Embodiment
The technical solution of the utility model is clearly and completely described below in conjunction with accompanying drawing, it is clear that described
Embodiment is a part of embodiment of the utility model, rather than whole embodiments.Based on the embodiment in the utility model, sheet
The every other embodiment that field those of ordinary skill is obtained under the premise of creative work is not made, belongs to this practicality
Novel protected scope.
, it is necessary to explanation in description of the present utility model, term " " center ", " on ", " under ", it is "left", "right", " perpendicular
Directly ", the orientation or position relationship of the instruction such as " level ", " interior ", " outer " are, based on orientation shown in the drawings or position relationship, to be only
Described for the ease of description the utility model and simplifying, rather than indicate or imply that signified or element there must be specific side
Position, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.In addition, term " first ",
" second ", " the 3rd " are only used for describing purpose, and it is not intended that indicating or implying relative importance.
, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model
Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly
Connection;Can be mechanical connection or electrical connection;Can be joined directly together, can also be indirectly connected to by intermediary,
It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition
Concrete meaning of the language in the utility model.
It should be noted that the helical feed formula material handling apparatus that the utility model is provided can be used as in high temperature and close
Drawing mechanism under the conditions of envelope;Heater can also be set on cylinder, for being used as pyroreaction device;Certainly can be with
The material processing being used for for other under hot conditions.
The first structure signal for the helical feed formula material handling apparatus that Fig. 1 provides for the utility model first embodiment
Figure, Fig. 2 is the structural representation of sealing structure in the helical feed formula material handling apparatus shown in Fig. 1, and Fig. 3 is shown in Fig. 1
The structural representation of graphite bearing in helical feed formula material handling apparatus, Fig. 4 provides for the utility model second embodiment
The structural representation of helical feed formula material handling apparatus, the helical feed formula that Fig. 5 provides for the utility model 3rd embodiment
The structural representation of material handling apparatus.
As shown in Figures 1 to 5, a kind of helical feed formula material handling apparatus that the utility model is provided, including:Cylinder
01st, rotary shaft 02, sealing structure 03 and drive mechanism 04;Sealing structure 03 includes the first high-temperature resistant seal ring 031 and second
High-temperature resistant seal ring 032;One end of cylinder 01 is provided with opening, and the first end of rotary shaft 02 passes through opening and stretched into cylinder 01;
The first high-temperature resistant seal ring 031, the first high-temperature resistant seal ring 031 and the second high-temperature resistant seal ring are provided with the opening of cylinder 01
032 is abutted, and the second high-temperature resistant seal ring 032 is connected with rotary shaft 02;First high-temperature resistant seal ring 031 and the second refractory seals
032 is enclosed by the gap sealing between rotary shaft 02 and opening;Drive mechanism 04 is connected with the second high-temperature resistant seal ring 032,
To drive the second high-temperature resistant seal ring 032 to be moved to the direction close to the first high-temperature resistant seal ring 031, so that the second high temperature resistant is close
Seal 032 is abutted all the time with the first high-temperature resistant seal ring 031.
In the present embodiment, the second high-temperature resistant seal ring 032 is connected with rotary shaft 02, and can be driven when rotary shaft 02 is rotated
Two high-temperature resistant seal rings 032 are rotated relative to the first high-temperature resistant seal ring 031, so as to cause the first high-temperature resistant seal ring
031 and second high-temperature resistant seal ring 032 wear and tear;Drive mechanism 04 is connected with the second high-temperature resistant seal ring 032, makes the second high temperature resistant
All the time there is the trend moved close to the first high-temperature resistant seal ring 031 in sealing ring 032, then once working as the first high-temperature resistant seal ring
031 and second high-temperature resistant seal ring 032 occur abrasion and when producing gap, drive mechanism 04 will drive the second refractory seals
Circle 032 is moved to close to the first high-temperature resistant seal ring 031, so that the first high-temperature resistant seal ring 031 and the second refractory seals
Circle 032 is abutted all the time, and helical feed formula material handling apparatus is sealed all the time.
