CN209326196U - Exchange heat fluid bed dryer in a kind of - Google Patents

Abstract

Exchange heat fluid bed dryer in a kind of, it is related to the processing unit (plant) technical field dried, cooled down, pelletized to wet feed material, bed body is respectively arranged with dust flue, inlet port and outlet port, it is successively arranged separating chamber from bottom to top in bed body, divides wind web plate, fluidising chamber and separation chamber, dry and wet material mixture area and stream smelting material area are equipped in fluidising chamber, also set up the through-hole backstop for isolating dry and wet material mixture area and stream smelting material area, dry and wet material mixture area is corresponding to be arranged with feed inlet, is equipped with interior heat exchanger in stream smelting material area.The agglomerate card generated can be effectively avoided when work and is adhered to interior heat exchanger inside and accumulation, defect on fire, explosion, can be arranged more interior heat exchanger areas, be achieved the effect that production capacity improves, energy consumption reduces, is stable, and overcoming the defect of background technique.

Description

Exchange heat fluid bed dryer in a kind of

Technical field

The processing unit (plant) technical field that the utility model relates to be dried, cooled down, pelletized to wet feed material, in particular to connect Exchange heat fluid-bed drying technology field in continuous formula.

Background technique

Fluid-bed drying technology: masterbatch (crystal seed, solid material) is by feed system or is manually entered in fluidized bed, is flowing The bottom for changing bed is passed through hot process air, and masterbatch is made to form specific fluidization in dividing on wind web plate for fluidized bed.Material particle Specific gradient is formed from import to outlet, and by different fluidized bed forms, continuous drying function may be implemented, it is continuous drying Equipment can also be used as batch use.

Continuous drying function: fluidized bed is designed using aerofoil from import to outlet and through excessive chamber structure, realizes different positions When setting, according to the specific drying property of material, from high to low, material water ratio gradually decreases temperature, and most economical energy may be implemented The superior quality of consumption and product, above functions can match special control system, interior heating system, air inlet system, technique and match Side reaches new high degree of the current technology in conjunction with equipment, and the use of especially interior heat exchanger, energy-saving effect is especially good, also forges The effect of burning goes to realize some materials containing the crystallization water, and such as following technique: solid articles and the big material of moisture absorption may be implemented Continuous drying technique；The technique that particle, drying is continuously made in powder state raw material；Particle wet feed material continuous drying, cooling technique； The continuous drying technique of crystallinity material.

Continuous drying feature: because being consecutive production, Product Process is reproducible, high production efficiency；Suitable for even When continuous drying, granulation, final products can be dustless, has excellent performance；For the participation for being not intended to pilot process artificial and prevent dirt The generation of dye, continous way are best selections；Low energy consumption；It is compact-sized；Because material layer temperature can be low, safety standard is high, together When processing suitable for heat sensitive material；It is reliable for operation；Evaporation intensity is big, and volume is the 1/15~1/30 of spray drying tower；It is suitable Continuous drying and granulation for viscous material, strong moisture absorption material；Especially when Yield comparison is big, with batch equipment phase Than, have the advantages that energy consumption, quality it is absolute.

In the prior art, wet feed material upper track technique can be the modes such as centrifuge, filter press, concentration evaporator, mixing machine Obtained loose or agglomerate shape wet feed, it is frequent using common interior heat exchange fluidized bed when carrying out fluidized bed drying operation to wet feed material The shortcomings that appearance, has:

After wet feed enters fluidized bed, because having little time drying, dispersion, conglomeration, sticky point of wind web plate and shell in bed are caused Wall damages the phenomenon that fluidisation, dead bed, and wind web plate is especially divided to extend with the continuous production time, and there are web plate blockings, nothing Method reproduction.

Wet feed and the intracorporal fluidisation material incorporation time of bed are inadequate, have agglomerate, cause the material moisture mobile to side storehouse Greatly, agglomerate is more, and it is uneven on the one hand to easily lead to each little particle water content in finished product, it is often more important that, in the physics ruler of small agglomerate When the inside dimension of very little and interior heat exchanger is close, it may appear that be stuck in the internal phenomena of interior heat exchanger, at this moment cause office in fluidized bed Portion is de-fluidized, card it is more, de-fluidized phenomenon is more serious, becomes vicious circle, and de-fluidized region block and adherency There is the phenomenon that material friction, material oneself accumulation heating, the temperature, particularly central temperature of this region material can be higher and higher, Until reaching the softening point of material, interior heat exchanger can be adhered to, divide on wind web plate and shell wall, reaches the point of origin of material, causes On fire, the explosion major accident of equipment；Additional risk is, when particle and agglomerate size are greater than the inside dimension of interior heat exchange, The discharge port having no chance at all from below is gone out, and is built bridge above interior heat exchanger, on fire, quick-fried so as to cause being easier to occur Fried major accident.

