阅读说明：本技术 一种淤泥有机肥自动处理装置的污泥回收装置 (Sludge recovery device of automatic sludge organic fertilizer treatment device ) 是由 不公告发明人 于 2020-06-27 设计创作，主要内容包括：本发明公开了一种淤泥有机肥自动处理装置的污泥回收装置,所述污泥回收装置包括有沉淀处理装置、转动底座、搅拌支架、控制底座、控制板、驱动转盘,所述沉淀处理装置上设置有一排间距均匀设置的沉淀槽,所述转动底座在所述沉淀槽内转动,所述搅拌支架设置在所述转动底座上,所述控制底座设置在所述转动底座的底部,所述转动底座上分别设置有一个沉淀孔,所述控制底座内设置有一个排泥管,所述沉淀孔分别与所述排泥管相对应连通,所述控制板在所述控制底座内滑动,所述控制板控制所述沉淀孔的连通和闭合,通过转动底座的转动,能够带动搅拌支架的转动,从而能够带动水流的选择,能够实现快速的对泥沙进行收集,从而大大的提高对污泥的收集效率。(The invention discloses a sludge recovery device of an automatic sludge organic fertilizer treatment device, which comprises a precipitation treatment device, a rotating base, stirring supports, a control base, a control panel and a driving turntable, wherein a row of precipitation tanks with uniform intervals are arranged on the precipitation treatment device, the rotating base rotates in the precipitation tanks, the stirring supports are arranged on the rotating base, the control base is arranged at the bottom of the rotating base, the rotating base is respectively provided with a precipitation hole, the control base is internally provided with a sludge discharge pipe, the precipitation holes are respectively communicated with the sludge discharge pipes correspondingly, the control panel slides in the control base, the control panel controls the communication and the closing of the precipitation holes, the rotation of the rotating base can drive the rotation of the stirring supports, so that the selection of water flow can be driven, can realize quick collection to silt to great improvement is to the collection efficiency of mud.)

1. The utility model provides a silt fertilizer automatic processing apparatus's mud recovery unit which characterized in that:

the sludge recovery device comprises a precipitation treatment device (2), a rotating base (2004), a stirring bracket (2005), a control base (21), a control panel (2101) and a driving turntable (2002), a row of sedimentation tanks (2001) which are arranged at even intervals are arranged on the sedimentation treatment device (2), the rotating base (2004) rotates in the sedimentation tank (2001), the stirring bracket (2005) is provided on the rotating base (2004), the control base (21) is arranged at the bottom of the rotating base (2004), the rotating base (2004) is respectively provided with a sedimentation hole (2017), a sludge discharge pipe (2102) is arranged in the control base (21), the sedimentation holes (2017) are respectively communicated with the sludge discharge pipe (2102) correspondingly, the control plate (2101) slides in the control base (21), and the control plate (2101) controls the communication and the closing of the precipitation hole (2017));

the driving turntable (2002) is arranged on one side of the precipitation treatment device (2), blades are arranged on the driving turntable (2002), the driving turntable (2002) is driven to rotate by the flowing of water flow, and the driving turntable (2002) drives the rotating base (2004) to synchronously rotate.

2. The sludge recycling device of the automatic sludge organic fertilizer processing device according to claim 1, which is characterized in that: a base groove (2018) is formed in the rotating base (2004), the settling holes (2017) are correspondingly communicated with the base groove (2018), two connecting chain discs (2007) are respectively arranged at the bottom of the rotating base (2004), and two adjacent connecting chain discs (2007) are correspondingly connected through a chain (2008);

the sedimentation treatment device (2) is provided with a water flowing hole (2003), the outer ring of the driving turntable (2002) is provided with a first supporting turntable (2009), the first supporting turntable (2009) is arranged in a circular ring shape, the outer ring of the first supporting turntable (2009) is provided with a first driving fluted disc (2010), a first supporting rotary groove (2011) is arranged in the water flowing hole (2003), the first supporting rotary groove (2011) is arranged in a circular ring shape, the first driving fluted disc (2010) rotates in the first supporting rotary groove (2011), a rotating first gear (2012) is arranged in the sedimentation treatment device (2), the first gear (2012) is correspondingly meshed with the first driving fluted disc (2010), a first rotating shaft (2013) is arranged on the first gear (2012), a rotating second rotating shaft (2015) is arranged in the sedimentation treatment device (2), the one end of second pivot (2015) with be provided with a corresponding first bevel gear (2014) that mesh is connected on second pivot (2015) respectively, the other end of second pivot (2015) is provided with a driving sprocket (2016), chain (2008) with the corresponding meshing of driving sprocket (2016) is connected.

