CN115521037A

CN115521037A - Deep sludge dewatering system

Info

Publication number: CN115521037A
Application number: CN202211197177.6A
Authority: CN
Inventors: 丁祥; 花成巍; 伍明
Original assignee: Jiangsu Kangtai Environmental Protection Co ltd
Current assignee: Jiangsu Kangtai Environmental Protection Co ltd
Priority date: 2022-09-29
Filing date: 2022-09-29
Publication date: 2022-12-27

Abstract

The invention belongs to the technical field of sludge deep dehydration equipment, and particularly relates to a sludge deep dehydration system which can solve the technical problem that automatic discharge of sewage cannot be realized.

Description

Deep sludge dewatering system

Technical Field

The invention belongs to the technical field of sludge deep dehydration equipment, and particularly relates to a sludge deep dehydration system.

Background

With the development of social economy, about 2200 urban sewage treatment plants in China currently have the potential of continuous and rapid increase of sludge yield with the acceleration of the urbanization process in China. According to incomplete statistics, the wet sludge with water content of 80% is produced by 3000 million tons each year in China, and is increased by about 10% year by year.

For a long time, the tendency of 'heavy water and light mud' generally exists in China from design to operation in sewage treatment plants. The effluent quality of the sewage treatment plant reaches the standard, but the sludge treatment is basically in a slow development state. To solve the problem of sludge treatment and disposal, the basic concept of sludge treatment and disposal must be strengthened. The sludge treatment is to make the primary sludge saturated with water reach a stable state through concentration, dehydration and subsequent biological activation treatment. Sludge disposal is the final treatment performed after sludge reduction and stabilization treatment.

The sewage plants in cities and towns of China generally adopt a mechanical mode to dehydrate sludge, the water content of the dehydrated sludge is generally 75-85%, and the dehydrated sludge is in a colloid bonding state. The sludge has the characteristics of four high: firstly, the water content is high; secondly, the organic matter content is high, and the organic matter is easy to rot and stink; thirdly, the heavy metal content is higher; fourthly, the content of pathogenic bacteria is high, and a large amount of bacteria, parasites and viruses are contained. Sludge is not subjected to harmless treatment, is discarded at will, is simply buried, is easy to pollute air, soil and water sources, seriously threatens human health and environmental safety, and has the name of 'environmental killer', so that many countries in the world consider sludge as 'dangerous goods', and treat sludge after deep pollution, thereby paying higher cost

For example, patent publication No. CN202120501822.3 is a sludge deep dehydration treatment device, including likepowder curing agent feed bin, sludge modification mixing machine, sludge deep dehydration machine, dry mud belt conveyor, shaftless screw conveyer and liquid modifier throwing device, likepowder curing agent feed bin is close to the bottom position and installs the slope conveying screw from bottom to top slope, has connect sludge modification mixing machine through the intermediate strut pipeline in the right-hand member bottom of slope conveying screw, connects at the bottom of sludge modification mixing machine and installs sludge deep dehydration machine, is close to the bottom position at the right-hand member face of sludge deep dehydration machine and installs dry mud belt conveyor, but this technical scheme's shortcoming is that the realization is got rid of the automation of sewage by no means.

Disclosure of Invention

The invention aims to provide a deep sludge dewatering system to solve the technical problem that automatic sewage discharge cannot be realized.

In order to realize the purpose, the specific technical scheme of the sludge deep dehydration system is as follows:

the utility model provides a mud degree of depth dewatering system, includes frame subassembly, power component, pan feeding subassembly, turnover drum assembly, drainage subassembly, row's mud subassembly and spiral leaf subassembly, the frame subassembly is connected with power component, and power component is connected with the pan feeding subassembly, and the pan feeding subassembly is connected with turnover drum assembly, and turnover drum assembly is connected with drainage subassembly, and turnover drum assembly is connected with row's mud subassembly, and spiral leaf subassembly one end is connected on row's mud subassembly, and the spiral leaf subassembly other end is connected on power component.

Further, the rack assembly comprises a rack body, a first execution motor, a first belt wheel rotating shaft, a first belt wheel, a first transmission belt, a second belt wheel rotating shaft, a chain wheel, a first epicyclic fixing seat, a first epicyclic wheel, a first support, a second support and a third support, wherein the first execution motor is installed on the rack body, the first belt wheel rotating shaft is installed on the output shaft of the first execution motor, the first belt wheel rotating shaft is rotatably installed on the rack body, the first belt wheel is fixedly installed on the first belt wheel rotating shaft, one end of the first transmission belt is connected on the first belt wheel, the other end of the first transmission belt is connected on the second belt wheel, the second belt wheel is fixedly installed on the second belt wheel rotating shaft, the second belt wheel rotating shaft is installed on the rack body, the chain wheel is fixedly installed on the second belt wheel rotating shaft, the first epicyclic fixing seat is fixedly installed on the rack body, the second support is fixedly installed on the rack body, and the third support is fixedly installed on the second support.

