CN206001488U - A kind of bagasse boiler dries jet burning system - Google Patents

Abstract

The utility model is related to bagasse burning preconditioning technique field, in particular disclose a kind of bagasse boiler and dry jet burning system, batch charging mechanism drying screen-dividing machine is communicated to spray combustion engine structure, dry screen-dividing machine and be provided with hot air inlet and waste gas air outlet, dry screen-dividing machine and the first air-introduced machine connected with waste gas air outlet is equiped with, dry screen-dividing machine and batch charging mechanism and bagasse boiler is respectively communicated to through the first air-introduced machine；When actually used, bagasse is input in drying screen-dividing machine through batch charging mechanism, and hot blast is input in drying screen-dividing machine through hot air inlet and then dries bagasse, reduces the water content of bagasse, guarantee that the bagasse being conveyed in bagasse boiler fully can burn, lift the thermal efficiency of bagasse boiler；Additionally, the hot waste gas that discharges from waste gas air outlet is respectively delivered in batch charging mechanism and in bagasse boiler, prebake is carried out to the bagasse in batch charging mechanism, compared to the cold air being conveyed in bagasse boiler, lift the efficiency of combustion of bagasse boiler.

Description

A kind of bagasse boiler dries jet burning system

Technical field

The utility model is related to bagasse burning preconditioning technique field, in particular discloses a kind of bagasse boiler and dries spray combustion system System.

Background technology

In order to realize that material is recycled, bagasse typically will carry out burning process through boiler, in combustion process The heat of generation is used for generating electricity, and the ashes after bagasse burning can directly be sprinkled upon in farmland and recycle.

Bagasse of the prior art is mostly directly to be sent in bagasse boiler to be burnt via conveyer, due to bagasse Water content higher, using bagasse as fuel directly burn generation calorific value low, and can also produce substantial amounts of flue gas, cause sugarcane Slag exhaust gas temperature is higher, causes the waste of heat, affects the thermal efficiency of bagasse boiler；Additionally, the bagasse boiler thermal efficiency is relatively The low increase that can also cause fuel demand, the increase of fuel quantity can cause the increasing of dust discharge amount and nitrogen oxide emission Plus, significantly increase follow-up vent gas treatment cost.

Utility model content

In order to overcome shortcoming and defect present in prior art, the purpose of this utility model is to provide a kind of bagasse pot The dry jet burning system of baking oven, reduces the water content of the bagasse being conveyed in bagasse boiler, lifts the thermal efficiency of bagasse boiler.

For achieving the above object, a kind of bagasse boiler of the present utility model dries jet burning system, including batch charging mechanism, drying Mechanism and spray combustion engine structure, batch charging mechanism drying mechanism are used for being communicated to bagasse boiler with spray combustion mechanism connection, spray combustion engine structure, institute Stating drying mechanism includes to dry screen-dividing machine, and batch charging mechanism drying screen-dividing machine is communicated to spray combustion engine structure, dries screen-dividing machine and is provided with heat Wind air inlet and waste gas air outlet, are dried screen-dividing machine and are equiped with the first air-introduced machine connected with waste gas air outlet, dry screen-dividing machine Batch charging mechanism and bagasse boiler are respectively communicated to through the first air-introduced machine.

Preferably, the batch charging mechanism includes belt-conveying unit, push-and-pull squeegee unit and chute, and push-and-pull squeegee unit is slided Be dynamically connected in belt-conveying unit, belt-conveying unit is communicated to drying screen-dividing machine through chute, screen-dividing machine is dried through the first air inducing Machine is communicated to chute.

Preferably, the batch charging mechanism also includes bagasse cast feeder, and chute is connected with screen-dividing machine is dried through bagasse cast feeder, Dry screen-dividing machine bagasse boiler is communicated to through the first air-introduced machine and bagasse cast feeder.

Preferably, the push-and-pull squeegee unit includes support, the first actuator, first connecting rod, second connecting rod, abduction rod and scrapes Plate, the first actuator are installed in support, and abduction rod includes the first bar portion and bends the second bar portion for extending, the first bar from the first bar portion Portion is rotationally connected with support with the second bar portion one end close to each other, and one end of first connecting rod is installed in the defeated of the first actuator Go out end, the two ends of second connecting rod are rotationally connected with the other end of first connecting rod and the first bar portion respectively away from the one of the second bar portion End, one end of scraper plate are rotationally connected with the one end of the second bar portion away from the first bar portion, and the other end of scraper plate is slidably connected to skin Band supply unit.