3. The sludge recycling device of the automatic sludge organic fertilizer processing device according to claim 1, which is characterized in that: the rotary base (2004) is arranged in a circle, the stirring support (2005) is provided with a plurality of connecting holes (2103) corresponding to the sedimentation holes (2107) and respectively arranged on the rotary base (2004), the rotary base (2004) is in sealing connection with the control base (21), the control base (21) is respectively provided with a connecting hole (2103) corresponding to the sedimentation hole (2107), the connecting hole (2103) is respectively communicated with the sludge discharge pipe (2102), the control panel (2101) is provided with a control hole (2104) corresponding to the connecting hole (2103), the end part of the control base (21) is provided with a control module (2105), the end part of the control panel (2101) is provided with a jacking plate (2106) sliding in the control module (2105), the control module (2105) is internally provided with a first spring (2107) for jacking the jacking plate (2106), a rotating fourth rotating shaft (2109) is arranged in the control module (2105), a jacking cam (2108) is arranged on the fourth rotating shaft (2109), and the jacking cam (2108) is jacked on the jacking plate (2106).

4. An automatic sludge organic fertilizer treatment apparatus, characterized by comprising a sludge recovery apparatus of the automatic sludge organic fertilizer treatment apparatus according to any one of claims 1 to 3.

Technical Field

The invention relates to a sludge treatment device, in particular to a sludge recovery device of an automatic sludge organic fertilizer treatment device, and particularly relates to an automatic sludge organic fertilizer treatment device which can automatically precipitate and collect sludge in a river channel and can automatically convey, treat and manufacture organic fertilizers.

Background

Along with urban environment beautify further the construction of having promoted the river course, and the in-process that river water flows in the river course, because the river water can be mingled with a large amount of silt, silt can be along with the automatic sediment of the flow of river bottom to form mud, because the increase of mud can lead to the fact certain influence for the quality of water of river, consequently need carry out regularly desilting operation to the river course, the in-process of desilting can only carry out desilting operation through machinery, though can reach the purpose of desilting through machinery, but still have the following problem:

in the process of dredging, large-scale mechanical equipment needs to be utilized, so the dredging operation is time-consuming and labor-consuming, in addition, in the dredging operation, the regular dredging operation is needed, so the cost for maintaining the river channel is increased, meanwhile, in the process of dredging through the large-scale mechanical equipment, the water quality in the river channel is reduced, and the efficiency in the process of dredging through the large-scale mechanical equipment is extremely low.

Therefore, it is necessary to design a sludge recycling device of an automatic sludge organic fertilizer treatment device to solve the above technical problems.

Disclosure of Invention

Technical problem to be solved

Not enough to current problem, provide a mud recovery unit of silt fertilizer automatic processing apparatus, can make automatic the deposiing of silt to the precipitation tank in at the in-process that river rivers flowed through mud recovery unit, the rotation through the stirring support can make the quick sediment of mud to the precipitation tank in, can be with the further discharge of mud through the mud pipe to realize the collection of mud, great improvement sludge treatment's efficiency.

(II) technical scheme

The invention is realized by the following technical scheme:

a sludge recovery device of an automatic sludge organic fertilizer treatment device comprises a precipitation treatment device, a rotating base, a stirring support, a control base, a control panel and a driving turntable, wherein a row of precipitation tanks are uniformly arranged at intervals on the precipitation treatment device, the rotating base rotates in the precipitation tanks, the stirring support is arranged on the rotating base, the control base is arranged at the bottom of the rotating base, the rotating base is respectively provided with a precipitation hole, a sludge discharge pipe is arranged in the control base, the precipitation holes are respectively communicated with the sludge discharge pipe correspondingly, the control panel slides in the control base, and the control panel controls the communication and the closing of the precipitation holes;

the driving turntable is arranged on one side of the precipitation treatment device, blades are arranged on the driving turntable, the flow of water flow drives the driving turntable to rotate, and the driving turntable drives the rotating base to rotate synchronously.