Utility model content

The purpose of this utility model is to propose a kind of can effectively avoid the agglomerate generated when work from being stuck in inside interior heat exchanger With the interior heat exchange fluidized bed Drying and cooling machine for accumulating, avoiding the wet adherency blocking of point wind web plate.

The utility model includes bed body, and bed body is respectively arranged with dust flue, inlet port and outlet port, in bed body from it is lower to On be successively arranged separating chamber, divide wind web plate, fluidising chamber and separation chamber, it is characterised in that: be equipped with dry and wet material mixture in fluidising chamber Area and stream smelting material area also set up the through-hole backstop for isolating dry and wet material mixture area and stream smelting material area, the dry and wet material mixing Expect that area is corresponding to arrange with feed inlet, is equipped with interior heat exchanger in stream smelting material area.

When work, former wet feed is introduced into the mixing bed of material, and the wet stock into dry and wet material mixture area is mixed the bed of material first Material dispersion, preliminary drying, and this area can be used compared to more higher hot blast temperature, can well flow after preliminarily dried Change, do not generate super large agglomerate, to reduce caused by damp and hot while effect the energy that material is tacky, reduces or avoid material sticks Power, the material in dry and wet material mixture area is not easy to adhere to through-hole backstop or divides wind web plate at this time, then material passes through through-hole backstop again Enter the stream smelting material area of surrounding, even if so there is agglomerate, because of the effect of through-hole backstop, the agglomerate in dry and wet material mixture area into The stream smelting material area with heat exchanger for not entering side, inside interior heat exchanger, these agglomerates are reduced even without agglomerate, and completely It avoids large crumb from touching interior heat exchanger, reaches heat exchanger in avoiding blocking interior heat exchanger and adhering to and generate agglomerate, caused stream Change bad, material friction, material oneself accumulation heating, cause explosion accident on fire, the agglomerate blocked in dry and wet material mixture area During the work time because fluidizing the effect of material, can slowly grinding, what is do not ground can periodically shut down cleaning, to protect Stabilization when card production, to reach the utility model aim.

Because flowing and being equipped with interior heat exchanger in smelting material area, the agglomerate of stream smelting material area is reduced even without agglomerate, fluidisation material The adhesion in area reduces or does not have adhesion, and the fluidisation resistance of interior heat exchange fluidization regions reduces, so as to maximum From the more interior heat exchanger areas of physically arrangement, more high-efficient interior heat exchange heat supplies, semen donors are provided, thus into one Step reaches production capacity raising, energy consumption reduces, stable purpose of utility model.

Further, through-hole backstop described in the utility model is vertical through holes backstop.Dry and wet material mixture area setting by It in vertical through holes backstop, the region for dividing wind web plate and bed body to surround, i.e., in mixture layer region is directly below exactly a point wind net Plate, structure is simple, because the presence in dry and wet material mixture area, reduces or damp and hot material sticks is avoided to divide wind web plate, because vertically The presence of the through-hole backstop of arrangement, avoiding agglomerate from entering interior heat exchanger causes to block, adhere to, preferably in dry and wet material mixture Area lower part is equipped with block outlet, material in agglomerate or fluidising chamber is discharged.

Another way is that the through-hole backstop further includes cross through hole backstop, and cross through hole backstop is arranged in vertical logical The lower end of hole backstop, cross through hole backstop and divides between wind web plate and is additionally provided with spacing.It is constituted between through-hole backstop, bed body inner wall Dry and wet material mixture area, can further avoid completely wet stock adherency a possibility that dividing wind web plate, be deposited on point wind web plate, Avoid influencing vulnerable to high temperature, the effect of this spacing be become safe distance, it is possible to prevente effectively from agglomerate above through-hole backstop with point The high temperature position of wind web plate directly contacts, and avoids high temperature from causing on fire, the explosion of aggregate material, while mixed in order to increase dry and wet material The thickness in the area He Liao, through-hole backstop with divide the safe distance of wind web plate can be minimum, can be fixed using known any physics Scheme.

