CN207351152U - A kind of belt drying device for having the function of to turn over mud - Google Patents
A kind of belt drying device for having the function of to turn over mud Download PDFInfo
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- CN207351152U CN207351152U CN201721349841.9U CN201721349841U CN207351152U CN 207351152 U CN207351152 U CN 207351152U CN 201721349841 U CN201721349841 U CN 201721349841U CN 207351152 U CN207351152 U CN 207351152U
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- dry net
- net band
- impeller
- drying device
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Abstract
The utility model discloses a kind of belt drying device for having the function of to turn over mud, including hothouse and feeding mechanism, the feeding mechanism to be arranged at the outside of the hothouse;The inside of the hothouse is equipped with the first dry net band, the second dry net band and the 3rd dry net band successively from the top down, the top of the first dry net band is equipped with Sludge overturning machine structure, the Sludge overturning machine structure includes turning over mud impeller, impeller mounting bracket, moving guide rail, drive, driving motor and impeller drive motor, two drives are arranged at the both ends of the hothouse on relatively, the moving guide rail is socketed between two drives, and impeller mounting bracket is fixedly installed on the moving guide rail.Blocking sludge internal moisture can not discharge in order to prevent, set the Sludge overturning machine structure, by rotation turn over mud impeller the sludge on the first dry net band is stirred it is broken, by blocking sludge crushing powdering, it is easier to it is dry, so as to improve drying effect.
Description
Technical field
Sludge treatment field is the utility model is related to, more particularly to a kind of belt drying device for having the function of to turn over mud.
Background technology
Treatment of Sludge mainly includes that sludge pressing is blocking and drying sludge, and the sludge cake water content by squeezing processing is still high
Up to 80%, it is therefore desirable to sludge is dried dehydration.It is more at present that sludge is dried using heat drying method, that is, utilize thermal energy
Make the moisture evaporation in sludge, the sludge after desiccation is in particle or powdered, and the high-temperature sterilization effect of heat drying process effectively presses down
Sludge processed is mouldy smelly.
Belt drying device is exactly to use heat drying method, and the wet mud on transmission net band is dried by hot wind.But
In the operation of existing drying sludge, often directly the sludge of high humility is put into belt drying device and is dried, sludge
Into bulk, its internal moisture is not easy to evaporate, and causes drying time long, it is necessary to which longer transmission net band, input cost is high, dry energy
Consumption is big.
Utility model content
The purpose of this utility model is that proposing that one kind is fully broken to block sludge, greatly shorten drying time has
Turn over the belt drying device of mud function.
For this purpose, the utility model uses following technical scheme:
A kind of belt drying device for having the function of to turn over mud, including hothouse and feeding mechanism, the feeding mechanism are set
In the outside of the hothouse;
The inside of the hothouse is equipped with the first dry net band, the second dry net band and the 3rd dry net successively from the top down
Band, and the beginning that the end lower part of the first dry net band is the second dry net band, the second dry net band
End lower part is the beginning of the 3rd dry net band, and the transmission direction of the first dry net band and the 3rd dry net band is
From left to right, the transmission direction of the second dry net band is from right to left;
The feeding mechanism includes feed riser band, feed hopper and charging driving motor, the upper end of the feed riser band
Connected with the beginning of the first dry net band, the feed hopper is arranged at the lower end of the feed riser band;
The feed riser band drives motor to drive by the charging, and the pug on the feed hopper is transported to described the
On one dry net band;
The outside of the hothouse is equipped with heat-pump dehumidification drying device, and the heat-pump dehumidification drying device is into hothouse
Portion exports hot wind, and the pug on the first dry net band, the second dry net band and the 3rd dry net band is dried;
The top of the first dry net band is equipped with Sludge overturning machine structure, and the Sludge overturning machine structure includes turning over mud impeller, impeller installation
Frame, moving guide rail, drive, driving motor and impeller drive motor, two drives are arranged at described dry on relatively
The both ends of dry room, the moving guide rail are socketed between two drives, and impeller mounting bracket is fixedly installed in the movement
On guide rail;
The driving motor is connected with the drive, and the driving motor drives the drive to rotate, and then is driven
The moving guide rail movement;
The bottom of the impeller mounting bracket is vertically arranged to institute close to the upper surface of the first dry net band, the mud impeller that turns over
The bottom of impeller mounting bracket is stated, the impeller drive motor is installed on the bottom of the impeller mounting bracket, the impeller-driven electricity
Machine is connected with mud impeller is turned over, and mud wheel rotation is turned over described in the impeller drive motor driving.