Preferably, the drying mechanism also includes screw(-type) feeder and disintegrating machine, dries screen-dividing machine and is provided with the outlet of thin bagasse And thick bagasse is exported, screw(-type) feeder is used for connecting the outlet of thin bagasse and spray combustion engine structure, and disintegrating machine is for connecting the outlet of thick bagasse With spray combustion engine structure.

Preferably, the disintegrating machine includes casing, the second actuator for being installed in casing, is rotationally connected with casing and that This spaced two first rotating shaft, the broken operator of first rotating shaft is installed in, the second actuator and two first rotating shafts connect Connect.

Preferably, the drying screen-dividing machine includes casing, the screen assemblies being installed in casing, is rotationally connected with casing Play bagasse component, beat bagasse component include to be installed in casing the 3rd actuator, be rotationally connected with casing the second rotating shaft, Be installed in the helical blade of the second rotating shaft, the 3rd actuator is connected with the second rotating shaft, batch charging mechanism, spray combustion engine structure respectively with casing Connection, hot air inlet, waste gas air outlet are respectively arranged on casing.

Preferably, the casing is also equiped with temperature sensor, spraying mechanism, pressure sensor and explosion proof door, spray thrower Structure is electrically connected with temperature sensor, and explosion proof door is electrically connected with pressure sensor.

Preferably, the drying mechanism also includes cyclone dust collectors, and the first air-introduced machine is through cyclone dust collectors and batch charging mechanism Connection.

Preferably, the spray combustion engine structure includes feeder sleeve and is installed in the second air-introduced machine of feeder sleeve that drying mechanism is through supplying Expects pipe is communicated to bagasse boiler.

The beneficial effects of the utility model：When actually used, bagasse is input in drying screen-dividing machine through batch charging mechanism, hot blast It is input in drying screen-dividing machine through hot air inlet and then bagasse is dried, reduces the water content of bagasse, it is ensured that be conveyed into bagasse Bagasse in boiler fully can burn, and lift the thermal efficiency of bagasse boiler；Additionally, the hot waste gas that discharges from waste gas air outlet divides Be not transported in batch charging mechanism and bagasse boiler in, prebake is carried out to the bagasse in batch charging mechanism, compared to being conveyed into bagasse Cold air in boiler, lifts the efficiency of combustion of bagasse boiler.

Description of the drawings

Fig. 1 is front view of the present utility model；

Fig. 2 is the front view for drying screen-dividing machine of the present utility model；

Fig. 3 is the front view of push-and-pull squeegee unit of the present utility model.

Reference includes：

1 batch charging mechanism, 11 belt-conveying unit, 12 push-and-pull squeegee unit

121 122 first actuator of support, 123 first connecting rod

124 second connecting rod, 125 abduction rod, 126 first bar portion

127 second bar portion, 128 material scraping plate, 13 chute

14 bagasse cast feeder, 2 drying mechanism 21 dries screen-dividing machine

The 3rd actuator of 211 casing, 212 screen assemblies 213

214 second rotating shaft, 215 helical blade, 216 explosion proof door

22 first air-introduced machine, 23 cyclone dust collectors, 24 nylon leaching net

25 screw(-type) feeder, 26 disintegrating machine 3 sprays combustion engine structure

31 feeder sleeve, 32 second air-introduced machine.

Specific embodiment

For the ease of the understanding of those skilled in the art, the utility model is made further with reference to embodiment and accompanying drawing Explanation, the content that embodiment is referred to is not to restriction of the present utility model.