In addition, cross through hole backstop described in the utility model can be with inclined arrangement, cross through hole backstop and horizontal line Between angle be 0.5~30 °.The design is conducive to the agglomerate above through-hole backstop to discharge port movement, is more preferably imitated with reaching Fruit.

The through-hole of cross through hole backstop described in the utility model is in diagonally disposed.Such as use diagonally disposed grating type through-hole The plated through-apertures backstop plate of backstop or sidewise hole arrangement can realize that fluidized wind and fluidisation material penetrate through cross through hole backstop When, cross through hole backstop has the effect that material is blown to outlet, and when using vertical gratings formula through-hole backstop, through-hole backstop This ability it is weaker, need to be in tilted layout.

Further more, the through-hole diameter of through-hole backstop described in the utility model is 4~100mm；The interior heat exchanger is shell and tube Heat exchanger or plate heat exchanger, the spacing between the adjacent tubulation of tubular heat exchanger are 4~100mm, the phase of plate heat exchanger Spacing in neighbour between hot plate is 4~100mm.

The inside dimension of heat exchanger is relatively more in usually, wherein have many installations it is fixed use close to zero size, it is logical The clear size of opening of hole backstop is smaller, and the agglomerate that can be blocked is more, is more able to achieve the purpose of this utility model, but the through-hole ruler of baffle It is very little too small, it will cause the risk that fluidisation resistance increases, adhered materials even generate agglomerate on through-hole backstop, so through-hole backstop Clear size of opening cannot be too small, through-hole backstop clear size of opening close to interior heat exchanger inside representative dimensions when, just The indoor agglomerate of spray-fluidized can be blocked.

The lower end of the vertical through holes backstop and divides between wind web plate upper surface spacing is set.This spacing is on the one hand to Installed well convenient for vertical through holes backstop, avoid to divide wind web plate generate interference, be on the other hand dry and wet material mixed material area do not boil, But the small agglomerate that can also be blown enters the stream smelting material area on side by this gap and gradually wind web plate is divided to be blown into discharge port, Guarantee the work of fluidized bed continuous-stable, preferably this spacing is adjusted at work.

The utility model can be also arranged in feed inlet breaks up granulation device.On the one hand wet feed, which can be improved, enters fluidized bed Dispersion effect reduces conglomeration possibility, on the other hand plays and short grained function is made in wet feed material, prevents small pellet reunion shape At agglomerate, to obtain short grained finished product, system baking, drying, cooling fluidized bed function are realized.

Mechanical dispersing device is set in dry and wet material mixture area.In addition to agglomerate is possible to add convenient for forging a knife using machinery Other than broken, moreover it is possible to increase the ability of former wet feed surface spreading and increase product heap density, there is the surface of product preferable Glossy effect and granule roundness, tool striking device, which is preferably, is arranged in the middle and lower part of dry and wet material mixed material area.It can also beat Dissipate granulation device in can be passed through the adjustable plant air of temperature, with former wet stock synchronize enter in fluidized bed body, play more The effect of the former wet stock of good dispersion further decreases the material bed interior agglomeration of dry and wet, generates a possibility that agglomerate.

In the cleaning plant for dividing above wind web plate arrangement that block is driven onto discharge port.At regular intervals, reciprocal fortune It is dynamic primary, the agglomerate of generation is cleared up into the agglomerate discharge that can not be crushed into block discharge port, for that will generate in time, to guarantee Long-time consecutive production.

In addition, continuously becoming the drying of heat exchange fluidized bed, cooling, system in continous way into former wet feed, continuous discharge to constitute Grain machine, the utility model can also be equipped with return port on shell, can revolve outside selective setting according to specific needs at this time The various environmental protecting devices such as wind separator, built-in bag filter, external bag filter, external wet process collector and taste removal, respectively The material that deduster is collected can individually extra process and also by material-returning device be sent to return port or feed inlet participate in it is continuous Granulation, drying work preferably return to system inlets, by the system of breaing up for entering import after mixed powder and former wet feed Grain device.

In conclusion using the utility model above technical scheme can be effectively avoided interior heat exchange fluidized bed work when because The agglomerate that wet feed material reason generates is stuck in inside interior heat exchanger and accumulation, adherency divide wind web plate to cause to block, and avoids therefore causing On fire, explosion, while can arrange heat exchanger area in more, reduce dryer energy consumption, reach production capacity raising, energy consumption drop Low, stable effect.