Further, the power assembly comprises a power bottom plate, a base, a second executing motor, a rotating shaft, a driving column, a first clutch disc, a second clutch disc, a clutch sliding rod, a first clutch sliding rod push spring, a first connecting support and a second connecting support, wherein the base is installed on the power bottom plate, the second executing motor is installed on the base, an output shaft of the second executing motor is installed on the rotating shaft, the driving column is rotatably installed on the first connecting support, the first connecting support is fixedly installed on the power bottom plate, the driving column is fixedly connected with the first clutch disc, the first clutch disc is in meshing transmission with the second clutch disc, the second clutch disc is slidably installed on the clutch sliding rod, the clutch sliding rod is rotatably installed on the second connecting support, the second connecting support is fixedly installed on the power bottom plate, the clutch sliding rod is fixedly connected with the rotating shaft, the clutch sliding rod push spring is sleeved on the clutch sliding rod, the clutch sliding rod push spring is arranged between the clutch sliding rod and the second clutch disc, and the power bottom plate is slidably installed on the third support.

Further, the pan feeding subassembly includes pan feeding installation sleeve pipe, pan feeding sleeve pipe, mounting panel one and inner slide, fixed mounting has the pan feeding sleeve pipe on the pan feeding installation sleeve pipe, and mounting panel one is installed on pan feeding installation sleeve pipe, and inner slide fixed mounting is on pan feeding installation sleeve pipe, and mounting panel one fixed mounting is on the power bottom plate.

Further, turnover cylinder subassembly includes cylinder body, cooperation ring, dehydration opening and turnover drive chain, fixed mounting has cooperation ring and turnover drive chain on the cylinder body, cooperation ring and the cooperation of turnover wheel cylinder, and turnover drive chain and sprocket cooperation transmission, the dehydration opening is opened on the cylinder body to the dehydration opening is provided with a plurality ofly, cylinder body and pan feeding installation sleeve pipe normal running fit.

Further, a plurality of the dehydration openings are axially arrayed along the central axis of the roller body.

Further, the drainage assembly comprises a drainage fixing sleeve, an installation boss, a drainage pipe, a connecting plate, a middle-end sliding column, a sliding column connecting rod, a water outlet pipe, an inner bearing plate, a first connecting pipe, a second connecting pipe, a first inner spring and a second inner spring, the drainage fixing sleeve is provided with the drainage pipe, the drainage pipe is provided with the installation boss, the connecting plate is fixedly installed on the drainage pipe, the water outlet pipe is installed at one end of the drainage pipe, the second connecting pipe is fixedly installed at the other end of the drainage pipe, the first connecting pipe is slidably installed on the second connecting pipe, the first connecting pipe is fixedly installed on the inner bearing plate, the inner bearing plate is slidably installed on the drainage pipe, the first inner spring is arranged between the first connecting pipe and the second connecting pipe, one end of the middle-end sliding column is fixedly installed on the inner bearing plate, the other end of the middle-end sliding column is fixedly installed on the sliding column connecting rod, the middle-end sliding column is connected with the drainage pipe in a sliding fit mode, the inner spring is sleeved on the middle-end sliding column, the inner spring is arranged between the inner bearing plate and the drainage boss is installed on the rack body, and the drainage fixing sleeve is rotatably matched with the roller body.

Further, arrange the mud subassembly including row's mud sleeve pipe, mud mouth and firing equipment, row's mud sleeve pipe fixed mounting is on support one, and the mud mouth sets up on row's mud sleeve pipe to mud mouth and row's mud sleeve pipe intercommunication, firing equipment install at row's mud sleeve pipe.

Further, the spiral leaf subassembly includes spiral leaf pivot, spiral leaf and feeding awl, fixed mounting has spiral leaf and feeding awl simultaneously in the spiral leaf pivot, and the spiral leaf pivot is rotated and is installed on row's mud sleeve pipe, and drive column and feeding awl fixed connection, spiral leaf pivot, spiral leaf and feeding awl are arranged in the cylinder body simultaneously.