The helical feed formula material handling apparatus that the present embodiment is provided, the first high-temperature resistant seal ring 031 and the second high temperature resistant
Sealing ring 032 is abutted, and the gap between cylinder 01 and rotary shaft 02 is effectively sealed, and drive mechanism 04 can make the first resistance to height
The warm high-temperature resistant seal ring of sealing ring 031 and second is abutted all the time, then can be ensured to helical feed formula material handling apparatus all the time
Sealed.The good sealing effect of the helical feed formula material handling apparatus, it is to avoid gas leakage causes harm to external environment condition;In addition
Frequent maintenance can be avoided, so as to reduce maintenance cost and use cost.
Wherein, the material of the first high-temperature resistant seal ring 031 and the material of the second high-temperature resistant seal ring 032 can be many
Kind, for example:High-temperature alloy, ceramics or graphite, graphite and alloy mosaics etc..Preferably use graphite, the material
Cost is low, easily obtains.
First high-temperature resistant seal ring 031 and the second high-temperature resistant seal ring 032 can be abutted just pair and completely, can be right with mistake
I.e. part is abutted.
The structure type of drive mechanism 04 has a variety of, for example:Using cylinder, the cylinder body of cylinder is fixed, the piston rod of cylinder
The second high-temperature resistant seal ring 032 is promoted to be moved close to the first high-temperature resistant seal ring 031;Or use hydraulic cylinder or counterweight mode
Replace cylinder.Cylinder or hydraulic cylinder can be rotated with rotary shaft 02 to be connected and promotes rotary shaft 02 to move, so as to drive second
High-temperature resistant seal ring 032 is moved, and cylinder or hydraulic cylinder directly can also be connected with the second high-temperature resistant seal ring 032.
It is preferred that unidirectional limiter is installed in drive mechanism 04 or rotary shaft 02, to ensure the second high-temperature resistant seal ring
032 unidirectional motion, i.e. the second high-temperature resistant seal ring 032 are moved to the direction close to the first high-temperature resistant seal ring 031.
And for example:Drive mechanism 04 includes supporting plate, regulating bolt, spring, thrust bearing and pushing plate;Supporting plate is relatively
Face or other supporting surfaces are fixed, and pushing plate is fixedly connected with rotary shaft 02, and regulating bolt is worn on the supporting plate, and the one of spring
End is connected with the afterbody of regulating bolt, and the other end is rotated with pushing plate by thrust bearing and is connected, right by rotating regulating bolt
Spring is compressed, and spring applies pressure to push pedal, so as to promote rotary shaft 02 to move, and then drives the second high-temperature resistant seal ring
032 moves to the direction close to the first high-temperature resistant seal ring 031.
Specifically, the first high-temperature resistant seal ring 031 and the second high-temperature resistant seal ring 032 is vertical with the axis of rotary shaft 02
Wall be side wall, the first side wall of the first high-temperature resistant seal ring 031 is connected with cylinder 01, the of the first high-temperature resistant seal ring 031
Two side walls are abutted with the first side wall of the second high-temperature resistant seal ring 032, and the second high-temperature resistant seal ring 032 is connected with rotary shaft 02.
It should be noted that cylinder 01 can be horizontally disposed with, it can also be vertically arranged, can also be with vertical direction in any
Angle is set.Accordingly, helical feed formula material handling apparatus can be it is horizontal can also be it is vertical, certainly can also be by spiral
Conveying-type material handling apparatus is placed at an angle with vertical direction.The helical feed formula material processing provided when the present embodiment
, can also be by multiple helical feed formula material handling apparatus phases when heater being set as pyroreaction kettle on the cylinder of device
It is intercommunicated to set, realize the multistage destructive distillation to material.
Gas outlet 016 can also be set on cylinder 01, the gas that material is produced under the high temperature conditions is discharged cylinder in time
Body 01.
It should be noted that can by motor, reductor as rotary shaft 02 power source, rotary shaft 02 and power source compared with
Goodly by gear drive, the kind of drive is steady and can meet fortune while rotary shaft 02 is rotated to rotation axis direction
It is dynamic, collet can be set between rotary shaft 02 and travelling gear, and the preferably material of collet is zirconia ceramics, or
Ceramic fibre heat insulating mattress is set between rotary shaft 02 and travelling gear, it is to avoid the heat transfer of rotary shaft 02 is to gear so as to shadow
Ring normal transmission.
It should be noted that being heated to cylinder in the outer setting heater of cylinder 01, making to keep in cylinder
The temperature that dry distillation reactor needs, in addition, heat-insulation layer can be set outside cylinder, reduces the thermal loss of cylinder, so as to improve heating
Efficiency, reduces power consumption.