Detailed description of the invention

Fig. 1 is a kind of elevational schematic view of the utility model.

Fig. 2 is a kind of side schematic view with interior heat exchanger fluidising chamber of Fig. 1.

Fig. 3 is that the dry and wet material of Fig. 1 mixes a kind of side schematic view of fluidising chamber.

Fig. 4 is that the dry and wet material of Fig. 1 mixes another side schematic view of fluidising chamber.

Fig. 5 is another elevational schematic view of the utility model.

Fig. 6, Fig. 7 are two kinds of side schematic views of Fig. 5.

Fig. 8 is the third elevational schematic view of heat exchange fluid bed dryer in the utility model.

Fig. 9 a is a kind of structural schematic diagram of vertical gratings formula through-hole backstop.

Fig. 9 b is a kind of structural schematic diagram of oblique grating type through-hole backstop.

Fig. 9 c is a kind of structural schematic diagram of plated through-apertures backstop.

Figure 10 is heat exchanger tape channel structural schematic diagram in the utility model shell and tube.

Wherein: 1 is separating chamber, and 2 is divide wind web plate, and 3 be fluidising chamber, and 4 be dry and wet material mixture area, and 5 be separation chamber, and 6 are Dust flue, 7 be cross through hole backstop, and 8 be interior heat exchanger, and 9 be vertical through holes backstop, and 10 be cyclone separator, and 11 be return port, 12 be feed inlet, and 13 be discharge port, and 14 is break up granulation device, and 15 be returning charge Blowing stopper, and 16 be bag filter, and 17 be height Distance, 18 be the clear size of opening of through-hole backstop, and 19 be the representative dimensions of interior heat exchange, and 20 is divide storehouse partition, and 21 be through-hole backstop It forges a knife with horizontal angle, 22 for mechanical energy, 23 be grating type through-hole backstop, and 24 be plated through-apertures backstop, and 25 be mechanical clear Device is managed, 26 be hot wind inlet, and 27 be bed body, and 28 be block discharge port, and 29 be channel, and 30 be mixing arrangement, and 31 be fluidisation material Area.

Specific embodiment

As shown in Fig. 1 to 7: exchange heat fluidized bed granulation, drying, cooler in one kind, is provided with above bed body 27 into former wet Material mouth 12, lower section are provided with discharge port 13, and 27 main body of bed body is followed successively by separating chamber 1(from bottom to top can be using shown in Fig. 3 etc. Lower air inlet mode, can also be using side air inlet mode shown in Fig. 2 etc.), divide wind web plate 2(to can use various known technology, Low with point wind resistance, with side-blown power and not material leakage technology is preferred), fluidising chamber 3(can add for straight section, taper, straight section Pyramidal structure), separation chamber 5(can add pyramidal structure for straight section, taper, straight section), 27 top of bed body is equipped with dust flue 6(can be with For side air exhausting structure shown in surface shown in Fig. 6 or Fig. 7), fluidising chamber 3 and separation chamber 5 are successively continuously to communicate sky each other Between.

Dry and wet material mixture area 4 and stream smelting material area 31 are arranged in fluidising chamber 3, by vertical through holes backstop 9 by dry and wet material Mixture area 4 and stream smelting material area 31 are isolated, also, dry and wet material mixture area 4 should be arranged with feed inlet 12.

The utility model is characterized in that: being equipped in stream smelting material area 31 shown in several interior heat exchanger 8(Fig. 5 close to discharging It is discharge block at mouthful, interior heat exchanger can also be not provided with), cross through hole backstop 7 or vertical is provided with below feed inlet 12 Through-hole backstop 9(is stuck on cross through hole backstop 7 or vertical through holes backstop 9 in order to avoid block, cross through hole backstop 7 or vertical Through-hole backstop 9 can be set to the scheme with elasticity, and when work can play the role of self-cleaning).It is also set below feed inlet 12 There is dry and wet material mixture area 4, the former wet feed fallen from feed inlet 12 is introduced into dry and wet material mixture area 4, then by laterally logical Hole backstop 7 or vertical through holes backstop 9 enter back into the stream smelting material area 31 to side, dry and wet material mixture area 4 and stream 31 phase of smelting material area , can also be by vertical through holes backstop 9 and the gap for dividing wind web plate 2 when logical, adjustable size when this gap preferably works.