Preferably, a base groove is formed in the rotating base, the precipitation holes are correspondingly communicated with the base groove, two connecting chain discs are respectively arranged at the bottom of the rotating base, and every two adjacent connecting chain discs are correspondingly connected through a chain;

the sedimentation treatment device is provided with a water flowing port, the outer ring of the driving turntable is provided with a first supporting turntable, the first supporting turntable is arranged in a circular ring shape, the outer ring of the first supporting turntable is provided with a first driving fluted disc, the water flowing port is internally provided with a first supporting rotary groove, the first supporting rotary groove is arranged in a circular ring shape, the first driving fluted disc rotates in the first supporting rotary groove, the sedimentation treatment device is internally provided with a rotating first gear, the first gear is correspondingly meshed and connected with the first driving fluted disc, the first gear is provided with a first rotating shaft, the sedimentation treatment device is internally provided with a rotating second rotating shaft, one end of the second rotating shaft and the second rotating shaft are respectively provided with a first bevel gear correspondingly meshed and connected, and the other end of the second rotating shaft is provided with a driving chain wheel, the chain is correspondingly meshed and connected with the driving chain wheel.

Preferably, the rotating base is a circular arrangement, the stirring supports are provided with a plurality of connecting holes, the connecting holes are respectively arranged on the rotating base and are respectively communicated with the sludge discharge pipe, a control opening corresponding to the connecting holes is formed in the control panel, a control module is arranged at the end of the control base, a jacking plate sliding in the control module is arranged at the end of the control panel, a first spring for biasing the jacking plate is arranged in the control module, a rotating fourth rotating shaft is arranged in the control module, a jacking cam is arranged on the fourth rotating shaft, and the jacking cam is jacked on the jacking plate.

Preferably, this application still includes a silt fertilizer automatic processing apparatus, includes a silt fertilizer automatic processing apparatus's sludge recycling device.

(III) advantageous effects

The invention provides a sludge recovery device of an automatic sludge organic fertilizer treatment device, which has the following beneficial effects:

the sedimentation treatment device is arranged at the bottom of a river channel, a large amount of silt can be mixed with water in the flowing process, sedimentation tanks which are arranged side by side are arranged on the sedimentation treatment device, a rotating base is arranged in each sedimentation tank, the rotating base can drive the stirring support to rotate, so that the sludge can be precipitated at the bottom of the sedimentation tanks in the process of stirring the water through the rotation of the stirring support, the sludge can be automatically discharged through the sludge discharge pipes, the automatic collection operation of the silt is realized, the trouble caused by mechanical treatment of the silt in the river channel can be avoided, and the maintenance cost of the river channel is further reduced;

the effect through rivers can drive the rotation of drive carousel, the rotation of drive rotation base that the rotation through the drive carousel can be further, thereby can drive the rotation of stirring support, and then drive the rotation of rivers, impurity such as silt that can make the aquatic through the rotation of rivers is quick falls into the precipitation tank in, great improvement the effect that silt deposits, thereby improve the recovery efficiency to mud, the emission of mud can be controlled through the slip of control panel simultaneously, can realize the automatic control to mud recovery.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of an automatic sludge organic fertilizer treatment device in an embodiment of the invention.

Fig. 2 is a schematic view of the overall structure of the precipitation treatment apparatus according to the embodiment of the present invention.

Fig. 3 is a schematic view of the entire structure of the rotating base according to the embodiment of the present invention.

Fig. 4 is a side view of the overall structure of the control base according to the embodiment of the present invention.

Fig. 5 is a side view of the overall structure of the driving turntable according to the embodiment of the invention.

FIG. 6 is a schematic view of the overall structure of the stirring mechanism according to the embodiment of the present invention.

Fig. 7 is a schematic view of the overall structure of a discharging module according to an embodiment of the present invention.

FIG. 8 is a side view showing the overall structure of the first crushing rotor and the second crushing rotor according to the embodiment of the present invention.

Fig. 9 is a schematic view of the entire structure of the rotating base according to the embodiment of the present invention.