As shown in Figures 1 to 5, on above-described embodiment basis, further, helical feed formula material handling apparatus is also
Including cooling structure 05;Cooling structure 05 includes being fixedly connected on the first cooling connecting plate 051 at the opening of cylinder 01, first
High-temperature resistant seal ring 031 is removably secured with the first cooling connecting plate 051 and is connected;It is provided with first cooling connecting plate 051
First coolant flow channel of the first water inlet 0511, the first delivery port 0512 and the circumferentially extending along the first cooling connecting plate 051
0513, one end of the first coolant flow channel 0513 is connected with the first water inlet 0511, and the other end is connected with the first delivery port 0512.
In the present embodiment, cold water can enter the first coolant flow channel 0513 by the first water inlet 0511, then flow through first cold
But runner 0513 flows out outside by the first delivery port 0512.Cold water, can band during the first coolant flow channel 0513 is flowed through
The heat on the first cooling connecting plate 051 is walked, so as to reduce the temperature of the first cooling connecting plate 051, and then is reduced and first is cold
But connecting plate 051 connect the first high-temperature resistant seal ring 031 temperature.This makes it possible to reduce high temperature to the first refractory seals
The harmful effect of circle 031, extends its service life, reduces use cost.
Especially when the first high-temperature resistant seal ring 031 is using graphite, although graphite high temperature resistant, but high temperature can influence graphite
Service life, therefore cooling structure can reduce the temperature of the first high-temperature resistant seal ring 031, so as to further reduce spiral transferring
Send the maintenance cost of formula material handling apparatus.
Wherein, the first coolant flow channel 0513 can be one, i.e., set one to enclose on the perisporium of the first cooling connecting plate 051
Or one section of runner;First coolant flow channel 0513 can be a plurality of, i.e., the first cooling connecting plate 051 is in annular, cold first
But the runner that multi-turn is sequentially communicated is provided with the side face of connecting plate 051.
The connected mode of first high-temperature resistant seal ring 031 and the first cooling connecting plate 051 has a variety of, such as clamping, splicing
Or threaded connection etc..
It is preferred that can be by fastener such as dormant bolt or screw by the first cooling connecting plate 051 and cylinder 01
Connection, between the first cooling connecting plate 051 and cylinder, be respectively provided between fastener and the first cooling connecting plate 051 it is flexible every
Heat seal pad, the material of flexible heat insulation sealing gasket is preferably by ceramic fibre, and the material can withstand up to 1400 degree of temperature
Degree.Flexible heat insulation sealing gasket is set to offset the error that rigid material is produced in installation or motion process, so as to improve peace
Precision is filled, sealing effectiveness is further ensured;In addition, flexible heat insulation sealing gasket can also play effect of heat insulation, cylinder is reduced to the
The heat transfer of one cooling connecting plate 051.
It is preferred that setting dividing plate between the first cooling connecting plate 051 and cylinder 01, dividing plate is fastened by dormant bolt etc.
Part is fixedly connected on cylinder, and the first cooling connecting plate 051 is fixedly connected on dividing plate by fasteners such as dormant bolts.Every
Between plate and cylinder 01, between the first cooling connecting plate 051 and dividing plate, between fastener and dividing plate, fastener cools down with first
Flexible heat insulation sealing gasket is provided between connecting plate 051, such structure can be avoided between the first cooling connecting plate and cylinder
When directly setting flexible heat insulation sealing gasket, flexible heat insulation sealing gasket is blocked up;Good sealing effectiveness can not only be ensured, additionally it is possible to
Offset the error that rigid material is produced in motion process.
As shown in Figures 1 to 5, on above-described embodiment basis, further, cooling structure 05 also includes being arranged on rotation
The swivel joint 050 at the second end of rotating shaft 02 and the second cooling connecting plate 052 being connected with rotary shaft 02;Second high temperature resistant is close
Seal 032 is removably secured with the second cooling connecting plate 052 and is connected;Water inlet and delivery port are provided with swivel joint 050;
The second water inlet 0521, the second delivery port 0522 are provided with second cooling connecting plate 052 and cool down connecting plate 052 along second
Circumferentially extending the second coolant flow channel 0523;One end of second coolant flow channel 0523 is connected with the second water inlet 0521, another
End is connected with the second delivery port 0522;The water inlet of swivel joint is connected with the second water inlet, the delivery port of swivel joint and
Two delivery ports are connected.