Several schemes as shown in Fig. 1 to Fig. 8, can according to specific needs selective setting external cyclone 10, Built-in bag filter 16(is as shown in Figure 6) or external bag filter, the various rings such as external wet process collector and taste removal Protection device, the material that each deduster is collected can independent extra process, can also by returning charge, such as 15 blanking of Blowing stopper, then It is sent to feed inlet 12 or return port 11, being preferably sent to can will do, mix in the mixing arrangement 30 that wet feed mixes, Then entered in bed body 27 by granulation device 14.The inlet air plenum of each unit, fluidising chamber, separation chamber can correspond, can also Not correspond, inside can have point storehouse partition 20 or not point storehouse partition 20, because of fluidising air velocity in bed body 27 In the presence of fine dust can be discharged bed body 27, and the material being discharged from discharge port 13 is without fine dust, as shown in Figure 5 from discharge port The hot wind inlet 26 of 13 sides is passed through cold plant air, then material first passes through cooling again from the discharge of discharge port 13.

The scheme as shown in Fig. 1 Fig. 8, vertical through holes backstop 9, divide wind web plate 2, bed body 27 inner wall between to constitute dry and wet material mixed The area He Liao 4, vertical through holes backstop 9 can connect on dividing wind web plate 2, can also with divide wind web plate 2 to have a distance, this distance Adjustable size, can also increase a cross through hole backstop 7 as shown in Figure 5 in fig. 8, cross through hole backstop 7 and divide wind There is a distance between web plate 2, effect is that the agglomerate in dry and wet material mixture area 4 is avoided directly to contact with wind web plate 2 is divided, laterally Through-hole backstop 7 and vertical through holes backstop 9 be physically held on interior heat exchanger 8 on 27 inner wall of bed body or interconnect fix.

Connecting one as shown in Fig. 1 Fig. 3 Fig. 4 Fig. 5 Fig. 8, above feed inlet 12 and breaing up granulation device 14(is to increase effect, This device can concatenate 2-3), and in order to smash the possibility agglomerate in dry and wet material mixture area 4, mechanical beat can be set It is in bulk to set 22, preferably rotary blade.

Inside representativeness ruler of the clear size of opening 18 of cross through hole backstop 7 or vertical through holes backstop 9 close to interior heat exchanger Very little 19.In average-size or plate heat exchanger of the internal representative dimensions between the adjacent tubulation of tubular heat exchanger are adjacent Average-size between hot plate, clear size of opening 18 are 4-100mm, and internal representative dimensions 19 are 4-100mm, the mutual Phase Proportion of the two Between 100-400%, preferably the two ratio is between 100-150%.

As shown in figure 4, cross through hole backstop 7 using to 13 direction of discharge port be in tilted layout by the way of, cross through hole backstop 7 Angle 21 between horizontal line is 0.5-30 °, and discharge port 13 may be arranged on the length or width direction of bed body 27, can also be with Several are set as needed.Mechanical energy tool striking device 22 can be set dividing above wind web plate 2 as shown in Figure 3, as shown in Figure 4 Mechanical cleaning device 25 can also be set above cross through hole backstop 7, and the direction of cleaning is block to be discharged into block discharge port 28, block discharge port 28 it is preferential be to be communicated with pelletizer discharge port 13, block discharge port 28 can be set to several.

As shown in figures 9 a-9 c, through-hole backstop (either the cross through hole backstop or vertical through holes gear of the utility model Net) it is optional using cell structure, grid can be vertical gratings formula through-hole backstop 23, and as illustrated in fig. 9,18 be through-hole backstop Clear size of opening；Grid can be oblique grating type through-hole backstop 23, and as shown in figure 9b, 18 be the clear size of opening of through-hole backstop；Through-hole Backstop may be plated through-apertures backstop 24, and as is shown in fig. 9 c, 18 be the clear size of opening of through-hole backstop.Silk screen knot can also be used Structure can realize the utility model aim.When preferably fluidized wind and fluidisation material penetrate through through-hole backstop, through-hole backstop There is the ability that material is blown to outlet, is kept off using the plated through-apertures that diagonally disposed grating type through-hole backstop or sidewise hole are arranged Web plate.