Preferably, the mud impeller that turns over includes impeller shaft, polylith moving blade and turns over slice, the impeller shaft and institute
The output axis connection of impeller drive motor is stated, one end of the moving blade is connected with impeller shaft, and rotation described in polylith
Blade stretches out in dispersion shape from impeller shaft;
Moving blade is fixed in the side for turning over slice.
Preferably, it is described turn over mud impeller and further include turn over mud bar, described one end for turning over mud bar and the opposite side for turning over slice
Connection.
Preferably, exhaust fan, exhaust column and ajutage are further included, the top of the inside of the humidity discharging room and hothouse is equipped with
Multiple exhaust fans, the exhaust fan are connected by exhaust column with the blast pipe of heat-pump dehumidification drying device, the hothouse it is interior
The lower section in portion is equipped with ajutage, and the ajutage is connected with the air outlet of heat-pump dehumidification drying device.
Preferably, the heat-pump dehumidification drying device includes refrigerant flow circuit, and the equipment of the refrigerant flow circuit includes pressure
Contracting machine, auxiliary condenser, condenser, reservoir, filter, expansion valve, evaporator and gas-liquid separator;
Compressor is connected by refrigerant tubing with auxiliary condenser, and auxiliary condenser passes through refrigerant tubing and condenser
Connection, condenser are connected by refrigerant tubing with reservoir, and reservoir is passed through by refrigerant tubing and filter, filter
Refrigerant tubing is connected with evaporator, and evaporator is connected by refrigerant tubing with gas-liquid separator, and gas-liquid separator passes through system
Cryogen pipeline is connected with compressor, forms kind of refrigeration cycle;
Auxiliary evaporator is provided between expansion valve and evaporator, accessory fan is provided with by auxiliary evaporator, is aided in
Condenser is provided with cooling water intake and cooling water outlet.
Preferably, the heat-pump dehumidification drying device further includes dried medium flow, and the dried medium flow includes cold
Condenser, evaporator and regenerator, the hot side connection of the blast pipe and regenerator, the hot side of regenerator pass through wind pipeline and evaporation
Device connects, and the wind pipeline and the cold side of regenerator that evaporator comes out connect, and the wind pipeline that regenerator cold side comes out connects with condenser
Connect, condenser is connected by wind turbine with the air outlet.
Preferably, more block baffles, the both sides of the first dry net band, the both sides and the 3rd of the second dry net band are further included
The both sides of dry net band are equipped with baffle.
Preferably, the end of multiple cleaning rollers, the end of the first dry net band and the second dry net band is further included
End is equipped with the cleaning roller, and the cleaning roller is driven by motor and rotated.
Preferably, homogenating plate is further included, the homogenating plate is arranged at the bottom and top of the 3rd dry net band, described
Multiple respectively holes are uniformly arranged on homogenating plate, the quantity for dividing equally hole is determined by aperture speed, the control number for dividing equally hole
Measure so that the aperture speed is in 9.5~11.5m/s.
Preferably, thermal insulation board is further included, the thermal insulation board is covered in the top of the hothouse, and the thermal insulation board is phenolic aldehyde
Resin thermal insulation board, the thickness of the thermal insulation board are not more than 40mm.
