CN207970561U - A kind of mud dehydration plant - Google Patents

Abstract

The utility model discloses a kind of mud dehydration plants, including：Rack；Filter device, it is arranged in rack, the filter device include there is the first transfer assembly of filter cloth and below the first transfer assembly and with the second transfer assembly of the first transfer assembly selective exposure, and the input side of the second transfer assembly protrudes from the outlet side of the first transfer assembly；And multiple part flow arrangements, it is disposed in parallel in rack, and against the first transfer assembly.It is easy to operate and time saving and energy saving the purpose of this utility model is to provide a kind of mud dehydration plant.

Description

A kind of mud dehydration plant

Technical field

The utility model is related to environment-protective desilting equipment more particularly to a kind of mud dehydration plants.

Background technology

Currently, while urban construction develops rapidly, many rivers in city receive municipal refuse and house refuse difference The pollution of degree makes the mud in river accumulate, and generates peculiar smell, is impacted to the life of resident.Existing sludge dewatering is set It is standby, mud is squeezed by multiple pressure roller and high pressure roller using on filter cloth belt, to fall moisture filter, due to filter cloth belt It is complicated in dehydration device to wind the cyclic structure formed, and filter cloth belt length and width, so cricoid filter cloth belt When being linked into dehydration device operating difficulties and spend the time it is more.

Utility model content

For overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of mud dehydration plant, operations It is simple and time saving and energy saving.

The purpose of this utility model adopts the following technical scheme that realization：

The utility model provides a kind of mud dehydration plant, including：Rack；Filter device is arranged in the rack, institute It includes having the first transfer assembly of filter cloth and being passed below first transfer assembly and with described first to state filter device Second transfer assembly of sending component selective exposure, and the input side of second transfer assembly protrudes from the first transmission group The outlet side of part；And multiple part flow arrangements, it is disposed in parallel in the rack, and against first transfer assembly.

Further, second transfer assembly protrudes from the side of first transfer assembly equipped with baffle.

Further, each part flow arrangement includes the connecting rod being connect with the rack, and the connecting rod is equipped with Multiple connecting holes spaced apart, equipped with one end against the shunting column of first transfer assembly in each connecting hole.

Further, the top of the shunting column of each part flow arrangement is connected by wire rod.

Further, first transfer assembly includes the first transmission shaft, first driven shaft and is passed around described first First conveyer belt of moving axis and the first driven shaft；Second transfer assembly include second driving shaft, second driven shaft, with And the second conveyer belt around the second driving shaft and the second driven shaft, wherein first conveyer belt and described second Conveyer belt selective exposure, and first conveyer belt and second conveyer belt are filter cloth.

Further, being respectively equipped in first transfer assembly and second transfer assembly makes first conveyer belt The multiple roll shafts abutted with second conveyer belt.

Further, first transmission shaft is connect with first motor, and the second driving shaft is connect with the second motor, often A roll shaft is connect with cylinder.

Further, the rack include positioned at the second transfer assembly outlet side the first side and with first side Input side the second side opposite and positioned at second transfer assembly, wherein in first side, second transfer assembly is prominent For first transfer assembly；It is equipped with import in the second side, and in the top of first transfer assembly.

Further, the rack is equipped with the cleaning shoe of one end and the output side contacts of second transfer assembly.

Further, the lower section of the rack is equipped with drip tray, and the lower section of the drip tray is equipped with aqueduct.

Compared with prior art, the beneficial effects of the utility model are：

The utility model is used is arranged the first transfer assembly and the second transfer assembly arranged side by side up and down in rack, and the The input terminal of two transfer assemblies protrudes from the first transfer assembly output end, starts the first transfer assembly and the second transfer assembly, becomes silted up Mud is transmitted to the output end of the first transfer assembly from the input terminal of the first transfer assembly, and then mud is fallen in the second transfer assembly On, the output end that the second transfer assembly is transported to using the second transfer assembly is discharged, simple to operate and time saving and energy saving. In addition, rack be equipped be located at the first transfer assembly on multiple part flow arrangements, for by the mud on the first transfer assembly into Row it is evenly dispersed, into but the easier dehydration of mud.

Description of the drawings

Fig. 1 is the partial schematic diagram of the utility model mud dehydration plant；

Fig. 2 is the schematic diagram of the part flow arrangement of the utility model mud dehydration plant；

Fig. 3 is the stereoscopic schematic diagram of the utility model mud dehydration plant；

In figure：10, rack；11, the first side；12 the second sides；13, third side；14, the 4th side；20, transfer assembly；21, One transfer assembly；211, the first transmission shaft；212, first driven shaft；213, the first conveyer belt；214, first motor；22, second Transfer assembly；221, second driving shaft；222, second driven shaft；223, the second conveyer belt；224, the second motor；30, shunting dress It sets；31, connecting rod；32, connecting hole；33, column is shunted；34, steel wire；50, import；60, baffle；70, roll shaft；80, cylinder； 90、 Cleaning shoe；100, deflector；110, drip tray.