Further, if the direction of the turnover of the driving column driving spiral blade is the same as the direction of the turnover of the chain wheel driving roller body, the turnover speed of the spiral blade and the turnover speed of the roller body have a differential speed, and if the direction of the turnover of the driving column driving spiral blade is different from the direction of the turnover of the chain wheel driving roller body, the turnover speed of the spiral blade and the turnover speed of the roller body have no requirement.

The invention has the advantages that:

1. starting an execution motor I, driving a belt wheel rotating shaft I to rotate through the execution motor I, driving a belt wheel I to rotate through the belt wheel rotating shaft I, driving a transmission belt I to move through the belt wheel I, driving a belt wheel rotating shaft II to rotate through a belt wheel II, driving a chain wheel to rotate through the belt wheel rotating shaft II, and realizing power output through the chain wheel;

2. starting the second executing motor, driving the rotating shaft to rotate through the second executing motor, driving the second clutch disc to rotate through the clutch sliding rod, driving the driving column to rotate through the meshing transmission between the second clutch disc and the first clutch disc, and outputting power through the driving column; meanwhile, the first clutch disc and the second clutch disc are tightly meshed together under the elastic force action of the pushing spring of the clutch slide rod;

3. sludge needing deep dehydration is conveniently added into the feeding installation sleeve through the feeding sleeve; meanwhile, the splashing of sludge needing deep dehydration can be prevented through the inner end sliding plate;

4. the chain wheel rotates and simultaneously drives the turnover driving chain to move, the turnover driving chain drives the roller body to move in a turnover manner, and simultaneously, water in sludge is discharged through the dewatering opening due to centrifugal force generated by the turnover movement of the roller body;

5. sewage in the sludge discharged through the dewatering opening formed in the roller body falls onto the drainage fixing sleeve and then into the drainage pipe, and along with the accumulation of the sewage, the inner end bearing plate overcomes the elasticity of the inner end spring II and drives the sliding column connecting rod to move downwards through the middle end sliding column under the action of the gravity of the sewage, so that the sliding column connecting rod is separated from the water outlet pipe, and the sewage is automatically discharged through the water outlet pipe; meanwhile, the inner end bearing plate needs to overcome the elasticity of the inner end spring II, so that enough sewage needs to be accumulated on the inner end bearing plate, and the sliding column connecting rod does not need to be triggered frequently to be separated from the water outlet pipe for drainage;

6. the sludge after dehydration can be heated through the heating equipment, so that the moisture in the sludge is further diffused;

7. the feeding cone is driven to rotate by the driving column, the spiral blade is driven to perform turnover motion by the spiral blade rotating shaft, and sewage in sludge is discharged through the dewatering opening under the action of the turnover force of the spiral blade; meanwhile, under the action of the axial screw of the spiral blade, the dewatered sludge is discharged through a sludge discharge port;

8. if the direction of the driving column driving spiral blade turnover is the same as the direction of the sprocket driving roller body turnover, the turnover speed of the spiral blade and the turnover speed of the roller body have differential speed, and if the direction of the driving column driving spiral blade turnover is different from the direction of the sprocket driving roller body turnover, the turnover speed of the spiral blade and the turnover speed of the roller body have no requirement.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the position of the section line of FIG. 1;

FIG. 3 isbase:Sub>A cross-sectional view taken along section A-A of FIG. 2;

FIG. 4 is a schematic view of the construction of the rack assembly of the present invention;

FIG. 5 is a schematic view of the section line of FIG. 4;

FIG. 6 is a cross-sectional view taken along section B-B of FIG. 5;

FIG. 7 is a schematic view of the power assembly of the present invention;

FIG. 8 is a schematic view of the position of the section line of FIG. 7;

FIG. 9 is a cross-sectional view taken along section C-C of FIG. 8;

FIG. 10 is a schematic view of a feeding assembly according to the present invention;

FIG. 11 is a schematic view of the cross-sectional line position of FIG. 10;

FIG. 12 is a cross-sectional view taken along section D-D of FIG. 11;

figure 13 is a schematic view of a rotatable drum assembly according to the present invention;

FIG. 14 is a schematic view of the position of the section line of FIG. 13;

FIG. 15 is a cross-sectional view taken along section E-E of FIG. 14;

FIG. 16 is a schematic view of the drain assembly of the present invention;

FIG. 17 is a schematic view of the section line position of FIG. 16;

FIG. 18 is a cross-sectional view taken along section F-F of FIG. 17;