The heat-pump dehumidification drying device exports hot wind to the inside of hothouse, in the first dry net band, the second drying
Pug on guipure and the 3rd dry net band is dried, and processing is dried to the sludge Jing Guo press filtration.Due to by press filtration
Sludge bond it is blocking, blocking sludge is delivered to the first dry net band, and blocking sludge internal moisture can not arrange in order to prevent
Go out, the Sludge overturning machine structure be set, by rotation turn over mud impeller the sludge on the first dry net band is stirred it is broken, will be into
The sludge crushing powdering of block, it is easier to it is dry, so as to improve drying effect.
The mud impeller that turns over is as moving guide rail moves back and forth at the both ends of hothouse, so that back and forth to the first dry net band
On sludge be stirred broken, make broken more abundant, operate more flexible, can control for the larger blocking sludge of volume
Mud impeller is turned over persistently to crush it.
Brief description of the drawings
Attached drawing is described further the utility model, but the content in attached drawing does not form any limit to the utility model
System.
Fig. 1 is the belt drying apparatus structure schematic diagram of the one of embodiment of the utility model;
Fig. 2 is that the one of embodiment of the utility model turns over mud blade wheel structure schematic diagram;
Fig. 3 is that the utility model one of embodiment turns over mud impeller side view;
Fig. 4 is the exhaust column structure diagram of the one of embodiment of the utility model;
Fig. 5 is the heat-pump dehumidification drying device structure diagram of the one of embodiment of the utility model.
Wherein:Hothouse 1;Feeding mechanism 2;First dry net band 31;Second dry net band 32;3rd dry net band 33;
Feed riser band 21;Feed hopper 22;Charging driving motor 23;Heat-pump dehumidification drying device 6;Sludge overturning machine structure 4;Turn over mud impeller 41;
Impeller mounting bracket 42;Moving guide rail 43;Drive 44;Impeller drive motor 45;Impeller shaft 411;Moving blade 412;Turn over mud
Piece 413;Turn over mud bar 414;Exhaust fan 7;Exhaust column 71;Ajutage 5;Blast pipe C;Air outlet D;Compressor 61;Auxiliary condenser
62;Condenser 63;Reservoir 64;Filter 65;Expansion valve 66;Evaporator 67;Gas-liquid separator 68;Auxiliary evaporator 611;It is auxiliary
Help wind turbine 612;Cooling water intake A;Cooling water outlet B;Regenerator 69;Wind turbine 613;Cleaning roller 34.
Embodiment
Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.
The belt drying device turn over mud of the present embodiment, as shown in Figure 1, including hothouse 1 and feeding mechanism
2, the feeding mechanism 2 is arranged at the outside of the hothouse 1;
The inside of the hothouse 1 is equipped with the first dry net band 31, the second dry net band 32 and the 3rd successively from the top down
Dry net band 33, and the beginning that the end lower part of the first dry net band 31 is the second dry net band 32, described the
The end lower part of two dry net bands 32 is the beginning of the 3rd dry net band 33, and the first dry net band 31 and the 3rd is dried
The transmission direction of guipure 33 is that from left to right, the transmission direction of the second dry net band 32 is from right to left;
The feeding mechanism 2 includes feed riser band 21, feed hopper 22 and charging driving motor 23, the feed riser band
21 upper end is connected with the beginning of the first dry net band 31, and the feed hopper 22 is arranged under the feed riser band 21
End;
The feed riser band 21 drives motor 23 to drive by the charging, and the pug on the feed hopper 22 is transported to
On the first dry net band 31;
As shown in figure 4, the outside of the hothouse 1 is equipped with heat-pump dehumidification drying device 6, the heat-pump dehumidification drying device
6 export hot wind to the inside of hothouse 1, on the first dry net band 31, the second dry net band 32 and the 3rd dry net band 33
Pug be dried;
As shown in Figure 1 to Figure 3, the top of the first dry net band 31 is equipped with Sludge overturning machine structure 4, and the Sludge overturning machine structure 4 wraps
Include and turn over mud impeller 41, impeller mounting bracket 42, moving guide rail 43, drive 44, driving motor and impeller drive motor 45, two institutes
Drive 44 is arranged at the hothouse 1 both ends on relatively are stated, the moving guide rail 43 is socketed on two drives
Between 44, impeller mounting bracket 42 is fixedly installed on the moving guide rail 43;
The driving motor and the drive 44 connect, and the driving motor drives the drive 44 to rotate, and then
The moving guide rail 43 is driven to move;
Pacify vertically close to the upper surface of the first dry net band 31, the mud impeller 41 that turns over the bottom of the impeller mounting bracket 42
Bottom loaded on the impeller mounting bracket 42, the impeller drive motor 45 are installed on the bottom of the impeller mounting bracket 42, institute
State impeller drive motor 45 and turn over mud impeller 41 and connect, the impeller drive motor 45, which drives, described to be turned over mud impeller 41 and rotate.
