CN108503182A - A kind of processing method for municipal sludge - Google Patents
A kind of processing method for municipal sludge Download PDFInfo
- Publication number
- CN108503182A CN108503182A CN201810410150.8A CN201810410150A CN108503182A CN 108503182 A CN108503182 A CN 108503182A CN 201810410150 A CN201810410150 A CN 201810410150A CN 108503182 A CN108503182 A CN 108503182A
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- Prior art keywords
- rotation axis
- rotation
- sludge
- motor
- drive cavity
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F11/00—Treatment of sludge; Devices therefor
- C02F11/12—Treatment of sludge; Devices therefor by de-watering, drying or thickening
- C02F11/121—Treatment of sludge; Devices therefor by de-watering, drying or thickening by mechanical de-watering
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F11/00—Treatment of sludge; Devices therefor
- C02F11/12—Treatment of sludge; Devices therefor by de-watering, drying or thickening
- C02F11/14—Treatment of sludge; Devices therefor by de-watering, drying or thickening with addition of chemical agents
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2201/00—Apparatus for treatment of water, waste water or sewage
- C02F2201/002—Construction details of the apparatus
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Hydrology & Water Resources (AREA)
- Environmental & Geological Engineering (AREA)
- Water Supply & Treatment (AREA)
- Organic Chemistry (AREA)
- Mechanical Engineering (AREA)
- Chemical Kinetics & Catalysis (AREA)
- General Chemical & Material Sciences (AREA)
- Treatment Of Sludge (AREA)
Abstract
The invention discloses one kind being used for municipal sludge processing equipment, including fuselage and the blanking channel being arranged in the fuselage, the first drive cavity being located on the left of the blanking channel is equipped in the fuselage, the feeding chamber for extending to the right and being open to the left is equipped on the right side of the blanking channel, the first rotation axis that left and right extends rotatably is provided in the blanking channel, what can be horizontally slipped in first rotation axis is provided with extruding disk, it is described to squeeze the first spring for being provided with and being looped around on first rotation axis outer surface between end face and the blanking channel left end wall of facing left, first rotation axis extends into the right in the feeding chamber;The device structure of the present invention is simple, it is easy to operate, first with mechanical presses, by moisture removal in sludge, lime is utilized to meet residual moisture in the physical characteristic removal sludge of aquatic heat afterwards, two ruler dehydrate rates are higher, since lime chemical action changes sludge acid-base value, sludge is more conducive to secondary use or landfill after making processing, improves device practical performance.
Description
Technical field
The present invention relates to field of environment protection, specifically a kind of processing method for municipal sludge.
Background technology
As urbanization process is accelerated, city dweller gradually increases, and it is dirty will to generate a large amount of sanitary sewages in this course
Mud always exists a relatively difficult technical problem in municipal sludge processing procedure, is exactly that traditional sludge dehydration equipment is de-
Water rate is low, and the degree of automation is not high, and secondary use or standard of landfill is not achieved in sludge after leading to processing, this device effectively solves
It has determined this problem.
Invention content
Technical problem to be solved by the invention is to provide a kind of processing methods for municipal sludge, can solve
State the problems in present technology.