In the figure: 1, a riverbed;

2, a precipitation treatment device, a 2001 precipitation tank, a 2002 driving turntable, a 2003 water flowing port, a 2004 rotating base, a 2005 stirring bracket, a 2006 connecting pipe, a 2007 connecting chain disc, a 2008 chain, a 2009 first supporting turntable, a 2010 first driving fluted disc, a 2011 first supporting rotating tank, a 2012 first gear, a 2013 first rotating shaft, a 2014 first bevel gear, a 2015 second rotating shaft, a 2016 driving chain disc, a 2017 precipitation hole and a 2018 base groove;

21 a control base, 2101 a control board, 2102 a mud discharging pipe, 2103 a communication hole, 2104 a control port, 2105 a control module, 2106 a jacking plate, 2107 a first spring, 2108 a jacking cam and 2109 a fourth rotating shaft;

3, a stirring mechanism;

31 a mud pump, 3101 an end cover, 3102 a mud discharge hole, 3103 a feeding port and 3104 a stirring tank;

32 first crushing rotary disc, 3201 second driving fluted disc, 3202 second gear, 3203 second motor and 3204 first cutter disc;

33 a second crushing rotary table, 3301 a second supporting rotary table, 3302 a second cutter disc, 3303 locking holes;

34 stirring bases, 3401 stirring rods, 3402 supporting slide holes, 3403 second supporting rotary slots, 3404 third motors, 3405 supporting slide slots, 3406 supporting bases, 3407 top pressing plates, 3408 fourth rotating shafts, 3409 rotating wheels, 3410 fourth motors, 3411 lifting slide blocks, 3412 threaded rods and 3413 threaded holes;

35 discharging modules, 3501 module slide holes, 3502 discharging pipes, 3503 communicating grooves, 3504 extrusion holes, 3505 screw, 3506 fifth motor, 3507 connecting screw.

Detailed Description

As shown in fig. 1 to 9, a sludge recycling device of an automatic sludge organic fertilizer treatment device comprises a river bed 1, wherein the river bed 1 is provided with a sludge recycling device and a sludge stirring device. Can smash the stirring with mud and leaf through mud agitating unit to the automatic collection of mud in the river course through mud recovery unit, can form the fertilizer through further fermentation after to further utilization is carried out to mud, improvement value.

The sludge recovery device comprises a precipitation treatment device 2, a rotating base 2004, a stirring bracket 2005, a control base 21, a control board 2101 and a driving turntable 2002, wherein a row of precipitation tanks 2001 which are uniformly arranged at intervals are arranged on the precipitation treatment device 2, the rotating base 2004 rotates in the precipitation tanks 2001, the stirring bracket 2005 is arranged on the rotating base 2004, the control base 21 is arranged at the bottom of the rotating base 2004, the rotating base 2004 is respectively provided with a precipitation hole 2017, the control base 21 is internally provided with a sludge discharge pipe 2102, the precipitation holes 2017 are respectively communicated with the sludge discharge pipe 2102 correspondingly, the control board 2101 slides in the control base 21, and the control board 2101 controls the communication and the closing of the precipitation holes 2017.

The sedimentation treatment device 2 is provided with a plurality of sedimentation treatment devices 2 which are arranged at the bottom of the riverbed cavity 1, the sedimentation treatment device 2 is provided with sedimentation tanks 2001 which are arranged side by side, autorotation bases 2004 are arranged in the sedimentation tanks 2001, the rotation bases 2004 are respectively provided with a sedimentation hole 2017, the rotation of the rotation bases 2004 can drive the rotation of the stirring supports 2005, the number of the stirring supports 2005 is set according to the design requirement, the stirring supports 2005 are provided with a circle, water can rotate through the rotation of the stirring supports 2005, so that sludge can be settled in the sedimentation tanks 2001 in the rotating process, the automatic collection of sludge is realized, the settlement amount of silt can be improved through the rotation of the stirring supports 20005, a sludge discharge pipe 2102 is arranged in the control base 21, the sludge in the sedimentation holes 2017 can automatically flow into the sludge discharge pipe 2102, the sludge can be further conveyed through the sludge discharge pipe 2102, a sliding control plate 2101 is arranged in the control base 21, the control plate 2101 is long, the communication and the closing of the sedimentation hole 2017 can be controlled through the sliding of the control plate 2101, and therefore the flow of the sludge can be further controlled.