A kind of scheme as shown in Figure 10, feature are the structures that tubular heat exchanger 8 is tape channel, and the effect in channel is discharge Block in possible interior fluidized hot room 3, channel 29 can also by it is horizontally disposed shown in Fig. 2 Fig. 6 etc., be characterized in channel 29 by Interior heat exchanger 8 and dividing between wind web plate 2 is constituted, and the bonus effect in channel 29 is that tube internal heat exchange coefficient can be improved, and reaches volume increase drop Effect is consumed, channel is not required scheme in the utility model, but by fabrication and installation inside normal interior heat exchanger 8, can automatic shape Less at some passage aisles, effect, the channeling towards discharge port direction being especially arranged is relatively obvious, and channel is stated in this place Gap reaches the 2 times or more of clear size of opening 18, is preferably between 2-100 times.

In the device scheme, preferred data are as follows: interior heat exchanger 8 is 10~400 with the vertical range for dividing wind web plate 2 mm；3 height of fluidising chamber is 300-3000mm；Height distance 17 is 50-500mm；The clear size of opening 18 of through-hole backstop is 4- 100mm；The inside representative dimensions 19 of interior heat exchanger 8 are 4-100mm.

Course of work explanation:

Height when height can be reduced, be worked normally when having a fluidized particales 3(to start when work, in bed body 27 first For shown position), former wet stock is from feed inlet 12 enters fluidized bed, most former wet stock falls into dry and wet material mixture area first 4, while the thermal current of certain flow is supplied from hot wind inlet 26, thermal current, which enters to pass through after separating chamber 1, divides wind web plate 2, material Blown by thermal current while under interior 8 heat effect of heat exchanger, be in fluidized state in fluidising chamber 3, in separation chamber 5 endoparticle into Row gas solid separation, sedimentation, the gas after heat exchange are discharged from dust flue 6, and the particle of sedimentation falls into fluidized bed entrance and worked on Journey, the thermal current and interior heat exchanger 8 that required heat is provided by hot wind inlet 26 provide jointly, to reduce the use of thermal current Amount, plays energy-conserving action.

The schemes such as shell and tube or plate heat exchanger can be used in interior heat exchanger 8, and steam, heat can be passed through inside interior heat exchanger Heat transferring medium known to water, conduction oil, cold water etc..

When material enters the stream smelting material area 31 on side from dry and wet material mixture area 4, backstop 9 can be led to by vertical through holes and is led to It crosses, backstop 9 can also be led to from vertical through holes and the gap between wind web plate 2 is divided to pass through, this gap is adjustable when preferably working Whole size.

Cross through hole backstop 7 and wind web plate 2 is divided to have a height distance 17, cross through hole backstop 7 is physically held in interior heat exchange On 27 inner wall of device 8 or bed body, because there are height distance 17, the agglomerate that cross through hole backstop 7 the blocks just height with internal heater 8 Warm position does not contact, and avoids therefore on fire, explosion.

During the work time, cross through hole backstop 7 or vertical through holes backstop 9 are group excessive in dry and wet material mixture area 4 Block blocks, and avoids guaranteeing that normal fluidisation is changed with interior there is a phenomenon where blocking and adhering to interior heat exchanger 8 and block a point wind web plate 2 The normal work of hot device 8, thus fluidisation explosion accident bad, on fire caused by avoiding these agglomerate reasons.

Dry and wet material mixture area 4, which is likely to occur agglomerate reason, has the wet feed that former wet feed inlet moment is excessive, enters not have Scatter, 4 local fluidizations of dry and wet material mixture area are bad etc., these are rolled into a ball using cross through hole backstop 7 or vertical through holes backstop 9 Block is kept off except interior heat exchanger 8, therefore is played reduction or avoided material sticks, be stuck in agglomerate, stream caused by interior 8 inside of heat exchanger Change bad.

The agglomerate blocked in dry and wet material mixture area 4 can periodically shut down cleaning, can also be discharged from block outlet 28, Or it is forged a knife using mechanical energy and 22 is crushed or periodic cleaning is carried out using mechanical energy cleaning plant 25, is discharged to from channel 29 Discharge port 13, to guarantee stabilization when production.

Because the agglomerate in interior heat exchanger fluosolids 3 is reduced even without agglomerate, the adhesion of interior heat exchanger layer 3 is reduced Or there is no adhesion, the fluidisation resistance of interior heat exchange fluosolids 3 reduces, so as to greatest extent from physically arranging 8 area of heat exchanger in more provides more high-efficient interior heat exchange heat supplies, semen donors, thus further reach production capacity improve, Energy consumption reduction, stable purpose of utility model.