The present invention is achieved through the following technical solutions:One kind of the present invention being used for municipal sludge processing equipment, packet
The blanking channel for including fuselage and being arranged in the fuselage, the fuselage is interior to be equipped with first be located on the left of the blanking channel
Drive cavity, is equipped with the feeding chamber for extending to the right and being open to the left on the right side of the blanking channel, rotatable in the blanking channel
It is provided with the first rotation axis that left and right extends, what can be horizontally slipped in first rotation axis is provided with extruding disk, the extruding
It faces left the first spring for being provided with and being looped around on first rotation axis outer surface between end face and the blanking channel left end wall, institute
It states the first rotation axis to extend into the right in the feeding chamber, first rotation axis of the feeding intracavitary is fixedly connected with taper
Helical axis, axially right extension is rotationally connected with the feeding chamber right end wall to the cone-type spiral, and first rotation axis is prolonged to the left
It is stretched into first drive cavity through the blanking channel left end wall, first rotation in first drive cavity is axial
Left extension and the first motor be connected by power being fixed in first drive cavity left side, the first motor outside, which is equipped with, holds
Protecting assembly, it is described to hold that protecting assembly includes vibration damper plate and backing drops in metal, in first rotation axis in first drive cavity
It is installed with first bevel gear, the blanking channel bottom is provided with and communicated with the transmission cavity extended to the right, under the transmission cavity
Side is provided with the second drive cavity, and the latch well positioned at second drive cavity bottom is equipped on the left of the fuselage, and described second passes
Dynamic intracavitary is rotatably provided with extends the second rotation axis up and down, is fixedly installed first pulley in second rotation axis, institute
It states the second rotation axis and upwardly extends and stretched into first drive cavity through second drive cavity upper surface, first transmission
The second rotation shaft end of intracavitary is installed with the second bevel gear engaged with the first bevel gear, described second turn
Moving axis extends downwardly through second drive cavity lower face and stretches into the latch well, described second turn in the latch well
Moving axis end is installed with first gear, is provided on the right side of the fuselage positioned at stir chamber below second drive cavity, institute
It states and is provided with and communicated with communicating passage between stir chamber and the transmission cavity, be equipped with outside connection in the stir chamber inner left wall
Discharge port, in the stir chamber symmetrical rotation be provided with the third rotation axis extended up and down, above and below the third rotation axis
Both ends are rotatably assorted respectively, and end wall, the third rotation axis extend downwardly through under the stir chamber connection stir chamber up and down
End wall stretches into the third drive cavity of the stir chamber bottom, the left and right two in the third drive cavity described
Three rotation shaft ends are fixedly installed the second gear being meshed, and the third rotation axis in left side is upwardly extended to be stirred through described
It mixes chamber upper end wall to stretch into second drive cavity, the third rotation shaft end in second drive cavity is fixedly connected with
Second belt wheel, second belt wheel are connect with the first pulley by belt transmission.
Preferably technical solution is symmetrically set with front and back the 4th rotation axis extended, institute in the transmission cavity
It states the 4th rotation axis rear and front end to be rotatably assorted respectively end wall before and after the connection transmission cavity, after the 4th rotation axis on right side
The second motor power connection in the transmission cavity aft bulkhead is held and be fixed at, is installed in the 4th rotation axis
By the transmission wheel of conveyer belt transmission connection.
Preferably technical solution is provided with the first slippage slot that Open Side Down in the discharge port inner roof wall, described
It can be slided up and down in first slippage slot and be provided with rack, the rack upper surface is provided with the first inclined-plane being tilted to the left, and first
The gear cavity of opening to the right is equipped on the left of slippage slot in end wall, front and back the 5th extended is rotatably provided in the gear cavity
Rotation axis, the 5th rotation axis rear side end and the third motor power being fixed in the gear cavity aft bulkhead connect
It connects, the third gear engaged with the rack is installed in the 5th rotation axis.
Preferably technical solution is provided with and communicated with the second sliding between the latch well and first slippage slot
Slot, what can be horizontally slipped in second slippage slot is provided with sliding shoe, is equipped on the left of the sliding shoe and the first gear
Matched locking teeth, the sliding shoe right side is equipped with and matched second inclined-plane in first inclined-plane, second sliding
It is equipped with limiting slot in slot upper end wall, the limited block being fixedly connected with the sliding shoe is slidably fitted in the limiting slot, it is described
On the right side of limiting slot the second spring to offset with the limited block is installed on end wall.
Preferably technical solution, the feeding chamber are provided with and communicated with feed inlet, the feeding bottom of chamber with exterior space
Portion is equipped with effluent trough, and equally distributed apopore is provided with and communicated between the feeding chamber and the effluent trough.
Preferably technical solution, the third rotation axis are fixedly connected with agitating paddle outside.
Preferably technical solution, the vibration damper plate are arranged in the top and bottom of the first motor and with described
One motor is fixedly connected, metal drop backing be arranged the front-end and back-end of the first motor and with the first motor
Shell is fixedly connected, and the top and bottom of the metal drop backing are fixedly connected with the vibration damper plate, the first motor
Front-end and back-end are respectively equipped with the metal drop backing of three pieces or more.
Above-mentioned one kind being used for municipal sludge processing equipment, and processing method is as follows:The equipment of the present invention exists
When original state, the first motor remains static, and the sliding shoe is located on the right side of second slippage slot, the rack
Positioned at stir chamber described in the discharge port sealed bottom, the conveyer belt remains static.