The driving turntable 2002 is arranged at one side of the precipitation treatment device 2, blades are arranged on the driving turntable 2002, the driving turntable 2002 is driven by the flowing of water flow to rotate, and the driving turntable 2002 drives the rotating base 2004 to synchronously rotate.

A rotating driving turntable 2002 is arranged on one side of the sedimentation treatment device 2, the driving turntable 2002 rotates in water, the rotation of the driving turntable 2002 can be further driven through the flowing of the water, the rotation of the rotating base 2004 can be controlled through the rotation of the driving turntable 2002, so that the rotating base 2004 can be further driven to rotate through the flowing of the water, the water can be stirred and then rotates through the rotation of the stirring support 2005, and the collection efficiency of the sludge can be greatly improved. Therefore, automatic collection of the sludge is realized, and troubles caused by the collection of the sludge through mechanical equipment are avoided.

The sludge stirring device comprises a stirring mechanism 3, a stirring base 34, a stirring rod 3401, a lifting slide block 3411, a first crushing turntable 32, a second crushing turntable 33 and a discharge module 35, wherein a stirring groove 3104 is arranged in the stirring mechanism 3, the stirring mechanism 3 is also provided with an inlet 3103 which is correspondingly communicated with the stirring groove 3104, the stirring base 34 is arranged at the bottom of the stirring groove 3104 for rotation, the stirring rod 3401 is connected on the stirring base 34 in a sliding manner, the lifting slide block 3411 is arranged in the stirring mechanism 3 for sliding, the lifting slide block 3411 controls the lifting slide of the stirring rod 3401, the first crushing cutter head 32 and the second crushing cutter head 33 are arranged at the bottom of the inlet 3103 for rotation, the first crushing cutter head 32 and the second crushing cutter head 33 are clamped for rotation, and the rotation directions of the first crushing cutter head 32 and the second crushing cutter head 33 are opposite, the agitator arm 3401 drives the second shredder disk 33 to rotate.

The sludge stirring device is arranged at the top of the sludge recovery device, the sludge stirring device is arranged at the edge of a river bed 1, a stirring groove 3104 is arranged in the sludge stirring device, the stirring groove 3104 is a cavity, a rotating stirring base 34 is arranged in the stirring groove 3104, the stirring base 34 is arranged at the bottom of the stirring groove 3104, a circle of stirring rods 3401 which can slide in a telescopic way is arranged on the stirring base 34, the number of the stirring rods 3401 is set according to the design requirement, the stirring rods 3401 respectively slide on the stirring base 34 in a telescopic way, an inlet 3103 is arranged on the stirring mechanism 3, the inlet 3103 is correspondingly communicated with the stirring groove 3104, a first crushing cutter head 32 and a second crushing cutter head 33 are arranged at the position of the inlet 3103, the first crushing cutter head 32 is tightly connected with the second crushing cutter head 33, the rotating directions of the first crushing cutter head 32 and the second crushing cutter head 33 are opposite, after puddler 3401 slides the top of stirring 3104, the puddler 3401 joint is in on the blade disc 33 is smashed to the second, rotation through stirring base 34 can drive the rotation that blade disc 33 was smashed to the second, in the in-process of carrying out the leaf clearance when the trees to planting on the riverbed 1 side, put into the leaf and throw into the mouth 3103, smash the rotation of blade disc 33 through first crushing blade disc 32 and second, can smash the leaf, further carry in the stirred tank 3104, can stir mud and leaf through puddler 3401's rotation, thereby make the leaf mix in the mud.

The discharging module 35 slides in the agitating tank 3104 in a telescopic manner, a rotating screw 3505 is disposed on the discharging module 35, and a discharging pipe 3502 is disposed on the discharging module 35.

The mixture of sludge and leaves can be discharged through the discharging module 35, and the sludge can be formed into organic fertilizer after further fermentation, so that the utilization value of the sludge is greatly improved, and the sludge can be discharged through a discharging pipe 3502

A connecting pipe 2006 is connected to the sludge discharge pipe 2102, and the connecting pipe 2006 is correspondingly communicated with the stirring tank 3104.

The collected sludge can be conveyed into the connecting pipe 2006 through the sludge discharge pipe 2102, and further conveyed into the stirring tank 3104 through the connecting pipe 2006, so that the sludge can be automatically conveyed, and the sludge can be further conveniently collected and treated.