The heat-pump dehumidification drying device 6 exports hot wind to the inside of hothouse 1, in the first dry net band 31, second
Pug on 32 and the 3rd dry net band 33 of dry net band is dried, and processing is dried to the sludge Jing Guo press filtration.Due to
Sludge bonding by press filtration is blocking, and blocking sludge is delivered to the first dry net band 31, in order to prevent inside blocking sludge
Moisture can not discharge, and set the Sludge overturning machine structure 4, by rotation turn over mud impeller 41 to the sludge on the first dry net band 31 into
Row stirring is broken, by blocking sludge crushing powdering, it is easier to and it is dry, so as to improve drying effect.
The mud impeller 41 that turns over is as moving guide rail 43 moves back and forth at the both ends of hothouse 1, so that dry to first back and forth
Sludge on dry guipure 31 be stirred it is broken, make it is broken more abundant, operate it is more flexible, for the blocking dirt that volume is larger
Mud, which can control, to be turned over mud impeller 41 persistently it is crushed.
Preferably, as shown in figure 3, the mud impeller 41 that turns over includes impeller shaft 411, polylith moving blade 412 and turns over mud
The output axis connection of piece 413, the impeller shaft 411 and the impeller drive motor 45, one end of the moving blade 412 and
Impeller shaft 411 connects, and moving blade 412 described in polylith stretches out in dispersion shape from impeller shaft 411;It is described to turn over mud
Moving blade 412 is fixed in the side of piece 413.
Preferably, as shown in figure 3, it is described turn over mud impeller 41 and further include turn over mud bar 414, described one end for turning over mud bar 414 and
The opposite side connection for turning over slice 413.
It is described to turn over slice 413 and turn over mud bar 414 and rotated with the rotation of moving blade 412, and in moving guide rail 43
Pulling under it is described turn over slice 413 and turn over mud bar 414 can be inserted into sludge, so as to substantially more break up sludge, turn over slice 413
Can the small blocking sludge of fragmentation volume, turn over mud bar 414 can the big blocking sludge of fragmentation volume, mud area is turned in increase and to turn over mud strong
Mud efficiency is turned in degree, raising.
Preferably, as shown in figure 4, further including exhaust fan 7, exhaust column 71 and ajutage 5, the humidity discharging room 13 and hothouse
The top of 1 inside is equipped with multiple exhaust fans 7, and the exhaust fan 7 passes through exhaust column 71 and the inlet air of heat-pump dehumidification drying device 6
Pipe C is connected, and the lower section of the inside of the hothouse 1 is equipped with ajutage 5, and the ajutage 5 and heat-pump dehumidification drying device 6 go out
Air port D is connected.
Indoor wet air is pumped into the heat-pump dehumidification drying device 6 by the exhaust fan 7 of hothouse 1 through exhaust column 71,
The heat-pump dehumidification drying device 6 carries out dehumidification treatments to hothouse 1;And the heat-pump dehumidification drying device 6 passes through air-supply
For pipe 5 to 1 heat air delivery of hothouse, ajutage 5 is arranged at the bottom of hothouse 1, and exhaust fan 7 is arranged at the top of hothouse 1, from
And guide hot wind to pass through the first dry net band 31, the second dry net band 32 and the 3rd dry net band 33 successively upwards, take away sludge
In moisture, realize dry sludge.