When carrying out sludge dewatering with the equipment of the present invention, start the first motor, the first motor rotation first
First rotation axis is driven to rotate, the first rotation axis rotation drives the cone-type spiral shaft rotation dynamic, then leads to sludge
It crosses the feed inlet and pours into the feeding chamber, the sludge is moved to the left under the cone-type spiral axis rotary action, when described
The moisture that sludge accumulates when squeezing the extruding disk in the sludge to the left will be extruded, and the water is fallen by the apopore
The effluent trough, when overcoming first spring due to sludge accumulation extruding force, the extruding disk is moved to the left, the dirt after extruding
Mud will be fallen by the blanking channel on the conveyer belt, and second motor is started, and the conveyer belt turns right institute
It states sludge to be sent in the communicating passage, the sludge is fallen by the communicating passage to the stir chamber.
When carrying out sludge deep processing with the equipment of the present invention, lime is sent by the blanking channel, the stone
Ash falls after moving right under conveyer belt effect to the stir chamber, at this point, being driven since the first motor rotates
The first bevel gear, the first bevel gear rotation drive the second bevel gear, the second bevel gear rotation to drive institute
First pulley rotation is stated, the first pulley rotation drives the second belt wheel rotation, the second belt wheel rotation to drive left side
The third rotation axis rotation, the third rotation axis rotation drive the second gear rotation, the right side third rotation axis
It is rotated backward under second gear effect, lime is sufficiently mixed with the sludge at this time.
When carrying out discharge with the equipment of the present invention, stop the first motor, starts the third motor reversal and drive
The rack rises, and the rack rising pushes the sliding shoe to the left, and the sliding shoe is moved to left to be nibbled with the first gear
It closes, locks the first gear, material is excluded by the discharge port at this time.
The beneficial effects of the invention are as follows:In the initial state, the first motor remains static the equipment of the present invention, described
Sliding shoe is located on the right side of second slippage slot, and the rack is located at stir chamber described in the discharge port sealed bottom, the biography
Band is sent to remain static.
When carrying out sludge dewatering with the equipment of the present invention, start the first motor, the first motor rotation first
First rotation axis is driven to rotate, the first rotation axis rotation drives the cone-type spiral shaft rotation dynamic, then leads to sludge
It crosses the feed inlet and pours into the feeding chamber, the sludge is moved to the left under the cone-type spiral axis rotary action, when described
The moisture that sludge accumulates when squeezing the extruding disk in the sludge to the left will be extruded, and the water is fallen by the apopore
The effluent trough, when overcoming first spring due to sludge accumulation extruding force, the extruding disk is moved to the left, the dirt after extruding
Mud will be fallen by the blanking channel on the conveyer belt, and second motor is started, and the conveyer belt turns right institute
It states sludge to be sent in the communicating passage, the sludge is fallen by the communicating passage to the stir chamber.
When carrying out sludge deep processing with the equipment of the present invention, lime is sent by the blanking channel, the stone
Ash falls after moving right under conveyer belt effect to the stir chamber, at this point, being driven since the first motor rotates
The first bevel gear, the first bevel gear rotation drive the second bevel gear, the second bevel gear rotation to drive institute
First pulley rotation is stated, the first pulley rotation drives the second belt wheel rotation, the second belt wheel rotation to drive left side
The third rotation axis rotation, the third rotation axis rotation drive the second gear rotation, the right side third rotation axis
It is rotated backward under second gear effect, lime is sufficiently mixed with the sludge at this time.
When carrying out discharge with the equipment of the present invention, stop the first motor, starts the third motor reversal and drive
The rack rises, and the rack rising pushes the sliding shoe to the left, and the sliding shoe is moved to left to be nibbled with the first gear
It closes, locks the first gear, material is excluded by the discharge port at this time.
The device structure of the present invention is simple, easy to operate, rear to utilize by moisture removal in sludge first with mechanical presses
The physical characteristic that lime meets aquatic heat removes residual moisture in sludge, and two ruler dehydrate rates are higher, since lime chemistry is made
With sludge acid-base value is changed, sludge is more conducive to secondary use or landfill after making processing, improves device practical performance.
Description of the drawings
The present invention is described in detail by following specific embodiment and attached drawing for ease of explanation,.