As shown in fig. 1, a base groove 2018 is formed in the rotating base 2004, the depositing holes 2017 are correspondingly communicated with the base groove 2018, two connecting chain trays 2007 are respectively arranged at the bottom of the rotating base 2004, and two adjacent connecting chain trays 2007 are correspondingly connected through a chain 2008.

A base groove 2018 is formed in the rotary base 2004, the settling hole 2017 is correspondingly communicated with the base groove 2018, the base groove 2018 is a groove which is arranged in a conical shape, when the rotary base 2004 rotates, sludge can be settled in the base groove 2018, two connecting chain plates 2007 are respectively arranged at the bottom of the rotary base 2004, the rotary bases 2004 are arranged side by side in a corresponding mode, and the two adjacent connecting chain plates 2007 are correspondingly connected through a chain 2008, so that the rotary bases 2004 can rotate synchronously.

As shown in fig. 2, 3 and 5, a water flowing port 2003 is provided on the precipitation processing device 2, a first supporting turntable 2009 is provided on an outer ring of the driving turntable 2002, the first supporting turntable 2009 is disposed in a ring shape, a first driving fluted disc 2010 is provided on an outer ring of the first supporting turntable 2009, a first supporting rotating groove 2011 is provided in the water flowing port 2003, the first supporting rotating groove 2011 is disposed in a ring shape, the first driving fluted disc 2010 rotates in the first supporting rotating groove 2011, a rotating first gear 2012 is provided in the precipitation processing device 2, the first gear 2012 is correspondingly engaged with the first driving fluted disc 2010, a first rotating shaft 2013 is provided on the first gear 2012, a rotating second rotating shaft 2015 is provided in the precipitation processing device 2, a first bevel gear 2014 correspondingly engaged with the second rotating shaft 2013 is provided on one end of the second rotating shaft 2015 and a first bevel gear 2014 correspondingly engaged with the second rotating shaft 2013, the other end of the second shaft 2015 is provided with a driving sprocket 2016, and the chain 2008 is correspondingly meshed with the driving sprocket 2016.

A water flowing port 2003 is arranged on the precipitation treatment device 2, the water flowing port 2003 is a through port, the water flowing port 2003 is arranged on one side of the precipitation treatment device 2, the driving turntable 2002 rotates in the water flowing port 2003, when water in a river channel flows, the water flow can further push the driving turntable 2002 to rotate under the action of the water flow, blades are arranged on the driving turntable 2002, the supporting turntable 2009 can support the driving turntable 2002 by driving the supporting turntable 2009 to rotate at the same time through the rotation of the driving turntable 2002, the driving turntable 2010 and the first gear 2012 are correspondingly meshed and connected through the further driving of the supporting turntable 2009, so as to further drive the second rotating shaft 2015 to rotate, a first bevel gear 2014 correspondingly meshed and connected is respectively arranged on the first rotating shaft 2013 and the second rotating shaft 2015, so as to drive the second rotating shaft 2015 to rotate, a driving sprocket 2016 is provided on the second shaft 2015, and the chain 2008 is provided on the driving sprocket 2016, so that the synchronous rotation of the rotating base 2004 can be driven.

As shown in fig. 2, 4 and 9, the rotating base 2004 is arranged in a circle, the plurality of stirring supports 2005 are respectively arranged on the rotating base 2004, the rotating base 2004 is connected with the control base 21 in a sealing manner, the control base 21 is respectively provided with a communication hole 2103 corresponding to the settling hole 2107, the communication holes 2103 are respectively communicated with the mud discharging pipes 2102, the control board 2101 is provided with a control port 2104 corresponding to the communication hole 2103, the end of the control base 21 is provided with a control module 2105, the end of the control board 2101 is provided with a top pressure plate 2106 sliding in the control module 2105, the control module 2105 is provided with a first spring 2107 for pressing the top pressure plate 2106, the control module 2105 is provided with a rotating fourth rotating shaft 9, the fourth rotating shaft 2109 is provided with a top pressure cam 2108, the pressing cam 2108 presses against the pressing plate 2106.