Preferably, as shown in figure 5, the heat-pump dehumidification drying device 6 includes refrigerant flow circuit, the refrigerant flow circuit
Equipment includes compressor 61, auxiliary condenser 62, condenser 63, reservoir 64, filter 65, expansion valve 66,67 and of evaporator
Gas-liquid separator 68;
Compressor 61 is connected by refrigerant tubing with auxiliary condenser 62, auxiliary condenser 62 by refrigerant tubing with
Condenser 63 connects, and condenser 63 is connected by refrigerant tubing with reservoir 64, and reservoir 64 passes through refrigerant tubing and mistake
Filter 65, filter 65 are connected by refrigerant tubing with evaporator 67, and evaporator 67 passes through refrigerant tubing and gas-liquid separation
Device 68 connects, and gas-liquid separator 68 is connected by refrigerant tubing with compressor 61, forms kind of refrigeration cycle;
Auxiliary evaporator 611 is provided between expansion valve 66 and evaporator 67, auxiliary is provided with by auxiliary evaporator 611
Wind turbine 612, auxiliary condenser 62 are provided with cooling water intake A and cooling water outlet B.
The specific work process of refrigerant flow circuit is as follows:High temperature and pressure overheated gas refrigerant is squeezed into auxiliary by compressor 61
Condenser 62 and condenser 63 (in parallel or series), refrigerant gas become saturation or subcooled liquid, through reservoir 64, filter
65 and expansion valve 66 after formed low pressure gas, liquid mixture refrigerant, through auxiliary evaporator 611 and evaporator 67 (in parallel or series)
Enter gas-liquid separator 68 afterwards, form low-temp low-pressure overheated gas refrigerant, it is high finally to form high temperature after the compression of compressor 61
Heated gaseous refrigerant is pressed through, so circulation, reach the effect of heat exchange refrigeration.Refrigerant can be inorganic compound, fluoride
Pure refrigerant, hydrocarbon or mix refrigerant.
Preferably, as shown in figure 5, the heat-pump dehumidification drying device 6 further includes dried medium flow, the dried medium
Flow includes condenser 63, evaporator 67 and regenerator 69, and the blast pipe C is connected with the hot side of regenerator 69, regenerator 69
Hot side be connected by wind pipeline with evaporator 67, evaporator 67 come out wind pipeline be connected with the cold side of regenerator 69, backheat
The wind pipeline that 69 cold side of device comes out is connected with condenser 63, and condenser 63 is connected by wind turbine 613 with the air outlet D.
The course of work of dried medium flow is as follows:Blast pipe C enters damp-heat air, and the hot side through regenerator 69 enters back
Hot device 69 carries out heat exchange cooling, then further cools down through evaporator 67 again, and the cold side of the regenerator 69 after cooling enters backheat
Device 69 carries out heat exchange heating, and then condensed device 63 is heated to hot-air, most afterwards through wind turbine 613 from air outlet D outlet air.
Preferably, further include more block baffles, the both sides of the first dry net band 31, the both sides of the second dry net band 32 and
The both sides of 3rd dry net band 33 are equipped with baffle.The baffle prevents the side leakage of sludge.
Preferably, as shown in Figure 1, further including multiple cleaning rollers 34, the end of the first dry net band 31 and described
The end of two dry net bands 32 is equipped with the cleaning roller 34, and the cleaning roller 34 is driven by motor and rotated.The cleaning roller 34
Rotate, sludge is cleaned to lower net band.
Preferably, homogenating plate is further included, the homogenating plate is arranged at the bottom and top of the 3rd dry net band 33, institute
State and multiple respectively holes are uniformly arranged on homogenating plate, the quantity for dividing equally hole is determined by aperture speed, the control respectively hole
Quantity so that the aperture speed in 9.5~11.5m/s.The heat that the homogenating plate comes in the conveying of heat-pump dehumidification drying device 6
Wind is evenly distributed, and improves drying efficiency.