Fig. 1 is referred to, a kind of bagasse boiler of the present utility model dries jet burning system, including batch charging mechanism 1, drying mechanism 2 and spray combustion engine structure 3,1 drying mechanism 2 of batch charging mechanism is connected with spray combustion engine structure 3, spray combustion engine structure 3 for being communicated to bagasse boiler, Batch charging mechanism 1 is used for bagasse to be conveyed in drying mechanism 2, and drying mechanism 2 is used for drying the moisture in bagasse, sprays combustion engine structure 3 be used for drying drying mechanism 2 after bagasse be injected in bagasse boiler and burnt, batch charging mechanism 1, drying mechanism 2 and spray Pipeline communication is adopted between combustion engine structure 3；The drying mechanism 2 includes to dry screen-dividing machine 21,1 drying screen-dividing machine 21 of batch charging mechanism Spray combustion engine structure 3 is communicated to, is dried screen-dividing machine 21 and hot air inlet and waste gas air outlet is provided with, during use, by hot air apparatus (as heat Blower fan etc.) hot blast that produces is conveyed in drying screen-dividing machine 21 through hot air inlet, and the moisture contained bagasse using hot blast is steamed Dry；Dry screen-dividing machine 21 and the first air-introduced machine 22 connected with waste gas air outlet is equiped with, screen-dividing machine 21 is dried through the first air-introduced machine 22 are respectively communicated to batch charging mechanism 1 and bagasse boiler, and the first air-introduced machine 22 is used for extracting simultaneously the waste gas that dries in screen-dividing machine 21 out It is transported in batch charging mechanism 1 and is circulated in bagasse boiler utilization.

When actually used, bagasse to be combusted is transported in the drying screen-dividing machine 21 of drying mechanism 2 through batch charging mechanism 1, Hot blast is input in drying screen-dividing machine 21 through hot air inlet and then dries bagasse, reduces the water content of bagasse, after drying Bagasse is ejected in bagasse boiler through spraying combustion engine structure 3 again so that the bagasse after drying is scatter in bagasse boiler as far as possible, it is ensured that The bagasse being conveyed in bagasse boiler fully can burn, and lift the thermal efficiency of bagasse boiler.Additionally, the first air-introduced machine 22 will dry Waste gas in dry screen-dividing machine 21 is extracted out, and is respectively delivered in batch charging mechanism 1 and in bagasse boiler, and waste gas is transported to batch charging mechanism Prebake is carried out to bagasse in 1, make full use of the heat in waste gas；Compared to the cold air being conveyed in bagasse boiler, waste gas Service hoisting efficiency of combustion in bagasse boiler is transported to, certainly, waste gas can be after the moisture in filter eliminating waste gas again It is transported in bagasse boiler.

In the present embodiment, the drying mechanism 2 also includes cyclone dust collectors 23, and the first air-introduced machine 22 is through cyclone dust collectors 23 Connect with batch charging mechanism 1, enter after bagasse is dried by the hot blast that dries in screen-dividing machine 21 and will be mixed into the moisture of bagasse Wet flue gas containing steam, using cyclone dust collectors 23 by the first air-introduced machine 22 from the water that dries in screen-dividing machine 21 in the waste gas of extraction Divide and dust is filtered；Drying mechanism 2 can also include nylon leaching net 24, and now from drying, screen-dividing machine 21 is interior to be taken out the first air-introduced machine 22 In the chute 13 that the waste gas for going out enters back into batch charging mechanism 1 after cyclone dust collectors 23 and nylon leaching net 24 are filtered, by waste gas Moisture and dust are filtered, it is to avoid cause " pollution " to the bagasse in chute 13.

The batch charging mechanism 1 includes belt-conveying unit 11, push-and-pull squeegee unit 12 and chute 13, push-and-pull squeegee unit 12 It is slidably connected on belt-conveying unit 11, belt-conveying unit 11 is communicated to drying screen-dividing machine 21, the present embodiment through chute 13 In, screen-dividing machine 21 is dried positioned at the lower section of belt-conveying unit 11, the generally hollow cylindrical shape of chute 13, when actually used, incite somebody to action Bagasse is poured on belt-conveying unit 11, and push-and-pull squeegee unit 12 promotes the bagasse on belt-conveying unit 11, and then by sugarcane Slag is pushed in chute 13, and bagasse is dropped in drying screen-dividing machine 21 in self gravitation effect, lower edge chute 13；Dry screen-dividing machine 21 are communicated to chute 13 through the first air-introduced machine 22, and the waste gas that drying screen-dividing machine 21 is extracted out by the first air-introduced machine 22 is transported to chute 13 Interior, before bagasse is input in drying screen-dividing machine 21, first time prebake is carried out to bagasse, on the one hand to the heat in waste gas Secondary utilization is carried out, on the other hand also service hoisting dries drying efficiency of the screen-dividing machine 21 to bagasse.