Fig. 1 is a kind of processing method overall structure diagram for municipal sludge of the present invention;
Fig. 2 is part A structural schematic diagram in Fig. 1;
Fig. 3 is the external structure schematic diagram of first motor in Fig. 1.
Specific implementation mode
As shown in Figure 1-Figure 3, one kind of the invention is used for municipal sludge processing equipment, including fuselage 100 and setting exist
Blanking channel 133 in the fuselage 100, the fuselage 100 is interior to be equipped with the first transmission for being located at 133 left side of the blanking channel
Chamber 102, the right side of the blanking channel 133 are equipped with the feeding chamber 129 for extending to the right and being open to the left, in the blanking channel 133
It is rotatably provided with the first rotation axis 134 that left and right extends, being provided with for can horizontally slipping in first rotation axis 134 is crowded
Platen 131 is provided between 133 left end wall of 131 left side of extruding disk and the blanking channel and is looped around first rotation
The first spring 132 on 134 outer surface of axis, first rotation axis 134 extends into the right in the feeding chamber 129, described to send
First rotation axis 134 in material chamber 129 is fixedly connected with cone-type spiral axis 130, and the cone-type spiral axis 130 extends to the right
It is rotationally connected with 129 right end wall of the feeding chamber, first rotation axis 134 is prolonged to the left through 133 left end of the blanking channel
Wall stretches into first drive cavity 102, and first rotation axis 134 in first drive cavity 102 extends and consolidates to the left
101 be connected by power of first motor being scheduled in 102 left side of the first drive cavity, 101 outside of the first motor, which is equipped with, holds
Protecting assembly, it is described to hold that protecting assembly includes vibration damper plate 1014 and backing 1015 drops in metal, described the in first drive cavity 102
It is installed with first bevel gear 136 in one rotation axis 134,133 bottom of the blanking channel, which is provided with and communicated with, to be extended to the right
Transmission cavity 123, the lower section of the transmission cavity 123 are provided with the second drive cavity 107, and 100 left side of the fuselage, which is equipped with, is located at described the
The latch well 108 of two drive cavities, 107 bottom is rotatably provided in second drive cavity 107 and extends the second rotation up and down
Axis 109 is fixedly installed first pulley 105 in second rotation axis 109, and second rotation axis 109, which upwardly extends, to be run through
Second drive cavity, 107 upper surface is stretched into first drive cavity 102, and described second in first drive cavity 102
109 end of rotation axis is installed with the second bevel gear 103 engaged with the first bevel gear 136, second rotation axis
109, which extend downwardly through 107 lower face of the second drive cavity, stretches into the latch well 108, the institute in the latch well 108
It states 109 end of the second rotation axis and is installed with first gear 110,100 right side of the fuselage is provided with to be passed positioned at described second
107 lower section stir chamber 118 of dynamic chamber, is provided with and communicated with communicating passage 121, institute between the stir chamber 118 and the transmission cavity 123
It states and is equipped with the discharge port 114 outside being connected in 118 inner left wall of stir chamber, symmetrical rotation setting in the stir chamber 118
There is the third rotation axis 120 extended up and down, 120 upper and lower ends of third rotation axis are rotatably assorted respectively connects the stir chamber
About 118 end walls, the third rotation axis 120 extend downwardly through 118 lower end wall of the stir chamber and stretch into positioned at the stirring
In the third drive cavity 116 of 118 bottom of chamber, left and right two in the third drive cavity 116 third rotation axis 120
End is fixedly installed the second gear 117 being meshed, and the third rotation axis 120 in left side is upwardly extended through the stirring
118 upper end wall of chamber stretches into second drive cavity 107,120 end of third rotation axis in second drive cavity 107
It is fixedly connected with the second belt wheel 122, second belt wheel 122 is sequentially connected with the first pulley 105 by belt 106.
Valuably, the 4th rotation axis 124 extended before and after being symmetrically set in the transmission cavity 123, the described 4th
124 rear and front end of rotation axis is rotatably assorted end wall before and after the connection transmission cavity 123 respectively, the 4th rotation axis on right side
124 rear ends are connect with the second motor power being fixed in 123 aft bulkhead of the transmission cavity, the 4th rotation axis 124
On be installed with by conveyer belt 125 transmission connection transmission wheel 104, convenient for equipment transmit material.