In the present embodiment, cold water can flow into the second water inlet 0521 by the water inlet 0501 of swivel joint, and cold water is again passed through
Second coolant flow channel 0523, is then flowed to the delivery port 0502 of swivel joint, finally by swivel joint by the second delivery port 0522
Delivery port 0502 flow out outside.Cold water can take away the second cooling connection during the second coolant flow channel 0523 is flowed through
Heat on plate 052, so that the temperature of the second cooling connecting plate 052 is reduced, and then reduction is connected with the second cooling connecting plate 052
The second high-temperature resistant seal ring 032 temperature.This makes it possible to reduce bad shadow of the high temperature to the second high-temperature resistant seal ring 032
Ring, extend its service life, reduce maintenance cost.
Especially when the second high-temperature resistant seal ring 032 is using graphite, although graphite high temperature resistant, but high temperature can make graphite
Service life is affected, therefore cooling structure can reduce the temperature of the second high-temperature resistant seal ring 032, so as to further reduce
The maintenance cost of helical feed formula material handling apparatus.
It is preferred that setting zirconia ceramics collet between swivel joint 050 and rotary shaft 02, or set ceramics fine
Tie up heat insulating mattress, to prevent spin-ended rotating shaft heat transfer to swivel joint.
Wherein, the water inlet 0501 of swivel joint is connected with the second water inlet 0521 frame mode and swivel joint
The frame mode that delivery port 0502 is connected with the second delivery port 0522 can be to be a variety of, such as:Can be directly in rotary shaft 02
Interior setting water inlet flow channel and outlet passage, water inlet flow channel connect swivel joint the water inlet 0521 of water inlet 0501 and second it
Between, outlet passage is connected between the delivery port 0522 of delivery port 0502 and second of swivel joint;Or, rotary shaft 02 is set
Into hollow, by pipeline to the water inlet 0521 of water inlet 0501 and second of swivel joint, the and of delivery port 0502 of swivel joint
Second delivery port 0522 is connected.
Second coolant flow channel 0523 can be one, i.e., second cooling connecting plate 052 perisporium on set one enclose or
One section of runner;Second coolant flow channel 0523 can be a plurality of, i.e., the second cooling connecting plate 052 is in annular, is connected in the second cooling
The runner that multi-turn is sequentially communicated is provided with the side face of fishplate bar 052.
The connected mode of second high-temperature resistant seal ring 032 and the second cooling connecting plate 052 has a variety of, such as clamping, splicing
Or be threadedly coupled (such as dormant bolt).
As shown in Figures 1 to 5, on above-described embodiment basis, further, sealing structure 03 also includes fixed plate
033, fixed plate 033 is fixed by socket in rotary shaft 02, and the second cooling connecting plate 052 is connected with fixed plate 033.
In the present embodiment, it is connected by fixed plate 033 with rotary shaft 02, the second cooling connecting plate 052 connects with fixed plate 033
Connect, so that the second cooling connecting plate 052 be connected with rotary shaft 02, this makes it possible to be arranged to the second cooling connecting plate 052
With the first cooling identical structure type of connecting plate 051 and specification, such as L-shaped annular in section as shown in Figure 1
Plate, so as to reduce the species of part processing, facilitates process and assemble.
It is preferred that can be by fastener such as dormant bolt or screw by the second cooling connecting plate 052 and fixed plate
033 is connected, between the second cooling connecting plate 052 and fixed plate 033, and fastener and the second cooling connecting plate 052
Between be respectively provided with flexible heat insulation sealing gasket, the use ceramic fibre of the material of flexible heat insulation sealing gasket preferably, the material can be held
By up to 1400 degree of temperature.Flexible heat insulation sealing gasket is set to offset what rigid material was produced in installation or motion process
Error, so as to improve installation accuracy, further ensures sealing effectiveness in addition, flexible heat insulation sealing gasket can also play heat-insulated effect
Really, the heat of rotary shaft is reduced to the transmission of the second cooling connecting plate 052.Now, drive mechanism 04 is connected with rotary shaft 02.