The rotating bases 2004 are arranged in a circular shape, the number of the stirring supports 2005 is set according to the design requirement, the stirring supports 2005 are respectively arranged on the outer rings of the rotating bases 2004, the rotating bases 2004 and the control bases 21 are in sealed connection, the control bases 21 are provided with communication holes 2103 arranged side by side, the communication holes 2103 are correspondingly communicated with the settling holes 2107, the communication holes 2103 are respectively correspondingly communicated with the mud discharging pipes 2102, the control panel 2101 is provided with a control port 2104, the position of the control port 2104 corresponds to the communication holes 2013, when the control panel 2101 slides, the communication and the closing of the communication holes 2013 and the settling holes 2107 can be further controlled through the control port, a control module 2105 is arranged at the end of the control base 21, a jacking plate 2106 is arranged at the end of the control panel 2101, the jacking plate 2106 slides in the hole module 2105, a rotating fourth rotating shaft 2109 is arranged in the control module 2105, through the rotation of the drive roof pressure cam 2108 that motor drive fourth pivot 2109 can be further, can carry out the roof pressure to roof pressure board 2106 through the rotation of roof pressure cam 2108, suppress roof pressure board 2106 through first spring 2107 simultaneously to can control the slip of control panel 2101, and then control the mud emission of sedimentation hole 2107 and control, great improvement the efficiency of the collection of mud.

As shown in fig. 6, a ring of supporting slide holes 3402 is formed on the stirring base 34, the stirring rods 3401 slide in the supporting slide holes 3402, and a third motor 3410 for driving the stirring base 34 to rotate is disposed in the stirring mechanism 3.

The rotation of the third motor 3410 drives the stirring base 34 to rotate, a circle of supporting slide holes 3402 is arranged on the stirring base 34, and the stirring rod 3401 slides up and down in the supporting slide holes 3402.

Be provided with a second in the rabbling mechanism 3 and support the rotary trough 3403, the second supports the rotary trough 3403 and is the ring form setting, it is provided with a gliding roof pressure dish 3407 in the second supports the rotary trough 3403, the roof pressure dish 3407 is the ring form setting, the tip of puddler 3401 is provided with one respectively and is in gliding support base 3406 in the second rotary trough 3403, be provided with a fourth pivot 3408 on the support base 3406 respectively, be provided with a pivoted runner 3409 on the fourth pivot 3408 respectively, runner 3409 is respectively in rotate on the roof pressure dish 3407.

The stirring mechanism 3 is internally provided with a second supporting rotary groove 3403, the second supporting rotary groove 3403 is arranged in a circular ring shape, a sliding jacking plate 3407 is arranged in the second supporting rotary groove 3403, the jacking plate 3407 is arranged in a circular ring shape, the end parts of the stirring rods 3401 are respectively provided with a supporting base 3406, the supporting bases 3406 are respectively arranged in the second supporting rotary groove 3403 in a sliding manner, the supporting bases 3401 are respectively provided with a fourth rotating shaft 3408, the fourth rotating shafts 3408 are respectively provided with a rotating runner 3409, the rotating runners 3409 are respectively arranged on the jacking plate 3407 in a rotating manner, the rotating base 34 is rotated, the stirring rods 3401 can be further driven to rotate, when the jacking plate 3407 goes up and down, the supporting base 3406 can be further jacked up and down, and the lifting of the stirring rods 3401 is controlled.

Be provided with one in the rabbling mechanism 3 and support spout 3405, support spout 3405 with the corresponding intercommunication of second support rotary trough 3403, be provided with one gliding lifting slide block 3411 from top to bottom in the support spout 3405, lifting slide block 3411's both ends roof pressure respectively is in on the top pressure dish 3407, be provided with one in the rabbling mechanism 3 support the threaded rod 3412 of spout 3405 internal rotation, be provided with one on the lifting slide block 3411 with the corresponding meshing threaded hole 3413 of being connected of threaded rod 3412, be provided with a drive in the rabbling mechanism 3 threaded rod 3412 pivoted third motor 3404.

Be provided with one in rabbling mechanism 3 and support spout 3405, be provided with a gliding lifting slide 3411 that goes up and down in supporting spout 3405, the rotation that can further drive threaded rod 3412 through third motor 3404, threaded rod 3412 and corresponding meshing of screw hole 3411 are connected to control that can be further the lifting slide of lifting slide 3411, the lifting slide that can further drive top pressure dish 3407 through lifting slide 3411 to the lift of control puddler 3401, and then the stirring to the mud is controlled.

