is provided with a second feeding pipe (5) for the fermentation tubes to enter the mixing tank (41), the stirring mechanism (42) is used for stirring and mixing the plant material residues entering the mixing tank (41) and the fermentation tubes, and the mixing tank (41) is provided with a second discharging pipe (6) for the fully mixed plant material residues to be discharged out of the mixing tank (41);

the material residue fertilizer production device (7) is used for preparing fermented plant material residues into fertilizers, the material residue fertilizer production device (7) comprises a fermentation mechanism (71), a granulation mechanism (72) and a drying mechanism (73) which are sequentially communicated, and the fermentation mechanism (71) is communicated with the mixing tank (41) through the second discharge pipe (6).

2. The plant material slag handling system of claim 1, wherein: the squeezing mechanism (12) comprises a supporting plate (121), a squeezing cylinder (122) and a squeezing plate (123), the supporting plate (121) is fixedly arranged on the inner side wall of the dewatering tank (11), the supporting plate (121) divides the inside of the dewatering tank (11) into two spaces, a filter screen (8) is arranged on the supporting plate (121), the squeezing cylinder (122) is vertically and fixedly arranged at the top of the dewatering tank (11), a piston rod of the squeezing cylinder (122) is vertically and downwardly arranged, and the squeezing plate (123) is fixedly arranged at the end part of the piston rod of the squeezing cylinder (122).

3. The plant material slag handling system of claim 2, wherein: the material pushing mechanism (13) comprises a material pushing cylinder (131) and a push plate (132), the material pushing cylinder (131) is horizontally and fixedly arranged on the side wall of the dewatering tank (11), the push plate (132) is fixedly arranged at the end part of a piston rod of the material pushing cylinder (131), and the bottom end of the push plate (132) is abutted to the upper plate surface of the support plate (121).

4. The plant material slag handling system of claim 1, wherein: rabbling mechanism (42) include driving motor (421), (mixing) shaft (422) and a plurality of stirring vane (423), driving motor (421) vertical fixed set up in the top of blending tank (41), (mixing) shaft (422) coaxial fixed connection in the output shaft of driving motor (421), a plurality of stirring vane (423) interval fixed set up in week side of (mixing) shaft (422).

5. The plant material slag processing system of claim 2, wherein: the height of the supporting plate (121) gradually decreases from the side wall of the dewatering tank (11) to the axis position direction of the dewatering tank (11) and is arranged in an inclined manner, and the filter screen (8) is arranged at the lowest point position of the supporting plate (121).

6. A plant slag handling system according to claim 3, wherein: the pressing plate (132) is provided with a tightly supporting component (9) used for tightly supporting the upper plate surface of the supporting plate (121), the tightly supporting component (9) comprises a tightly supporting plate (91) and a tightly supporting spring (92), the lower surface of the pressing plate (132) is provided with a containing groove used for containing the tightly supporting plate (91), the tightly supporting plate (91) is movably arranged at the lower end of the pressing plate (132) in a penetrating mode, one end of the tightly supporting spring (92) is fixedly arranged at the bottom of the containing groove, and the other end of the tightly supporting spring (92) is fixedly connected with the upper end of the tightly supporting plate (91).

7. The plant material slag processing system of claim 2, wherein: the first discharge pipe (3) is arranged at the position of the joint of the support plate (121) and the dewatering tank (11).

8. The plant material slag processing system of claim 1, wherein: the first discharge pipe (3) is arranged in a flared pipe shape.

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