The batch charging mechanism 1 also includes bagasse cast feeder 14, and chute 13 connects with screen-dividing machine 21 is dried through bagasse cast feeder 14 Logical, in the present embodiment, bagasse cast feeder 14 is located at 11 lower section of belt-conveying unit of batch charging mechanism 1, dries screen-dividing machine 21 and is located at The lower section of bagasse cast feeder 14, the bagasse in chute 13 are automatically fallen under gravity in bagasse cast feeder 14, through sugarcane The process of slag cast feeder 14, bagasse are equably input in drying screen-dividing machine 21 under gravity；Through the first air-introduced machine 22 from Dry the waste gas that extracts out in screen-dividing machine 21 to enter in bagasse cast feeder 14, using the heat in waste gas in bagasse cast feeder 14 Bagasse carry out second prebake, certainly, the first air-introduced machine 22 from dry screen-dividing machine 21 extract out waste gas also can be filtered Device filter moisture after in bagasse cast feeder 14 is transported to；The waste gas that discharges from bagasse cast feeder 14 is transported to bagasse boiler again Interior, in the same manner, also can filter through filter after moisture from the waste gas of the discharge of bagasse cast feeder 14 and be transported in bagasse boiler again.It is preferred that Ground, bagasse cast feeder 14 are air-locked type cast feeder, it is ensured that the heat in waste gas can be applied as far as possible.

Fig. 1 and Fig. 3 is referred to, the push-and-pull squeegee unit 12 includes support 121, the first actuator 122, first connecting rod 123rd, second connecting rod 124, abduction rod 125 and material scraping plate 128, it is preferable that the first actuator 122 is motor, and the first actuator 122 is filled It is located on support 121, abduction rod 125 includes the first bar portion 126 and bends the second bar portion 127 for extending, this reality from the first bar portion 126 Apply in example, the first bar portion 126 is connected vertically each other with the second bar portion 127, the first bar portion 126 is close to each other with the second bar portion 127 One end be rotatably connected on support 121, i.e. the corner of the first bar portion 126 and the second bar portion 127 is hinged on or is articulated in On support 121, one end of first connecting rod 123 is installed on the output shaft of the first actuator 122, and the two ends of second connecting rod 124 are divided Be not rotatably connected the other end of first connecting rod 123 and the first bar portion 126 away from the second bar portion 127 one end, material scraping plate 128 One end be rotatably connected the second bar portion 127 away from the first bar portion 126 one end, the other end of material scraping plate 128 is slidably connected On belt-conveying unit 11.

When first actuator 122 is rotated counterclockwise and drives first connecting rod 123 to be rotated up, first connecting rod 123 Related second connecting rod 124 is moved up, and promotes 125 opposite brackets 121 of abduction rod to turn when second connecting rod 124 is moved up counterclockwise Dynamic, promote material scraping plate 128 to slide along belt-conveying unit 11 when abduction rod 125 is rotated counterclockwise, and then by belt-conveying unit 11 On bagasse be pushed in chute 13；In the same manner, when the first actuator 122 is rotated clockwise, by material scraping plate 128 along Belt Conveying 11 reverse slide of unit simultaneously sets back, and is to promote bagasse ready next time.

Refer to Fig. 1 to Fig. 3, the screen assemblies that the drying screen-dividing machine 21 includes casing 211, is installed in casing 211 212nd, be rotatably connected the 3rd driving that plays bagasse component, beat that bagasse component includes to be installed on casing 211 on casing 211 Part 213, the second rotating shaft 214 being rotatably connected on casing 211, the helical blade 215 being installed in the second rotating shaft 214, this In embodiment, the 3rd actuator 213 is motor, and the two ends of the second rotating shaft 214 are hinged on casing 211, e.g., the second rotating shaft 214 Two ends by bearings on casing 211, the output shaft of the 3rd actuator 213 is through gear drive, Chain conveyer or V belt translation It is connected with the second rotating shaft 214, certainly, the output shaft of the 3rd actuator 213 also directly can be connected with the second axle body by shaft coupling.

According to actual needs, those skilled in the art can also hinged two second rotating shafts 214 on casing 211, per Helical blade 215 is respectively mounted in one second rotating shaft 214, now the output shaft of the 3rd actuator 213 can drive two second turn Axle 214 is rotated towards outside respectively from bottom to top, and the helical blade 215 of high-speed rotation can convey and break up entrance screen assemblies 212 Interior bagasse.Certainly, the 3rd actuator 213 can adopt VFC, according to actual bagasse moisture content how much adjusting the 3rd The actual speed of actuator 213, is arrived by adjusting the rotating speed of the 3rd actuator 213 and then adjusting bagasse entrance drying screen-dividing machine 21 Flow out dry 21 time of screen-dividing machine length, it is to avoid cause because the rotating speed of the 3rd actuator 213 is higher bagasse not yet dry i.e. from Dry the phenomenon generation that screen-dividing machine 21 is discharged.