Preferably, thermal insulation board is further included, the thermal insulation board is covered in the top of the hothouse 1, and the thermal insulation board is phenol
Urea formaldehyde thermal insulation board, the thickness of the thermal insulation board are not more than 40mm.The thermal insulation board keeps the temperature the hothouse 1, reduces
The heat-energy losses of hothouse 1, improve drying effect.
The technical principle of the utility model is described above in association with specific embodiment.These descriptions are intended merely to explain this reality
With new principle, and the limitation to scope of protection of the utility model cannot be construed in any way.Based on explanation herein,
Those skilled in the art would not require any inventive effort the other embodiments that can associate the utility model,
These modes are fallen within the scope of protection of the utility model.
Claims (10)
1. a kind of belt drying device for having the function of to turn over mud, including hothouse and feeding mechanism, the feeding mechanism are arranged at
The outside of the hothouse, it is characterised in that:
The inside of the hothouse is equipped with the first dry net band, the second dry net band and the 3rd dry net band successively from the top down,
And the beginning that the end lower part of the first dry net band is the second dry net band, the end of the second dry net band
Lower part is the beginning of the 3rd dry net band, and the transmission direction of the first dry net band and the 3rd dry net band is from a left side
To the right, the transmission direction of the second dry net band is from right to left;
The feeding mechanism includes feed riser band, feed hopper and charging driving motor, the upper end of the feed riser band and institute
The beginning connection of the first dry net band is stated, the feed hopper is arranged at the lower end of the feed riser band;
The feed riser band drives motor to drive by the charging, and it is dry that the pug on the feed hopper is transported to described first
On dry guipure;
The outside of the hothouse is equipped with heat-pump dehumidification drying device, and the inside of heat-pump dehumidification drying device to the hothouse is defeated
Go out hot wind, the pug on the first dry net band, the second dry net band and the 3rd dry net band is dried;
The top of the first dry net band is equipped with Sludge overturning machine structure, and the Sludge overturning machine structure includes turning over mud impeller, impeller mounting bracket, moves
Dynamic guide rail, drive, driving motor and impeller drive motor, two drives are arranged at the hothouse on relatively
Both ends, the moving guide rail are socketed between two drives, and impeller mounting bracket is fixedly installed on the moving guide rail;
The driving motor is connected with the drive, and the driving motor drives the drive to rotate, and then described in drive
Moving guide rail moves;
The bottom of the impeller mounting bracket is vertically arranged to the leaf close to the upper surface of the first dry net band, the mud impeller that turns over
Take turns the bottom of mounting bracket, the impeller drive motor is installed on the bottom of the impeller mounting bracket, the impeller drive motor and
The connection of mud impeller is turned over, mud wheel rotation is turned over described in the impeller drive motor driving.
2. the belt drying device according to claim 1 for having the function of to turn over mud, it is characterised in that:It is described to turn over mud impeller bag
Include impeller shaft, polylith moving blade and turn over slice, the output axis connection of the impeller shaft and the impeller drive motor, institute
The one end for stating moving blade is connected with impeller shaft, and moving blade described in polylith in dispersion shape from impeller shaft to extension
Stretch;
Moving blade is fixed in the side for turning over slice.
3. the belt drying device according to claim 2 for having the function of to turn over mud, it is characterised in that:It is described to turn over mud impeller also
Including turning over mud bar, described one end for turning over mud bar is connected with the opposite side for turning over slice.
4. the belt drying device according to claim 1 for having the function of to turn over mud, it is characterised in that:Further include exhaust fan,
The top of the inside of exhaust column and ajutage, humidity discharging room and hothouse is equipped with multiple exhaust fans, and the exhaust fan passes through exhaust column
Connected with the blast pipe of heat-pump dehumidification drying device, the lower section of the inside of the hothouse is equipped with ajutage, the ajutage and
The air outlet connection of heat-pump dehumidification drying device.