Specific implementation mode

In the following, in conjunction with attached drawing and specific implementation mode, the utility model is described further, it should be noted that Under the premise of not colliding, it can be formed in any combination between various embodiments described below or between each technical characteristic new Embodiment.

With reference to figure 1, Fig. 2 and Fig. 3, the utility model provides a kind of mud dehydration plant, including：Rack 10, filter device 20 and multiple part flow arrangements 30.Wherein, filter device 20 is arranged in rack 10, and filter device 20 includes having filter cloth First transfer assembly 21 and the second transmission positioned at the lower section of the first transfer assembly 21 and with 21 selective exposure of the first transfer assembly Component 22, the first transfer assembly 21 and the second transfer assembly 22 are in rack 10 in distribution side by side, and the second transfer assembly 22 up and down Input side protrude from 21 outlet side of the first transfer assembly, to receive the mud that is conveyed by the first transfer assembly 21.Multiple shuntings Device 30 is disposed in parallel in rack 10, and against the first transfer assembly 21 with will enter the mud on the first transfer assembly 21 into Row uniform divided flows so that the water on mud is easier to remove.

According to above-described embodiment, the first transfer assembly 21 and the second transfer assembly arranged side by side up and down are set in rack 10 22, and the input side of the second transfer assembly 22 protrudes from 21 outlet side of the first transfer assembly, starts 21 He of the first transfer assembly Second transfer assembly 22, mud are transmitted to the output end of the first transfer assembly 22 from the input terminal of the first transfer assembly 21, then Mud is fallen on the second transfer assembly 22, and the output end that the second transfer assembly 22 is transported to using the second transfer assembly 22 is arranged Go out, it is simple to operate and time saving and energy saving.In addition, rack 10 is equipped with the multiple shuntings dress being located on the first transfer assembly 21 30 are set, it is evenly dispersed for carrying out the mud on the first transfer assembly 21, and then make the easier dehydration of mud.

Further, the first transfer assembly 21 is including the first transmission shaft axis 211, first driven shaft 212 and around first First conveyer belt 213 of transmission shaft 211 and first driven shaft 212；Second transfer assembly 22 includes second driving shaft 221, second Driven shaft 222 and the second conveyer belt 223 for surrounding second driving shaft 221 and second driven shaft 222, wherein the first conveyer belt 213 and 223 selective exposure of the second conveyer belt, and first conveyer belt 213 and second conveyer belt 223 are filter cloth, it can Selection of land, filter cloth are non-woven fabrics, and then the first conveyer belt 213 and the second conveyer belt 223 squeeze the silt being located on the second conveyer belt 223 Mud, by the moisture removal in mud.Further, the first transmission shaft 211 is connect with first motor 214, and first motor 214 is driven Dynamic first transmission shaft 211 drives the first conveyer belt 213 driving first driven shaft 212 to rotate；Second transmission shaft 221 and the second motor 224 connections, the second motor 224 drive the second transmission shaft 221 that the second conveyer belt 223 driving second driven shaft 222 is driven to rotate.

It should be understood that rack 10 include positioned at the second transfer assembly outlet side the first side 11 and with 11 phase of the first side To the third side 13 and the positioned at the second side 12 of the second transfer assembly outlet side and the first side 11 of connection and the second side 12 Four sides 14, third side 13 and the 4th side 14 are oppositely arranged, wherein the first transmission shaft 211, first driven shaft 212, second driving shaft 221 and second driven shaft 222 be mounted between the third side 13 and the 4th side 14 of rack 10, and multiple part flow arrangements 30 Both ends be separately mounted on third side 13 and the 4th side 14.It is equipped in the second side 12 of rack 10 and is located at the first transfer assembly 21 Top mud import 50, in the first side 11 of rack 10, the second transfer assembly 22 protrudes from the first transfer assembly 21, also It is that the distance of 22 the first side of distance 11 of the second transfer assembly is less than the distance of 21 the first side of distance 11 of the first transfer assembly, it will Mud on first conveyer belt 213 of the first transfer assembly 21 is transmitted on the second conveyer belt 223 of the second transfer assembly 22, position It is taken off under effect with compressing for the upside of the second conveyer belt 223 on the downside of the first conveyer belt 213 in the mud on the second conveyer belt 223 Water falls to mud retracting device when mud is delivered to second 223 other end of conveyer belt on the second conveyer belt 223.

Embodiment according to the present utility model, the side that the second transfer assembly 22 protrudes from the first transfer assembly 21 are equipped with gear Plate 60.Namely the first side 11 of rack 10 is equipped with the baffle 60 against the second conveyer belt 223 of the second transfer assembly 22, to prevent Mud splashes down.