FIG. 19 is a schematic structural view of a sludge discharge assembly of the present invention;

FIG. 20 is a schematic view of a spiral vane assembly of the present invention;

FIG. 21 is a schematic view of the section line position of FIG. 20;

FIG. 22 is a cross-sectional view taken along section G-G of FIG. 21;

the notation in the figure is:

a rack assembly 1; a rack body 1-1; executing a first motor 1-2; 1-3 of a belt wheel rotating shaft; 1-4 of a belt wheel I; 1-5 parts of a first transmission belt; 1-6 of a second belt wheel; a second belt wheel rotating shaft 1-7; 1-8 of chain wheel; a fixed base of the epicyclic 1-9; 1-10 parts of epicyclic wheel; 1-11 parts of a first bracket; 1-12 parts of a second bracket; 1-13 parts of a bracket III; a power assembly 2; a power bottom plate 2-1; 2-2 of a base; 2-3 of an execution motor II; 2-4 of a rotating shaft; 2-5 of a driving column; 2-6 parts of a clutch disc I; 2-7 parts of a clutch disc II; 2-8 of a clutch slide bar; a clutch slide rod push spring 2-9; connecting the first bracket 2-10; connecting a second bracket 2-11; a feeding assembly 3; feeding and installing a sleeve 3-1; feeding a sleeve 3-2; mounting plate one 3-3; 3-4 of inner end sliding plates; a turnaround drum assembly 4; a roller body 4-1; 4-2 of a matching ring; 4-3 of a dehydration opening; 4-4 of a turnover driving chain; a drainage assembly 5; 5-1 of a drainage fixing sleeve; mounting a boss 5-2; 5-3 of a drain pipe; 5-4 of a connecting plate; 5-5 of middle sliding column; 5-6 of a sliding column connecting rod; 5-7 of a water outlet pipe; inner end bearing plates 5-8; 5-9 parts of a connecting pipe I; 5-10 parts of a connecting pipe II; the inner end of the spring I is 5-11; a second inner end spring 5-12; a sludge discharge assembly 6; 6-1 of a sludge discharge sleeve; 6-2 of a sludge discharge port; 6-3 of heating equipment; a helical blade assembly 7; 7-1 of a spiral blade rotating shaft; 7-2 parts of spiral leaves; and 7-3 of a feeding cone.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Example 1

As shown in fig. 1-3, a sludge deep dehydration system comprises a frame component 1, a power component 2, a feeding component 3, a turnover roller component 4, a drainage component 5, a sludge discharge component 6 and a spiral blade component 7, wherein the frame component 1 is connected with the power component 2, the power component 2 is connected with the feeding component 3, the feeding component 3 is connected with the turnover roller component 4, the turnover roller component 4 is connected with the drainage component 5, the turnover roller component 4 is connected with the sludge discharge component 6, one end of the spiral blade component 7 is connected to the sludge discharge component 6, and the other end of the spiral blade component 7 is connected to the power component 2.

Example 2

As shown in fig. 4-6, the rack assembly 1 includes a rack body 1-1, a first actuator motor 1-2, a first pulley rotating shaft 1-3, a first pulley 1-4, a first transmission belt 1-5, a second pulley 1-6, a second pulley rotating shaft 1-7, a chain wheel 1-8, a fixed pulley wheel seat 1-9, a first pulley wheel 1-10, a first support 1-11, a second support 1-12 and a third support 1-13, the first actuator motor 1-2 is installed on the rack body 1-1, the first pulley rotating shaft 1-3 is installed on an output shaft of the first actuator motor 1-2, the first pulley rotating shaft 1-3 is installed on the rack body 1-1 in a rotating manner, the first pulley 1-4 is fixedly installed on the first pulley rotating shaft 1-3, one end of a transmission belt I1-5 is connected to a belt wheel I1-4, the other end of the transmission belt I1-5 is connected to a belt wheel II 1-6, the belt wheel II 1-6 is fixedly arranged on a belt wheel rotating shaft II 1-7, the belt wheel rotating shaft II 1-7 is rotatably arranged on a rack body 1-1, a chain wheel 1-8 is fixedly arranged on the belt wheel rotating shaft II 1-7, a epicyclic wheel fixing seat 1-9 is fixedly arranged on the rack body 1-1, an epicyclic wheel 1-10 is rotatably arranged on the epicyclic wheel fixing seat 1-9, a support I1-11 is fixedly arranged on the rack body 1-1, a support II 1-12 is fixedly arranged on the rack body 1-1, a support III 1-13 is fixedly arranged on the support II 1-12, and the execution motor I1-2 is started, the first belt wheel rotating shaft 1-3 is driven to rotate through the first actuating motor 1-2, the first belt wheel 1-4 is driven to rotate through the first belt wheel rotating shaft 1-3, the first transmission belt 1-5 is driven to move through the first belt wheel 1-4, the second belt wheel rotating shaft 1-7 is driven to rotate through the second belt wheel 1-6, the second belt wheel rotating shaft 1-7 drives the chain wheel 1-8 to rotate, and power output is achieved through the chain wheel 1-8.