Valuably, the first slippage slot 115 that Open Side Down is provided in 114 inner roof wall of the discharge port, described first slides
It moves in slot 115 to slide up and down and is provided with rack 113,113 upper surface of the rack is provided with the first inclined-plane being tilted to the left
142,115 left side end wall of the first slippage slot is interior to be equipped with the gear cavity 141 of opening to the right, is rotatably set in the gear cavity 141
It is equipped with front and back the 5th rotation axis extended, end and 141 rear end of the gear cavity is fixed on rear side of the 5th rotation axis
Third motor power in wall connects, and the third gear engaged with the rack 113 is installed in the 5th rotation axis
112, the stir chamber is sealed when being stirred convenient for equipment.
Valuably, the second slippage slot 140, institute are provided with and communicated between the latch well 108 and first slippage slot 115
State can horizontally slip in the second slippage slot 140 be provided with sliding shoe 111,111 left side of the sliding shoe is equipped with and described first
110 matched locking teeth 144 of gear, 111 right side of the sliding shoe are equipped with oblique with first inclined-plane 142 matched second
Face 143 is equipped with limiting slot 137 in second slippage slot, 140 upper end wall, be slidably fitted in the limiting slot 137 with it is described
The limited block 138 that sliding shoe 111 is fixedly connected is installed with and the limited block 138 on 137 right side end wall of the limiting slot
The second spring 139 to offset, convenient for when the rack 113 moves down, the sliding shoe 111 is sprung back, the locking teeth 144 and institute
State the separation of first gear 110, unlocker device.
Valuably, the feed inlet 128 being connected to exterior space, the feeding chamber are equipped in 129 inner roof wall of feeding chamber
129 bottoms are equipped with the effluent trough 126 outside connection, are provided with and communicated between the feeding chamber 129 and the effluent trough 126 and uniformly divide
The apopore 127 of cloth is dehydrated convenient for equipment.
Valuably, it is fixedly connected with agitating paddle 119 outside the third rotation axis 120, is sufficiently mixed convenient for material.
Valuably, the vibration damper plate 1014 be arranged the top and bottom of the first motor 101 and with it is described first electricity
Machine 101 is fixedly connected, and metal drop backing 1015 is arranged in the front-end and back-end of the first motor 101 and with described first
The shell of motor 101 is fixedly connected, and the top and bottom of the metal drop backing 1015, which are fixed with the vibration damper plate 1014, to be connected
It connects, the front-end and back-end of the first motor 101 are respectively equipped with the metal drop backing 1015 of three pieces or more, the metal drop
Backing 1015 is to absorb and distribute the heat that the generates when first motor 101 is run, and the vibration damper plate 1014 is reducing
The shaking force that the first motor 101 generates at runtime prevents shaking force excessive and influences the normal operation of the present apparatus.
Above-mentioned one kind being used for municipal sludge processing equipment, and processing method is as follows:The equipment of the present invention exists
When original state, the first motor 104 remains static, and it is right that the sliding shoe 111 is located at second slippage slot 140
Side, the rack 113 are located at stir chamber 118 described in 114 sealed bottom of the discharge port, and the conveyer belt 125 is in static shape
State.
When carrying out sludge dewatering with the equipment of the present invention, start the first motor 101, the first motor first
101 rotations drive first rotation axis 134 to rotate, and the rotation of the first rotation axis 134 drives 130 turns of the cone-type spiral axis
It is dynamic, sludge is then poured into the feeding chamber 129 by the feed inlet 128, the sludge is in 130 turns of the cone-type spiral axis
Action is moved to the left under, and the moisture when the sludge accumulates to the left squeezes the extruding disk 131 in the sludge will be squeezed
Go out, the water falls into the effluent trough 126 by the apopore 127, since sludge accumulation extruding force overcomes first bullet
When spring 132, the extruding disk 131 is moved to the left, and the sludge after extruding will be fallen by the blanking channel 133 in the conveyer belt
On 125, start second motor, the conveyer belt 125 turns right is sent to the communicating passage 121 by the sludge
Interior, the sludge is fallen by the communicating passage 121 to the stir chamber 118.