The bagasse cast feeder 14 of the batch charging mechanism 1 is connected with the upper end of casing 211, the lower end of casing 211 with spray combustion engine Structure 3 is connected, and after the bagasse in bagasse cast feeder 14 is entered in drying screen-dividing machine 21, bagasse drops into the sieve in casing 211 In screen component 212, then the 3rd actuator 213 drives 214 related helical blade 215 of the second rotating shaft to rotate, using helical blade Bagasse in screen assemblies 212 is smashed by 215, it is ensured that the bagasse after smashing rapidly fully can be fired after entering in bagasse boiler Burn, the bagasse after smashing is drained in casing 211 from screen assemblies 212, be then transported in bagasse boiler in spray combustion engine structure 3 Burning.According to actual needs, 215 quantity of helical blade can be multiple, and multiple helical blades 215 are intervally installed, multiple The hand of spiral of helical blade 215 is identical.

The hot air inlet, waste gas air outlet are arranged on casing 211, in the present embodiment, and casing 211 is also installed There is warm-air pipe, hot air inlet is connected with warm-air pipe, warm-air pipe is spaced and be arranged in parallel with the second rotating shaft 214, warm-air pipe The multiple air outlets being intervally installed are provided with, and the bagasse in screen assemblies 212, phase can be dried from the hot blast of air outlet blowout Compared with only one air outlet, it is ensured that hot blast can touch the bagasse for drying multiple positions in screen-dividing machine 21, bagasse is lifted Drying efficiency.

In the present embodiment, the casing 211 is also equiped with temperature sensor, spraying mechanism, pressure sensor and explosion proof door 216, connect through cable between spraying mechanism and temperature sensor, when the temperature in casing 211 reaches predetermined value, such as, When temperature in casing 211 reaches the burning-point of bagasse, spraying mechanism automatic prevents bagasse from drying to spray water on bagasse There is spontaneous combustion in screen-dividing machine 21.It is connected by cable between explosion proof door 216 and pressure sensor, the dust in casing 211 After grain runs up to predetermined value, explosion proof door 216 ruptures automatically, prevents casing 211 from exploding, and explosion proof door 216 more renews after rupturing Explosion proof door 216 can reuse.

The drying mechanism 2 also includes screw(-type) feeder 25 and disintegrating machine 26, in the present embodiment, screw(-type) feeder 25 and broken Broken machine 26 is respectively positioned on the lower section for drying screen-dividing machine 21, and 211 lower end of casing of drying screen-dividing machine 21 is provided with thin bagasse and exports and thick Bagasse is exported, and screw(-type) feeder 25 is used for connecting the outlet of thin bagasse and spray combustion engine structure 3, and screen assemblies 212 are provided with multiple apertures, The thin bagasse spilt through aperture is fallen in screw(-type) feeder 25 under gravity through the outlet of thin bagasse, and screw(-type) feeder 25 is by thin bagasse It is evenly supplied to spray in combustion engine structure 3；Disintegrating machine 26 is used for connecting the outlet of thick bagasse with spray combustion engine structure 3, the larger bagasse warp of particle Screen assemblies 212 are dropped in disintegrating machine 26 through the outlet of thick bagasse after excluding, after bagasse larger for particle is smashed by disintegrating machine 26 It is transported in spray combustion engine structure 3 again, spray combustion engine structure 3 is ejected into bagasse in bagasse boiler and burns.