Example 3

As shown in the figures 7-9, the power assembly 2 comprises a power bottom plate 2-1, a base 2-2, a second actuating motor 2-3, a rotating shaft 2-4, a driving column 2-5, a first clutch disc 2-6, a second clutch disc 2-7, a second clutch slide rod 2-8, a second clutch slide rod push spring 2-9, a first connecting support 2-10 and a second connecting support 2-11, wherein the base 2-2 is installed on the power bottom plate 2-1, the second actuating motor 2-3 is installed on the base 2-2, an output shaft of the second actuating motor 2-3 is installed on the rotating shaft 2-4, the driving column 2-5 is rotatably installed on the first connecting support 2-10, the first connecting support 2-10 is fixedly installed on the power bottom plate 2-1, and the driving column 2-5 is fixedly connected with the first clutch disc 2-6, the clutch disc I2-6 is in meshed transmission with the clutch disc II 2-7, the clutch disc II 2-7 is slidably mounted on a clutch slide bar 2-8, the clutch slide bar 2-8 is rotatably mounted on a connecting support II 2-11, the connecting support II 2-11 is fixedly mounted on a power bottom plate 2-1, the clutch slide bar 2-8 is fixedly connected with a rotating shaft 2-4, a clutch slide bar push spring 2-9 is sleeved on the clutch slide bar 2-8, the clutch slide bar push spring 2-9 is arranged between the clutch slide bar 2-8 and the clutch disc II 2-7, the power bottom plate 2-1 is slidably mounted on a support III 1-13, the actuating motor II 2-3 is started, and the rotating shaft 2-4 is driven to rotate by the actuating motor II 2-3, the clutch slide rod 2-8 drives the clutch disc II 2-7 to rotate, and the clutch disc II 2-7 and the clutch disc I2-6 are meshed for transmission to drive the driving column 2-5 to rotate, so that power output is performed through the driving column 2-5; meanwhile, the first clutch discs 2-6 and the second clutch discs 2-7 are tightly meshed together under the elastic force of the pushing springs 2-9 of the clutch slide rod.

Example 4

As shown in fig. 10-12, the feeding assembly 3 comprises a feeding mounting sleeve 3-1, a feeding sleeve 3-2, a mounting plate one 3-3 and an inner end sliding plate 3-4, the feeding mounting sleeve 3-1 is fixedly mounted with the feeding sleeve 3-2, the mounting plate one 3-3 is mounted on the feeding mounting sleeve 3-1, the inner end sliding plate 3-4 is fixedly mounted on the feeding mounting sleeve 3-1, and the mounting plate one 3-3 is fixedly mounted on the power bottom plate 2-1, so that sludge to be deeply dewatered can be conveniently added into the feeding mounting sleeve 3-1 through the feeding sleeve 3-2; meanwhile, the inner end sliding plates 3-4 can prevent the sludge needing deep dehydration from splashing.

Example 5

As shown in fig. 13-15, the revolving roller assembly 4 comprises a roller body 4-1, a matching ring 4-2, a dewatering opening 4-3 and a revolving driving chain 4-4, the roller body 4-1 is fixedly provided with the matching ring 4-2 and the revolving driving chain 4-4, the matching ring 4-2 is matched with the revolving wheel 1-10, the revolving driving chain 4-4 is in matching transmission with a chain wheel 1-8, the dewatering opening 4-3 is arranged on the roller body 4-1, a plurality of the dewatering openings 4-3 are arranged, the roller body 4-1 is in rotating matching with the feeding mounting sleeve 3-1, and the arrangement is that the chain wheel 1-8 rotates and simultaneously drives the revolving driving chain 4-4 to move and the roller body 4-1 to move through the revolving driving chain 4-4, and the centrifugal force generated by the revolving movement of the roller body 4-1 makes the water in the sludge be discharged through the dewatering opening 4-3.