As shown in fig. 6, the second grinding turntable 33 is provided with a second supporting turntable 3301, the stirring mechanism 3 is provided with a supporting rotary trough for the second supporting turntable 3301 to rotate, the bottom of the second grinding cutter 33 is provided with a plurality of locking holes 3303, and the stirring rod 3401 slides telescopically to be clamped in the locking holes 3303.

Through puddler 3401's lifting and sliding, puddler 3401 joint is in after in the locking hole 3303, the rotation that can drive the second through puddler 3401 smashes carousel 33, and then drives the rotation that the blade disc 33 was smashed to the second.

As shown in fig. 6 and 8, a second driving gear 3201 is disposed on the outer ring of the first crushing rotating disc 32, a second gear 3202 driven by a second motor 3203 is disposed in the stirring mechanism 3, the second gear 3202 and the second driving gear 3201 are correspondingly meshed and connected, a first cutter 3204 is disposed on the first crushing rotating disc 32, a second cutter 3302 is disposed on the second crushing rotating disc 33, and a 2mm gap is formed between the first cutter 3204 and the second cutter 3302.

Rotation through second motor 3203 can gain the rotation of second gear 3202, second gear 3202 with the corresponding meshing connection of second drive fluted disc 3201, thereby can drive the rotation of first crushing carousel 32, the clearance that has 2 millimeters between first cutterhead 3204 and the second cutterhead 3302, thereby can be at the rotation of first cutterhead 3204 and second cutterhead 3302, can cut the leaf, because trees can be planted in the both sides of riverbed 1, it cleans the leaf to need the cleanup crew, can drop into rabbling mechanism 3 with the leaf that cleans at the in-process that cleans, thereby smash through first cutterhead 3204 and second cutterhead 3302, stir to in the mud, thereby can wait to form the fertilizer after the fermentation in later stage, thereby great improvement is worth to the utilization of mud.

As shown in fig. 6 and 7, a module sliding hole 3501 is formed in the stirring mechanism 3, the discharging module 35 slides in the module sliding hole 3501, an extruding hole 3504 is formed in the discharging module 35, the screw 3505 rotates in the extruding hole 3504, a communicating groove 3503 correspondingly communicated with the extruding hole 3504 is formed in the discharging module 35, a fifth motor 3506 is formed in the discharging module 35, the fifth motor 3506 drives the screw 3505 to rotate, a connecting screw 3507 rotating on itself is formed in the discharging module 35, a threaded hole correspondingly engaged with the connecting screw 3507 is formed in the stirring mechanism 3, and the discharging pipe 3502 is correspondingly communicated with the extruding hole 3504.

A module sliding hole 3501 is formed in the stirring mechanism 3, the module sliding hole 3501 is correspondingly communicated with the stirring groove 3104, the discharging module 35 slides in the module sliding hole 3501, the module sliding hole 3501 and the discharging module 35 are respectively arranged in a square shape, an extruding hole 3504 is formed in the discharging module 35, the screw 3505 is driven to rotate through the rotation of a fifth motor 3506, a communicating groove 3503 is formed in the end portion of the discharging module 35, and after the discharging module 35 extends into the stirring groove 3104, sludge can be further conveyed through the rotation of the screw 3505, so that the sludge can be discharged through the discharging pipe 3502, the sludge can be conveniently collected and treated, and further fermentation can be carried out;

through the lift slip of roof pressure dish 3407, the lift of control puddler 3401 that can be further to can avoid arranging material module 35 and stretch into behind the stirred tank 3104 with the collision that puddler 3401 takes place, after connecting on rabbling mechanism 3 through connecting bolt 3507 simultaneously, can support fixedly row material module 35.

As shown in fig. 6, the stirring mechanism 3 is provided with a sludge discharge hole 3102 correspondingly communicated with the stirring tank 3104, and the stirring mechanism 3 is provided with a sludge pump 31 correspondingly communicated with the sludge discharge hole 3102.

After the connecting pipe 2006 is connected to the sludge discharge pipe 2102, the sludge can be further conveyed into the sludge pump 31, the sludge can be further pumped into the stirring tank 3104 through the sludge pump 31, so that automatic control is realized, the sludge treatment efficiency is greatly improved, the stirring mechanism 3 is provided with an end cover 3101, and the stirring tank 3104 can be sealed through the end cover 3101.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.