When carrying out sludge deep processing with the equipment of the present invention, lime is sent by the blanking channel 133, it is described
Lime falls after moving right under conveyer belt effect to the stir chamber 118, at this point, due to the first motor 101
Rotation drives the first bevel gear 136, and the first bevel gear 136, which rotates, drives the second bevel gear 103, and described second
The rotation of bevel gear 103 drives the first pulley 105 to rotate, and the rotation of the first pulley 105 drives 122 turns of second belt wheel
Dynamic, the rotation of the second belt wheel 122 drives the left side third rotation axis 120 to rotate, and the rotation of third rotation axis 120 drives
The second gear 117 rotates, and the right side third rotation axis 120 rotates backward under the effect of the second gear 117, at this time
Lime is sufficiently mixed with the sludge.
When carrying out discharge with the equipment of the present invention, stops the first motor 101, start the third motor reversal band
The dynamic rack 113 rises, and the rising of the rack 113 pushes the sliding shoe 111 to the left, the sliding shoe move to left with it is described
First gear 110 engages, and locks the first gear 110, and material is excluded by the discharge port 114 at this time.
The beneficial effects of the invention are as follows:In the initial state, the first motor remains static the equipment of the present invention,
The sliding shoe is located on the right side of second slippage slot, and the rack is located at stir chamber described in the discharge port sealed bottom, institute
Conveyer belt is stated to remain static.
When carrying out sludge dewatering with the equipment of the present invention, start the first motor, the first motor rotation first
First rotation axis is driven to rotate, the first rotation axis rotation drives the cone-type spiral shaft rotation dynamic, then leads to sludge
It crosses the feed inlet and pours into the feeding chamber, the sludge is moved to the left under the cone-type spiral axis rotary action, when described
The moisture that sludge accumulates when squeezing the extruding disk in the sludge to the left will be extruded, and the water is fallen by the apopore
The effluent trough, when overcoming first spring due to sludge accumulation extruding force, the extruding disk is moved to the left, the dirt after extruding
Mud will be fallen by the blanking channel on the conveyer belt, and second motor is started, and the conveyer belt turns right institute
It states sludge to be sent in the communicating passage, the sludge is fallen by the communicating passage to the stir chamber.
When carrying out sludge deep processing with the equipment of the present invention, lime is sent by the blanking channel, the stone
Ash falls after moving right under conveyer belt effect to the stir chamber, at this point, being driven since the first motor rotates
The first bevel gear, the first bevel gear rotation drive the second bevel gear, the second bevel gear rotation to drive institute
First pulley rotation is stated, the first pulley rotation drives the second belt wheel rotation, the second belt wheel rotation to drive left side
The third rotation axis rotation, the third rotation axis rotation drive the second gear rotation, the right side third rotation axis
It is rotated backward under second gear effect, lime is sufficiently mixed with the sludge at this time.
When carrying out discharge with the equipment of the present invention, stop the first motor, starts the third motor reversal and drive
The rack rises, and the rack rising pushes the sliding shoe to the left, and the sliding shoe is moved to left to be nibbled with the first gear
It closes, locks the first gear, material is excluded by the discharge port at this time.
The device structure of the present invention is simple, easy to operate, rear to utilize by moisture removal in sludge first with mechanical presses
The physical characteristic that lime meets aquatic heat removes residual moisture in sludge, and two ruler dehydrate rates are higher, since lime chemistry is made
With sludge acid-base value is changed, sludge is more conducive to secondary use or landfill after making processing, improves device practical performance.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention
Protection domain should be determined by the scope of protection defined in the claims.