Wherein, a plurality of dewatering openings 4-3 are axially arrayed along the central axis of the roller body 4-1.

Example 6

As shown in fig. 16-18, the drainage assembly 5 comprises a drainage fixing sleeve 5-1, a mounting boss 5-2, a drainage pipe 5-3, a connecting plate 5-4, a middle sliding column 5-5, a sliding column connecting rod 5-6, a water outlet pipe 5-7, an inner end bearing plate 5-8, a connecting pipe I5-9, a connecting pipe II 5-10, an inner end spring I5-11 and an inner end spring II 5-12, wherein the drainage fixing sleeve 5-1 is provided with the drainage pipe 5-3, the drainage pipe 5-3 is provided with the mounting boss 5-2, the connecting plate 5-4 is fixedly mounted on the drainage pipe 5-3, one end of the drainage pipe 5-3 is provided with the water outlet pipe 5-7, and the other end of the drainage pipe 5-3 is fixedly provided with the connecting pipe II 5-10, the connecting pipe I5-9 is slidably mounted on the connecting pipe II 5-10, the connecting pipe I5-9 is fixedly mounted on the inner end bearing plate 5-8, the inner end bearing plate 5-8 is slidably mounted on the drain pipe 5-3, an inner end spring I5-11 is arranged between the connecting pipe I5-9 and the connecting pipe II 5-10, one end of the middle end sliding column 5-5 is fixedly mounted on the inner end bearing plate 5-8, the other end of the middle end sliding column 5-5 is fixedly mounted on the sliding column connecting rod 5-6, the middle end sliding column 5-5 is connected with the drain pipe 5-3 in a sliding fit manner, the inner end spring II 5-12 is sleeved on the middle end sliding column 5-5, the inner end spring II 5-12 is arranged between the inner end bearing plate 5-8 and the drain pipe 5-3, the mounting boss 5-2 is mounted on the rack body 1-1, the drainage fixing sleeve 5-1 is in running fit with the roller body 4-1, and is arranged in such a way that sewage in sludge discharged through a dewatering opening 4-3 formed in the roller body 4-1 falls onto the drainage fixing sleeve 5-1 and then into a drainage pipe 5-3, and as the sewage accumulates, under the action of the gravity of the sewage, the inner end bearing plate 5-8 overcomes the elasticity of the inner end spring II 5-12 and drives the sliding column connecting rod 5-6 to move downwards through the middle end sliding column 5-5, so that the sliding column connecting rod 5-6 is separated from the water outlet pipe 5-7, and the sewage is automatically discharged through the water outlet pipe 5-7; meanwhile, the inner end bearing plate 5-8 needs to overcome the elasticity of the inner end spring II 5-12, and further enough sewage needs to be accumulated on the inner end bearing plate 5-8, and the sliding column connecting rod 5-6 does not need to be triggered frequently to be separated from the water outlet pipe 5-7 for drainage.

Example 7

As shown in FIG. 19, the sludge discharge assembly 6 comprises a sludge discharge sleeve 6-1, a sludge discharge port 6-2 and a heating device 6-3, the sludge discharge sleeve 6-1 is fixedly mounted on a first support 1-11, the sludge discharge port 6-2 is arranged on the sludge discharge sleeve 6-1, the sludge discharge port 6-2 is communicated with the sludge discharge sleeve 6-1, and the heating device 6-3 is mounted on the sludge discharge sleeve 6-1, so that the sludge after dewatering can be heated by the heating device 6-3, and further, moisture in the sludge is diffused.

Example 7

As shown in fig. 20-22, the spiral blade assembly 7 includes a spiral blade rotating shaft 7-1, a spiral blade 7-2 and a feeding cone 7-3, the spiral blade rotating shaft 7-1 is simultaneously and fixedly provided with the spiral blade 7-2 and the feeding cone 7-3, the spiral blade rotating shaft 7-1 is rotatably provided on the sludge discharging casing 6-1, the driving column 2-5 is fixedly connected with the feeding cone 7-3, the spiral blade rotating shaft 7-1, the spiral blade 7-2 and the feeding cone 7-3 are simultaneously disposed in the roller body 4-1, so that the feeding cone 7-3 is driven to rotate by the driving column 2-5, the spiral blade 7-2 is driven to move circularly by the spiral blade rotating shaft 7-1, and sewage in sludge is discharged through the dewatering opening 4-3 under the action of the spiral blade 7-2; meanwhile, under the action of the axial screw of the spiral blade 7-2, the dewatered sludge is discharged through the sludge discharge port 6-2.