Embodiment according to the present utility model, each part flow arrangement 30 include the connecting rod 31 being connect with rack 10, connection Bar 31 is equipped with multiple connecting holes 32 spaced apart, and shunting of the one end against the first transfer assembly 21 is housed in each connecting hole 32 Column 33.Further, the top of the shunting column 33 of each part flow arrangement 30 is connected by the wire rod 34 of such as steel wire, in order to Shunt the one installation of column 33.It should be appreciated that the both ends of connecting rod 31 to be separately fixed to the third side 13 and the 4th of rack 10 Then connecting hole 32 is arranged in side 14 in connecting rod 31, in it will shunt column 33 and correspond to insertion connecting hole 32 respectively, and make It is each shunting column 33 one end against the first transfer assembly 21 the first conveyer belt 213, to realize by by the second side 11 into The mud that mouth enters on the first conveyer belt 213 is shunted.

Being respectively equipped in embodiment according to the present utility model, the first transfer assembly 21 and the second transfer assembly 22 makes first Multiple roll shafts 70 that conveyer belt 213 and the second conveyer belt 223 abut, and each roll shaft 70 is connected with corresponding cylinder 80.It is logical Cross cylinder 80 and control roll shaft 70 and move up and down, so control the distance between the first conveyer belt 213 and the second conveyer belt 223 with And first conveyer belt 213 and the second conveyer belt 223 to the squeeze pressure of the mud of the second conveyer belt 223.

Alternative embodiment according to the present utility model, rack 10 is equipped with one end and the outlet side of the second transfer assembly 22 connects Tactile cleaning shoe 90 cleans out the mud being attached on the second conveyer belt 223.It should be understood that cleaning shoe 90 One end is abutted with the second conveyer belt 223, and other end hinge connection has deflector 100, deflector to be pivoted relative to cleaning shoe 90, Deflector can control the position of deflector 100 by cylinder, to realize mud water conservancy diversion to the second transfer assembly of distance 22 In the retracting device of other end different distance.

The lower section of alternative embodiment according to the present utility model, rack 10 is equipped with drip tray 110, the lower section of drip tray 110 Equipped with aqueduct.

The above embodiment is only preferred embodiments of the present invention, cannot be protected with this to limit the utility model Range, the variation of any unsubstantiality that those skilled in the art is done on the basis of the utility model and replacing belongs to In the utility model range claimed.

Claims (10)

1. a kind of mud dehydration plant, which is characterized in that including：

Rack；

Filter device is arranged in the rack, and the filter device includes having the first transfer assembly of filter cloth and positioned at institute State below the first transfer assembly and with the second transfer assembly of the first transfer assembly selective exposure, the second transmission group The input side of part protrudes from the outlet side of first transfer assembly；And

Multiple part flow arrangements are disposed in parallel in the rack, and against first transfer assembly.

2. mud dehydration plant according to claim 1, which is characterized in that second transfer assembly protrudes from described The side of one transfer assembly is equipped with baffle.

3. mud dehydration plant according to claim 1, which is characterized in that each the part flow arrangement includes and the machine The connecting rod of frame connection, the connecting rod are equipped with multiple connecting holes spaced apart, are supported equipped with one end in each connecting hole By the shunting column of first transfer assembly.

4. mud dehydration plant according to claim 3, which is characterized in that the shunting column of each part flow arrangement Top by wire rod be connected.

5. mud dehydration plant according to claim 1, which is characterized in that first transfer assembly includes the first transmission Axis, first driven shaft and the first conveyer belt around first transmission shaft and the first driven shaft, second transmission Component includes second driving shaft, second driven shaft and is passed around the second of the second driving shaft and the second driven shaft Band is sent, wherein first conveyer belt and the second conveyer belt selective exposure, and first conveyer belt and described second Conveyer belt is filter cloth.

6. mud dehydration plant according to claim 5, which is characterized in that first transfer assembly and described second passes The multiple roll shafts for making first conveyer belt and second conveyer belt abut are respectively equipped in sending component.

7. mud dehydration plant according to claim 6, which is characterized in that first transmission shaft connects with first motor It connects, the second driving shaft is connect with the second motor, and each roll shaft is connect with cylinder.

8. mud dehydration plant according to claim 7, which is characterized in that the rack includes being located at described second to transmit First side of component outlet side and input side the second side opposite with first side and positioned at second transfer assembly, In, in first side, second transfer assembly protrudes from first transfer assembly；In the second side, and described The top of first transfer assembly is equipped with import.

9. mud dehydration plant according to claim 1, which is characterized in that the rack is equipped with one end and described second The cleaning shoe of the output side contacts of transfer assembly.

10. mud dehydration plant according to claim 1, which is characterized in that the lower section of the rack is equipped with drip tray, institute The lower section for stating drip tray is equipped with aqueduct.