Preferably, refractory seals packing ring is set between the cooling connecting plate 052 of fixed plate 033 and second, in fixed plate
033 one end away from the second cooling connecting plate 052 sets locking nut, and locking nut is set in rotary shaft 02, with fixed plate
033 abuts to be fixed plate 033, so that the seal washer between plate 033 and locking nut is fixed, by fixed plate 033
Installation clearance seal between rotary shaft.
It should be noted that the gap between the first high-temperature resistant seal ring 031 and rotary shaft 02, the second refractory seals
Gap between circle 032 and rotary shaft 02 sets packing seal, further improves the sealing of helical feed formula material handling apparatus
Property, the heat reduced in helical feed formula material handling apparatus is transmitted to sealing ring.
On above-described embodiment basis, further, the first end of rotary shaft 02 passes through linear bearing or graphite bearing
Rotate and be connected with the second end of cylinder 01, be so conducive to rotary shaft 02 to move in the axial direction.
It is preferred that as shown in Figures 1 to 5, on above-described embodiment basis, further, the first end of rotary shaft 02
Rotated and be connected with the second end of cylinder 01 by graphite bearing 06.
It is preferred that the graphite bearing that the material selection alloy of graphite bearing 06 is inlayed, the graphite bearing 06 that alloy is inlayed has
Stronger wearability and weight capacity.
In the present embodiment, realize that rotary shaft 02 and the rotation of cylinder 01 are connected by graphite bearing 06, graphite bearing 06 exists
While realizing support rotating, additionally it is possible to bear high temperature, the normal work of rotary shaft 02 can be ensured, normally entering for production is ensured
OK.It should be noted that rotary shaft 02 can not only be rotated relative to graphite bearing 06, additionally it is possible to rotated relative to graphite bearing 06
Axially simultaneously slide, in end face (end face is vertical with the axis of rotary shaft 02) and the cylinder 01 of the first end of rotary shaft 02
Certain interval is set between the barrel (vertical with the axis of rotary shaft 02) at the second end, and this gap disclosure satisfy that rotary shaft 02 in drive
Amount of movement under the promotion of motivation structure 04;Can also meet rotary shaft 02 under the high temperature conditions with simplified thermal expansion difference, it is to avoid
Rotary shaft 02 is radially expanded to cause damage to the first high-temperature resistant seal ring 031 and the second high-temperature resistant seal ring 032.
As shown in Figures 1 to 5, on above-described embodiment basis, further, helical feed formula material handling apparatus is also
Including the graphite bearing coolant jacket 061 being set on graphite bearing 06, the 3rd water inlet is provided with graphite bearing coolant jacket 061
0611st, the 3rd delivery port 0612 and the 3rd coolant flow channel 0613 of the circumferentially extending along graphite bearing coolant jacket 061, the 3rd is cold
But one end of runner 0613 is connected with the 3rd water inlet 0611, and the other end is connected with the 3rd delivery port 0612.
In the present embodiment, cold water enters the 3rd coolant flow channel 0613 by the 3rd water inlet 0611, and it is cold that cold water flows through the 3rd
But flowed out after runner 0613 by the 3rd delivery port 0612.Cold water is during the 3rd coolant flow channel 0613 is flowed through, by graphite shaft
The heat for holding coolant jacket 061 is taken away, so that the graphite bearing 06 for giving the connection of graphite bearing coolant jacket 061 is cooled down, and then
Extend the service life of graphite bearing 06.
Wherein, the 3rd coolant flow channel 0613 can be one article, i.e., set one to enclose on the perisporium of graphite bearing coolant jacket 061
Or one section of runner;Second coolant flow channel 0523 can be a plurality of, be provided with the perisporium of graphite bearing coolant jacket 061 multi-turn according to
The runner of secondary connection.
Graphite bearing 06 can include being sequentially sleeved at the first graphite bearing 06 and the second stone in rotary shaft 02 from inside to outside
Black bearing 06, can so reduce the abrasion of graphite bearing 06, reduce cost.It is possible to further in graphite bearing 06 and rotation
Collet is set between axle 02, and the preferably material of collet is zirconia ceramics, or sets ceramic fibre heat insulating mattress, heat-insulated
Set or heat insulating mattress can reduce heat transfer of the rotary shaft to graphite bearing 06, so as to be protected to graphite bearing 06.By heavy
Collet is fixedly connected in rotary shaft 02 by the fasteners such as head screw, and the second graphite bearing 06 is fixedly connected on collet.