If the direction of the revolution of the spiral blade 7-2 driven by the driving column 2-5 is the same as the direction of the revolution of the roller body 4-1 driven by the chain wheel 1-8, the revolution speed of the spiral blade 7-2 and the revolution speed of the roller body 4-1 are different, and if the direction of the revolution of the spiral blade 7-2 driven by the driving column 2-5 is different from the direction of the revolution of the roller body 4-1 driven by the chain wheel 1-8, the revolution speed of the spiral blade 7-2 and the revolution speed of the roller body 4-1 have no requirement

It is to be understood that the present invention has been described with reference to certain embodiments and that various changes in form and details may be made therein by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims

1. The utility model provides a mud degree of depth dewatering system, its characterized in that, includes frame subassembly (1), power component (2), pan feeding subassembly (3), turnover drum assembly (4), drainage subassembly (5), row's mud subassembly (6) and spiral leaf subassembly (7), frame subassembly (1) is connected with power component (2), and power component (2) are connected with pan feeding subassembly (3), and pan feeding subassembly (3) are connected with turnover drum assembly (4), and turnover drum assembly (4) are connected with drainage subassembly (5), and turnover drum assembly (4) are connected with row's mud subassembly (6), and spiral leaf subassembly (7) one end is connected on row's mud subassembly (6), and the spiral leaf subassembly (7) other end is connected on power component (2).

2. The deep sludge dewatering system according to claim 1, wherein the rack assembly (1) comprises a rack body (1-1), a first actuating motor (1-2), a first belt wheel rotating shaft (1-3), a first belt wheel (1-4), a first transmission belt (1-5), a second belt wheel (1-6), a second belt wheel rotating shaft (1-7), a chain wheel (1-8), a fixed pulley wheel seat (1-9), a first epicyclic wheel (1-10), a first support (1-11), a second support (1-12) and a third support (1-13), the first actuating motor (1-2) is mounted on the rack body (1-1), the first belt wheel rotating shaft (1-3) is mounted on an output shaft of the first actuating motor (1-2), the first belt wheel rotating shaft (1-3) is rotatably mounted on the rack body (1-1), the first belt wheel (1-4) is fixedly mounted on the first belt wheel rotating shaft (1-3), one end of the first transmission belt (1-5) is connected to the first belt wheel (1-4), the other end of the first transmission belt (1-5) is fixedly mounted on the first belt wheel (1-6), and the second belt wheel (1-7) is fixedly mounted on the second belt wheel (1-6), the belt wheel rotating shaft II (1-7) is rotatably installed on the rack body (1-1), the chain wheel (1-8) is fixedly installed on the belt wheel rotating shaft II (1-7), the epicyclic wheel fixing seat (1-9) is fixedly installed on the rack body (1-1), the epicyclic wheel (1-10) is rotatably installed on the epicyclic wheel fixing seat (1-9), the support I (1-11) is fixedly installed on the rack body (1-1), the support II (1-12) is fixedly installed on the rack body (1-1), and the support III (1-13) is fixedly installed on the support II (1-12).

3. The deep sludge dewatering system according to claim 2, wherein the power assembly (2) comprises a power bottom plate (2-1), a base (2-2), a second actuating motor (2-3), a rotating shaft (2-4), a driving column (2-5), a first clutch disc (2-6), a second clutch disc (2-7), a second clutch slide rod (2-8), a second clutch slide rod push spring (2-9), a first connecting support (2-10) and a second connecting support (2-11), the base (2-2) is mounted on the power bottom plate (2-1), the second actuating motor (2-3) is mounted on the base (2-2), an output shaft of the second actuating motor (2-3) is mounted on the rotating shaft (2-4), the driving column (2-5) is rotatably mounted on the first connecting support (2-10), the first connecting support (2-10) is fixedly mounted on the power bottom plate (2-1), the driving column (2-5) is fixedly connected with the first clutch disc (2-6), the first connecting support (2-6) is mounted on the second clutch slide rod (2-7), the second clutch disc (2-11) is mounted on the first connecting support (2-6), and the second clutch disc (2-3) is mounted on the rotating shaft (2-6) ) And the second connecting support (2-11) is fixedly arranged on the third power bottom plate (1-13), the clutch slide rod (2-8) is fixedly connected with the rotating shaft (2-4), the clutch slide rod push spring (2-9) is sleeved on the clutch slide rod (2-8), the clutch slide rod push spring (2-9) is arranged between the clutch slide rod (2-8) and the second clutch disc (2-7), and the third power bottom plate (2-1) is slidably arranged on the third support (1-13).