Claims (8)
1. one kind of the present invention is used for municipal sludge processing equipment, including fuselage and the blanking that is arranged in the fuselage it is logical
Road, the fuselage is interior to be equipped with the first drive cavity being located on the left of the blanking channel, is equipped on the right side of the blanking channel and prolongs to the right
The feeding chamber stretched and be open to the left, is rotatably provided with the first rotation axis that left and right extends in the blanking channel, and described the
What can be horizontally slipped in one rotation axis is provided with extruding disk, and the extruding is faced left to be arranged between end face and the blanking channel left end wall
There are the first spring being looped around on first rotation axis outer surface, first rotation axis to extend into the feeding chamber to the right
In, first rotation axis of the feeding intracavitary is fixedly connected with cone-type spiral axis, and axially right extend turns the cone-type spiral
Dynamic to be connected to the feeding chamber right end wall, first rotation axis is prolonged to the left stretches into described the through the blanking channel left end wall
In one drive cavity, first rotation axis in first drive cavity extends and is fixed on the first drive cavity left end to the left
First motor be connected by power in face is equipped on the outside of the first motor and holds protecting assembly, it is described hold protecting assembly include vibration damper plate with
Backing drops in metal, and first bevel gear is installed in first rotation axis in first drive cavity, and the blanking is logical
Road bottom is provided with and communicated with the transmission cavity extended to the right, and the second drive cavity, the fuselage left side are provided with below the transmission cavity
Equipped with the latch well positioned at second drive cavity bottom, rotatably it is provided in second drive cavity and extends second up and down
Rotation axis is fixedly installed first pulley in second rotation axis, and second rotation axis is upwardly extended through described second
Drive cavity upper surface is stretched into first drive cavity, and the second rotation shaft end in first drive cavity is fixedly mounted
There are the second bevel gear engaged with the first bevel gear, second rotation axis to extend downwardly through under second drive cavity
End face is stretched into the latch well, and the second rotation shaft end in the latch well is installed with first gear, described
It is provided on the right side of fuselage positioned at stir chamber below second drive cavity, setting is connected between the stir chamber and the transmission cavity
There is a communicating passage, the discharge port being equipped in the stir chamber inner left wall outside connection, symmetrical rotation in the stir chamber
It is provided with the third rotation axis extended up and down, the third rotation axis upper and lower ends are rotatably assorted respectively in the connection stir chamber
Lower end wall, the third rotation axis extend downwardly through the stir chamber lower end wall and stretch into positioned at described in the stir chamber bottom
In third drive cavity, left and right two in the third drive cavity third rotation shaft end is fixedly installed the to be meshed
Two gears, the third rotation axis in left side, which is upwardly extended, to be stretched into through the stir chamber upper end wall in second drive cavity,
Third rotation shaft end in second drive cavity is fixedly connected with the second belt wheel, second belt wheel and described first
Belt wheel is connected by belt transmission.
2. according to claim 1 a kind of for municipal sludge processing equipment, it is characterised in that:Left and right in the transmission cavity
It is symmetrically arranged with front and back the 4th rotation axis extended, the 4th rotation axis rear and front end is rotatably assorted respectively connects the transmission
End wall before and after chamber, the 4th rotation shaft rear end on right side and the second motor being fixed in the transmission cavity aft bulkhead
Power connects, and is installed in the 4th rotation axis by the transmission wheel of conveyer belt transmission connection.
3. according to claim 1 a kind of for municipal sludge processing equipment, it is characterised in that:The discharge port inner roof wall
It is inside provided with the first slippage slot that Open Side Down, can be slided up and down in first slippage slot and be provided with rack, on the rack
End face is provided with the first inclined-plane being tilted to the left, and end wall is interior equipped with the gear cavity being open to the right, the tooth on the left of the first slippage slot
Wheel intracavitary is rotatably provided with front and back the 5th rotation axis extended, and end and institute is fixed on rear side of the 5th rotation axis
It states the third motor power connection in gear cavity aft bulkhead, is installed in the 5th rotation axis and is engaged with the rack
Third gear.
4. according to claim 1 a kind of for municipal sludge processing equipment, it is characterised in that:The latch well with it is described
The second slippage slot is provided with and communicated between first slippage slot, what can be horizontally slipped in second slippage slot is provided with sliding shoe,
It is equipped on the left of the sliding shoe and is equipped with described first tiltedly with the matched locking teeth of the first gear, the sliding shoe right side
Matched second inclined-plane in face is equipped with limiting slot in the second slippage slot upper end wall, be slidably fitted in the limiting slot with
The limited block that the sliding shoe is fixedly connected is installed with the to offset with the limited block on the right side of the limiting slot on end wall
Two springs.
5. according to claim 1 a kind of for municipal sludge processing equipment, it is characterised in that:The feeding chamber and outside
Space is provided with and communicated with feed inlet, and feeding bottom of chamber portion is equipped with effluent trough, is connected to and sets between the feeding chamber and the effluent trough
It is equipped with equally distributed apopore.
6. according to claim 1 a kind of for municipal sludge processing equipment, it is characterised in that:Outside the third rotation axis
It is fixedly connected with agitating paddle.