5. the belt drying device according to claim 4 for having the function of to turn over mud, it is characterised in that:The heat-pump dehumidification is done
Dry device includes refrigerant flow circuit, the equipment of the refrigerant flow circuit include compressor, auxiliary condenser, condenser, reservoir,
Filter, expansion valve, evaporator and gas-liquid separator;
Compressor is connected by refrigerant tubing with auxiliary condenser, and auxiliary condenser is connected by refrigerant tubing and condenser
Connect, condenser is connected by refrigerant tubing with reservoir, and for reservoir by refrigerant tubing and filter, filter passes through system
Cryogen pipeline is connected with evaporator, and evaporator is connected by refrigerant tubing with gas-liquid separator, and gas-liquid separator passes through refrigeration
Agent pipeline is connected with compressor, forms kind of refrigeration cycle;
Auxiliary evaporator is provided between expansion valve and evaporator, accessory fan, auxiliary condensation are provided with by auxiliary evaporator
Device is provided with cooling water intake and cooling water outlet.
6. the belt drying device according to claim 5 for having the function of to turn over mud, it is characterised in that:The heat-pump dehumidification is done
Dry device further includes dried medium flow, and the dried medium flow includes condenser, evaporator and regenerator, the blast pipe
It is connected with the hot side of regenerator, the hot side of regenerator is connected by wind pipeline with evaporator, and the wind pipeline that evaporator comes out is with returning
The cold side connection of hot device, the wind pipeline that regenerator cold side comes out are connected with condenser, and condenser passes through wind turbine and the air outlet
Connection.
7. the belt drying device according to claim 1 for having the function of to turn over mud, it is characterised in that:Further include polylith gear
Plate, the both sides of the both sides of the first dry net band, the both sides of the second dry net band and the 3rd dry net band are equipped with baffle.
8. the belt drying device according to claim 1 for having the function of to turn over mud, it is characterised in that:Further include multiple cleanings
The end of roller, the end of the first dry net band and the second dry net band is equipped with the cleaning roller, the cleaning roller
Driven and rotated by motor.
9. the belt drying device according to claim 1 for having the function of to turn over mud, it is characterised in that:Further include homogenating plate,
The homogenating plate is arranged at the bottom and top of the 3rd dry net band, and multiple respectively holes are uniformly arranged on the homogenating plate,
The quantity for dividing equally hole determines by aperture speed, the control quantity for dividing equally hole so that the aperture speed 9.5~
11.5m/s。
10. the belt drying device according to claim 1 for having the function of to turn over mud, it is characterised in that:Further include thermal insulation board,
The thermal insulation board is covered in the top of the hothouse, and the thermal insulation board is phenolic resin thermal insulation board, the thickness of the thermal insulation board
No more than 40mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721349841.9U CN207351152U (en) | 2017-10-17 | 2017-10-17 | A kind of belt drying device for having the function of to turn over mud |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721349841.9U CN207351152U (en) | 2017-10-17 | 2017-10-17 | A kind of belt drying device for having the function of to turn over mud |
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CN207351152U true CN207351152U (en) | 2018-05-11 |
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CN201721349841.9U Active CN207351152U (en) | 2017-10-17 | 2017-10-17 | A kind of belt drying device for having the function of to turn over mud |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112179110A (en) * | 2020-10-10 | 2021-01-05 | 内蒙古万众炜业科技环保股份公司 | Uniform heating drying forming system for anti-crushing coal production |
-
2017
- 2017-10-17 CN CN201721349841.9U patent/CN207351152U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112179110A (en) * | 2020-10-10 | 2021-01-05 | 内蒙古万众炜业科技环保股份公司 | Uniform heating drying forming system for anti-crushing coal production |
CN112179110B (en) * | 2020-10-10 | 2022-02-18 | 内蒙古万众炜业科技环保股份公司 | Uniform heating drying forming system for anti-crushing coal production |
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