Further, the gap between graphite bearing 06 and barrel sets thermal insulating filling, and thermal insulating filling can reduce cylinder
Body is to the heat transfer of graphite bearing 06.
Further, cylinder 01 includes cylinder body 013 and tail seal cover 014, and the first end of cylinder body 013 is provided with out
Mouthful, the second end of cylinder body 013 is connected with tail seal cover 014, and the second end of graphite bearing 06 and rotary shaft 02 is respectively provided with
In tail seal cover 014, zirconia barrier connecting plate, or ceramics are set between cylinder body 013 and tail seal cover 014
Fibrous thermal seal washer, heat-insulated connecting plate can reduce heat transfer of the body 013 to tail seal cover 014, so as to reduce
To the heat transfer of graphite bearing 06, between cylinder body 013 and tail seal cover 014 and fastener and tail seal cover 014
Between be respectively provided with ceramic fibre heat-insulating and sealing packing ring, it is possible to reduce to the heat transfer of graphite bearing 06, rotary shaft can also be slowed down
To the mechanical shock of graphite bearing during motion.
It should be noted that graphite bearing 06 is sealed with cylinder 01 with seal closure, the helical feed formula thing is further improved
The sealing of material processing device.
It should be noted that the first water inlet 0511 and the first delivery port 0512, the water inlet 0501 of swivel joint and rotation
Delivery port 0502, the 3rd water inlet 0611 and the 3rd delivery port 0612 of adapter, above-mentioned three can with it is separate with three
Outer water cooling device corresponds connection, can also the shared outer water cooling device of three.
As shown in Figures 1 to 5, on above-described embodiment basis, further, helical feed formula material handling apparatus is also
Including rotary shaft support base 07, rotary shaft support base 07 is located at the second side of the high-temperature resistant seal ring 032 away from cylinder 01, rotation
Scroll wheel is rotatably connected on axle support base 07, scroll wheel and rotary shaft 02 are tangent;And/or, in addition to barrel support seat 08, cylinder
Body support base 08 is connected with the outer peripheral face of cylinder 01.
In the present embodiment, rotary shaft support base 07 is to rotary shaft 02 with support.It is preferred that being rotated on rotary shaft support base 07
Be connected with roller, roller and rotary shaft 02 are tangent, pair of rollers rotary shaft 02 with support, while rotary shaft 02 rotation when, roller
Rotation is followed, and rotary shaft counter roller can slide axially under the drive of drive mechanism.Reduced and rolled by linear contact lay
Heat transfer between wheel and rotary shaft 02, and ensure rotary shaft 02 and the coaxial precision of cylinder 01.Can roller side face
On be arranged collet, preferably the material of collet is zirconia ceramics, or set on the side face of roller ceramic fibre every
Heat pad, to avoid the way roller of rotary shaft 02 from transmitting heat, so as to extend the service life of roller.
It can also be multiple that the quantity of scroll wheel, which can be two,.Multiple rollers are with the center in the same section of rotary shaft 02
It is uniformly distributed for the center of circle, so as to enter row constraint positioning in multiple directions to the rotary shaft 02 of the position, rotary shaft 02 is rotated more
Plus it is steady, also further ensure the fit precision between rotary shaft 02 and cylinder 01.
Barrel support seat 08 can be multiple, and multiple barrel support seats 08 are set along the axially spaced-apart of cylinder 01.Cylinder branch
Seat 08 is supportted to cylinder 01 to support.
Rotary shaft 02 is supported using rotary shaft support base 07, carried out again using barrel support 08 pair of cylinder 01 of seat
Support, makes the helical feed formula material handling apparatus reliable and stable, and can further ensure between rotary shaft 02 and cylinder 01
Assembly precision.
As shown in Figures 2 and 3, on above-described embodiment basis, further, cylinder 01 and rotary shaft 02 are set vertically
Put;Second end of rotary shaft 02 is connected with supporting construction and gives the upward power of rotary shaft 02.
In the present embodiment, lower section can be may be located on above at the opening of cylinder 01.It is preferred that in rotary shaft
02 the second end sets supporting construction, to rotary shaft 02 with upward power, so as to reduce the load of cylinder 01, reduces rotary shaft 02
With the active force between cylinder 01.Supporting construction can be support frame, can also be cylinder, hydraulic cylinder etc..