7. according to claim 1 a kind of for municipal sludge processing equipment, it is characterised in that:The vibration damper plate setting exists
It the top and bottom of the first motor and is fixedly connected with the first motor, the metal drop backing is arranged described first
The front-end and back-end of motor and be fixedly connected with the shell of the first motor, the top and bottom of the metal drop backing with
The vibration damper plate is fixedly connected, and the front-end and back-end of the first motor are respectively equipped with the metal drop backing of three pieces or more.
8. one kind according to claim 1-7 is used for municipal sludge processing equipment, processing method is as follows:This
In the initial state, the first motor remains static the equipment of invention, and the sliding shoe is located at second slippage slot
Right side, the rack are located at stir chamber described in the discharge port sealed bottom, and the conveyer belt remains static;
When carrying out sludge dewatering with the equipment of the present invention, start the first motor first, the first motor rotation drives
The first rotation axis rotation, the first rotation axis rotation drive the cone-type spiral shaft rotation dynamic, sludge are then passed through institute
It states feed inlet and pours into the feeding chamber, the sludge is moved to the left under the cone-type spiral axis rotary action, when the sludge
The moisture that accumulation to the left squeezes in the sludge described when squeezing disk will be extruded, and the water is fallen into described by the apopore
Effluent trough, when overcoming first spring due to sludge accumulation extruding force, the extruding disk is moved to the left, and the sludge after extruding will
It is fallen on the conveyer belt by the blanking channel, starts second motor, the conveyer belt turns right the dirt
Mud is sent in the communicating passage, and the sludge is fallen by the communicating passage to the stir chamber;
When carrying out sludge deep processing with the equipment of the present invention, lime is sent by the blanking channel, the lime exists
It falls to the stir chamber after moving right under the conveyer belt effect, at this point, due to described in first motor rotation drive
First bevel gear, first bevel gear rotation drive the second bevel gear, and the second bevel gear rotation drives described the
One belt wheel rotates, and the first pulley rotation drives the second belt wheel rotation, the second belt wheel rotation to drive described in left side
Third rotation axis rotates, and the third rotation axis rotation drives the second gear rotation, and the right side third rotation axis is in institute
It states and is rotated backward under second gear effect, lime is sufficiently mixed with the sludge at this time;
When carrying out discharge with the equipment of the present invention, stop the first motor, starts described in the third motor reversal drive
Rack rises, and the rack rising pushes the sliding shoe to the left, and the sliding shoe is moved to left to be engaged with the first gear, lock
Determine the first gear, material is excluded by the discharge port at this time.
Priority Applications (1)
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CN201810410150.8A CN108503182A (en) | 2018-05-02 | 2018-05-02 | A kind of processing method for municipal sludge |
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CN201810410150.8A CN108503182A (en) | 2018-05-02 | 2018-05-02 | A kind of processing method for municipal sludge |
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CN201810410150.8A Withdrawn CN108503182A (en) | 2018-05-02 | 2018-05-02 | A kind of processing method for municipal sludge |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110803842A (en) * | 2019-11-19 | 2020-02-18 | 马离原 | Silt cleaning equipment |
CN111499149A (en) * | 2020-05-13 | 2020-08-07 | 杭州绪原科技有限公司 | Sludge dewatering machine capable of being adjusted according to water content of sludge |
CN112138559A (en) * | 2020-09-30 | 2020-12-29 | 广州扬坪机电科技有限公司 | Mechatronic mixer with shock attenuation noise cancelling function |
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CN106476163A (en) * | 2016-11-30 | 2017-03-08 | 无锡同心塑料制品有限公司 | A kind of foam plasticss reclaim pelletize pre-processing device |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN110803842A (en) * | 2019-11-19 | 2020-02-18 | 马离原 | Silt cleaning equipment |
CN110803842B (en) * | 2019-11-19 | 2021-01-01 | 马离原 | Silt cleaning equipment |
CN111499149A (en) * | 2020-05-13 | 2020-08-07 | 杭州绪原科技有限公司 | Sludge dewatering machine capable of being adjusted according to water content of sludge |
CN112138559A (en) * | 2020-09-30 | 2020-12-29 | 广州扬坪机电科技有限公司 | Mechatronic mixer with shock attenuation noise cancelling function |
CN112138559B (en) * | 2020-09-30 | 2021-07-06 | 嘉兴德基机械设计有限公司 | Mechatronic mixer with shock attenuation noise cancelling function |
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Application publication date: 20180907 |