Exchange heat in continous way fluidized bed granulation, drying, on cooling scheme (as shown in Figure 5-Figure 8), shaped granule whereabouts To dividing on wind web plate 2, in the case where thermal current is blown or divides the guiding of wind web plate 2, molding materials are mobile to discharge port 13, are discharged, heat Air-flow blow so that the lesser material of particle in separation chamber 5 with the feed separation of bulky grain, particulate dust is on thermal current It rises and sequentially enters in dust flue 6 and cyclone separator 10, after the separation of cyclone separator 10, gas enters postchannel process, powder Dirt material leads to import mixing arrangement 30 under material-returning device effect after the collection of returning charge Blowing stopper 15 from cyclone separator and carries out Softwood is made after mixing, continues to participate in drying operation by breaing up in the entrance bed body of granulation device 14.

On continuous and discrete interior heat exchange fluidized bed granulation, drying, cooling scheme, the property of can choose is set as needed Set each device that number is 10-30.

When being further also provided with a shorter interior heat exchanger 8 of height below horizontal through hole backstop 7, through-hole backstop 7 have a height distance 17 with interior 8 the top heat exchange part of heat exchanger, because there are height distance 17, group that through-hole backstop 7 blocks Block is not just contacted with the high temperature position of internal heater 8, avoids therefore on fire, explosion.

The adjustable plant air of temperature can be passed through by breaing up in granulation device 14, with former wet stock synchronize enter fluidized bed In body 27, play the role of preferably dispersing former wet stock, the possibility for further decreasing the material bed interior agglomeration of dry and wet, generating agglomerate Property.

In conclusion after using above each scheme, can to avoid agglomerate is blocked in interior heat exchanger 8, adherency generates agglomerate, point Adhered materials on wind web plate 2, and avoid therefore generate material accumulation, on fire, explosion accident, can allow internal heater 8 as far as possible Arrange more heating surface (area) (HSs, reaching reduces fluidized bed energy consumption, achievees the effect that production capacity improves, energy consumption reduces, is stable, keeps away Exempt from the defect of background technique.

Term in the utility model embodiments above mode and arrangement is the prior art.

Claims (10)

1. exchange heat fluid bed dryer in a kind of, including bed body, bed body are respectively arranged with dust flue, inlet port and outlet port, Separating chamber is successively arranged in bed body from bottom to top, divides wind web plate, fluidising chamber and separation chamber, it is characterised in that: is equipped in fluidising chamber Dry and wet material mixture area and stream smelting material area also set up the through-hole backstop for isolating dry and wet material mixture area and stream smelting material area, institute It states dry and wet material mixture area correspondence to arrange with feed inlet, is equipped with interior heat exchanger in stream smelting material area.

2. interior heat exchange fluid bed dryer according to claim 1, it is characterised in that: the through-hole backstop is logical for vertical formula Hole backstop.

3. interior heat exchange fluid bed dryer according to claim 2, it is characterised in that: the through-hole backstop further includes transverse direction Through-hole backstop, cross through hole backstop are arranged in the lower end of vertical through holes backstop；Cross through hole backstop and dividing between wind web plate is arranged Spacing.

4. interior heat exchange fluid bed dryer according to claim 3, it is characterised in that: the cross through hole backstop is inclined Arrangement, the angle between cross through hole backstop and horizontal line is 0.5~30 °.

5. interior heat exchange fluid bed dryer according to claim 3 or 4, it is characterised in that: the cross through hole backstop Through-hole is in diagonally disposed.

6. interior heat exchange fluid bed dryer according to claim 1, it is characterised in that: the through-hole diameter of the through-hole backstop For 4~100mm；The interior heat exchanger is tubular heat exchanger or plate heat exchanger, between the adjacent tubulation of tubular heat exchanger Spacing be 4~100mm, the spacing between the adjacent interior hot plate of plate heat exchanger is 4~100mm.

7. interior heat exchange fluid bed dryer according to claim 3 or 4, it is characterised in that: the vertical through holes backstop Lower end and divides between wind web plate upper surface spacing is set.

8. interior heat exchange fluid bed dryer according to claim 1, it is characterised in that: break up granulation dress in feed inlet setting It sets.

9. interior heat exchange fluid bed dryer according to claim 1, it is characterised in that: be arranged in dry and wet material mixture area Mechanical dispersing device.

10. interior heat exchange fluid bed dryer according to claim 1, it is characterised in that: divide cloth above wind web plate described Set the cleaning plant that block is driven onto discharge port.