As shown in Figures 1 to 5, on above-described embodiment basis, further, helical feed formula material handling apparatus is also
Including the bearing of trend along rotary shaft and the multiple helical blades 09 being disposed in rotary shaft 02, two neighboring helical blade
Spacing between 09 can be placed equidistant.
Preferably along the bearing of trend of rotary shaft 02, the spacing between two neighboring helical blade 09 is gradually reduced.This
In embodiment, along the bearing of trend of rotary shaft 02, the spacing between helical blade 09 is gradually reduced, and basis is needed during specific setting
Actual material conveying direction determines, for example when the conveying direction of material be by the first end of rotary shaft 02 to the second end when,
Bearing of trend of the spacing along first end to the second end between two neighboring helical blade 09 reduces, when the conveying direction of material is
By the second end of rotary shaft 02 to first end when, spacing the prolonging along the second end to first end between two neighboring helical blade 09
Stretch direction reduction.
Organic matter in material can decompose generation gas in helical feed formula material handling apparatus, the water in material
Gas can be also transformed at high temperature by dividing, then volume gradually becomes material in motion process in helical feed formula material handling apparatus
Small, then the conveying to material can be met by being gradually reduced the spacing between two neighboring helical blade 09, and can reduce rotation
The length of axle 02, it is to avoid the long waist that collapses of rotary shaft 02, so as to reduce the length of cylinder 01, and then reduces at helical feed formula material
The volume of device is managed, cost is reduced.
The structural representation for the high-temperature reaction equipment that Fig. 6 provides for the utility model embodiment.As shown in Figures 1 to 6, exist
On above-described embodiment basis, the utility model also provides a kind of dry distillation reactor equipment, including the spiral that the utility model is provided
Conveying-type material handling apparatus 100, one end of the cylinder 01 of helical feed formula material handling apparatus 100 is provided with charging aperture 011,
The other end is provided with discharging opening 012;Helical feed formula material handling apparatus at least two, two neighboring helical feed formula material
Processing unit is arranged in a crossed manner, in the discharging opening 012 of one in two neighboring helical feed formula material handling apparatus and both
Another charging aperture 011 is connected.
In the present embodiment, two neighboring helical feed formula material handling apparatus 100 is arranged in a crossed manner, i.e., two helical feed formulas
It can be set between material handling apparatus with an angle, but be not intended to limit a certain independent helical feed formula material handling apparatus
Whether 100 be at an angle of with vertical direction, single helical feed formula material handling apparatus 100 can level, can be vertical, can be with
In vertical direction with a certain angle.
In multiple helical feed formula material handling apparatus 100 adjacent two it is arranged in a crossed manner, improve production capacity while keep away
Exempt from helical feed formula material handling apparatus volume it is excessive it is long deformed in high temperature, the processing of helical feed formula material can also be reduced
The occupancy volume of device, minimizes it.
Preferably, two neighboring helical feed formula material handling apparatus 100 is vertically arranged, so convenient to install, and makes spiral
The compound with regular structure of conveying-type material handling apparatus.Further, two neighboring vertically disposed helical feed formula material processing dress
Put one in 100 to be vertically arranged, another is horizontally disposed with, and along the conveying direction of material, the helical feed formula being vertically arranged
The discharging opening 012 of material handling apparatus is located at the lower section of charging aperture 011, horizontally disposed helical feed formula material handling apparatus
100 charging aperture 011 is located at the front of discharging opening 012, so that it is vertical to form multiple helical feed formula material handling apparatus 100 1
One level is arranged alternately, and the discharging opening 012 for the helical feed formula material handling apparatus 100 being vertically arranged is set with level all the time
The charging aperture 011 for the helical feed formula material handling apparatus 100 put is connected, then makes vertical helical feed formula material handling apparatus
Material in 100 promotes itself downward motion in self gravitation, and material is sticky when preventing worst hot case blocks rotary shaft 02.
Finally it should be noted that:Various embodiments above is only limited to illustrate the technical solution of the utility model, rather than to it
System;Although the utility model is described in detail with reference to foregoing embodiments, one of ordinary skill in the art should
Understand:It can still modify to the technical scheme described in foregoing embodiments, or to which part or whole
Technical characteristic carries out equivalent substitution;And these modifications or replacement, the essence of appropriate technical solution is departed from this practicality newly
The scope of each embodiment technical scheme of type.