4. The deep sludge dewatering system according to claim 3, wherein the feeding assembly (3) comprises a feeding mounting sleeve (3-1), a feeding sleeve (3-2), a first mounting plate (3-3) and a first inner end sliding plate (3-4), the feeding sleeve (3-2) is fixedly mounted on the feeding mounting sleeve (3-1), the first mounting plate (3-3) is mounted on the feeding mounting sleeve (3-1), the inner end sliding plate (3-4) is fixedly mounted on the feeding mounting sleeve (3-1), and the first mounting plate (3-3) is fixedly mounted on the power bottom plate (2-1).

5. The deep sludge dewatering system according to claim 4, wherein the turnover drum assembly (4) comprises a drum body (4-1), a matching ring (4-2), dewatering openings (4-3) and a turnover drive chain (4-4), the matching ring (4-2) and the turnover drive chain (4-4) are fixedly mounted on the drum body (4-1), the matching ring (4-2) is matched with the turnover wheel (1-10) in a drum manner, the turnover drive chain (4-4) is in matching transmission with a chain wheel (1-8), the dewatering openings (4-3) are opened on the drum body (4-1), a plurality of dewatering openings (4-3) are arranged, and the drum body (4-1) is in rotating matching with a feeding mounting sleeve (3-1).

6. The deep sludge dewatering system according to claim 5, wherein the drainage assembly (5) comprises a drainage fixing sleeve (5-1), a mounting boss (5-2), a drainage pipe (5-3), a connecting plate (5-4), a middle-end sliding column (5-5), a sliding column connecting rod (5-6), a water outlet pipe (5-7), an inner-end bearing plate (5-8), a connecting pipe I (5-9), a connecting pipe II (5-10), an inner-end spring I (5-11) and an inner-end spring II (5-12), the drainage pipe (5-3) is mounted on the drainage fixing sleeve (5-1), the mounting boss (5-2) is mounted on the drainage pipe (5-3), the connecting plate (5-4) is fixedly mounted on the drainage pipe (5-3), the water outlet pipe (5-7) is mounted at one end of the drainage pipe (5-3), the connecting pipe II (5-10) is fixedly mounted at the other end of the drainage pipe (5-3), the connecting pipe I (5-9) is slidably mounted on the connecting pipe II (5-10), the connecting pipe I (5-9) is mounted on the inner end (5-8) of the drainage pipe (5-3), an inner end spring I (5-11) is arranged between the connecting pipe I (5-9) and the connecting pipe II (5-10), one end of a middle end sliding column (5-5) is fixedly arranged on an inner end bearing plate (5-8), the other end of the middle end sliding column (5-5) is fixedly arranged on a sliding column connecting rod (5-6), the middle end sliding column (5-5) is connected with a drain pipe (5-3) in a sliding fit mode, an inner end spring II (5-12) is sleeved on the middle end sliding column (5-5), the inner end spring II (5-12) is arranged between the inner end bearing plate (5-8) and the drain pipe (5-3), an installation boss (5-2) is arranged on a rack body (1-1), and a drain fixing sleeve (5-1) is in a rotating fit with a roller body (4-1).

7. The deep sludge dewatering system according to claim 2, characterized in that the sludge discharging assembly (6) comprises a sludge discharging sleeve (6-1), a sludge discharging port (6-2) and a heating device (6-3), the sludge discharging sleeve (6-1) is fixedly mounted on the first bracket (1-11), the sludge discharging port (6-2) is arranged on the sludge discharging sleeve (6-1), the sludge discharging port (6-2) is communicated with the sludge discharging sleeve (6-1), and the heating device (6-3) is mounted on the sludge discharging sleeve (6-1).

8. The deep sludge dewatering system according to any one of claims 1-7, wherein the spiral blade assembly (7) comprises a spiral blade rotating shaft (7-1), spiral blades (7-2) and a feeding cone (7-3), the spiral blades (7-2) and the feeding cone (7-3) are simultaneously and fixedly mounted on the spiral blade rotating shaft (7-1), the spiral blade rotating shaft (7-1) is rotatably mounted on a sludge discharge sleeve (6-1), a driving column (2-5) is fixedly connected with the feeding cone (7-3), and the spiral blade rotating shaft (7-1), the spiral blades (7-2) and the feeding cone (7-3) are simultaneously arranged in the drum body (4-1).