Fig. 1 is referred to, the disintegrating machine 26 includes casing, the second actuator being installed in casing, is rotatably connected On casing and two first rotating shafts being intervally installed, the broken operator being installed in first rotating shaft, certainly, same first turn Multiple broken operators being intervally installed can be installed on axle, the second actuator is motor, the two ends of each first rotating shaft are cut with scissors It is connected on casing, the second actuator is connected with two first rotating shafts.When the larger bagasse of particle drops into the casing of disintegrating machine 26 After interior, the output shaft of the second actuator drives first rotating shaft and then related broken operator is rotated, and then by bagasse larger for particle Thin bagasse is broken into, then in spray combustion engine structure 3 is transported to.Preferably, two first rotating shafts respectively from up to down towards each other close Inner side rotate.According to actual needs, it is also possible that the rotating speed of two first rotating shafts is different, turning using two first rotating shafts Speed difference guarantees that disintegrating machine 26 crushes the effect of bagasse more preferably, now can install driving tooth on the output shaft of the second actuator Wheel, is respectively mounted the driven gear of the different numbers of teeth in two first rotating shafts, two driven gears are all engaged with driving gear.

The second air-introduced machine 32 that the spray combustion engine structure 3 includes feeder sleeve 31 and is installed on feeder sleeve 31, drying mechanism 2 Screw(-type) feeder 25 and disintegrating machine 26 are all communicated to the spray combustion mouth of bagasse boiler, during use, the second air-introduced machine 32 through feeder sleeve 31 Bagasse in feeder sleeve 31 is extracted out and is ejected in bagasse boiler, in heaps compared to bagasse enter in bagasse boiler, significantly Increase the contact area of bagasse and air in bagasse boiler, it is ensured that bagasse more fully can be burnt in bagasse boiler, carried Rise efficiency of combustion and the thermal efficiency of bagasse boiler.

The utility model bagasse boiler is dried jet burning system and overcomes that bagasse water content high heating value in prior art is low, institute Need that bagasse amount is big, bagasse boiler burning bagasse when waste gas is many, exhaust gas temperature is higher, the smoke exhaust heat of bagasse boiler lose big, dirty The high many defects of dye discharge.

The utility model bagasse boiler is dried jet burning system and can reduce bagasse water content 3%～8%, reduces discharged nitrous oxides Concentration 20%～30%, reduces dust emission concentration 20%～30%, improves bagasse calorific value and steam production 6%～10%, reduces second and draws The flue gas loss for blasting air quantity and power consumption, reducing bagasse boiler of blower fan 32, improves boiler thermal output 3%～5%.

The utility model bagasse boiler is dried jet burning system and is additionally provided with explosion proof door 216, can prevent from drying in screen-dividing machine 21 Or explode because of dust accumulation in pipeline；Additionally, the utility model dries tail gas for bagasse has also carried out environmental protection treatment, Meet environmental requirement.

Above content is only preferred embodiment of the present utility model, for one of ordinary skill in the art, according to this reality With new thought, all will change in specific embodiments and applications, this specification content should not be construed as To restriction of the present utility model.

Claims (10)

1. a kind of bagasse boiler dries jet burning system, including batch charging mechanism, drying mechanism and spray combustion engine structure, batch charging mechanism drying Mechanism is used for being communicated to bagasse boiler with spray combustion mechanism connection, spray combustion engine structure, it is characterised in that：The drying mechanism includes to dry Screen-dividing machine, batch charging mechanism drying screen-dividing machine are communicated to spray combustion engine structure, dry screen-dividing machine and are provided with hot air inlet and waste gas air-out Mouthful, dry screen-dividing machine and the first air-introduced machine connected with waste gas air outlet is equiped with, dry screen-dividing machine and connect through the first air-introduced machine respectively Pass to batch charging mechanism and bagasse boiler.

2. bagasse boiler according to claim 1 dries jet burning system, it is characterised in that：The batch charging mechanism includes belt Supply unit, push-and-pull squeegee unit and chute, push-and-pull squeegee unit are slidably connected to belt-conveying unit, belt-conveying unit warp Chute is communicated to drying screen-dividing machine, dries screen-dividing machine and is communicated to chute through the first air-introduced machine.

3. bagasse boiler according to claim 2 dries jet burning system, it is characterised in that：The batch charging mechanism also includes sugarcane Slag cast feeder, chute are connected with screen-dividing machine is dried through bagasse cast feeder, dry screen-dividing machine through the first air-introduced machine and bagasse cast feeder It is communicated to bagasse boiler.

4. bagasse boiler according to claim 2 dries jet burning system, it is characterised in that：The push-and-pull squeegee unit includes Support, the first actuator, first connecting rod, second connecting rod, abduction rod and scraper plate, the first actuator are installed in support, and abduction rod includes One bar portion and the second bar portion extended from the bending of the first bar portion, the first bar portion one end close to each other with the second bar portion rotatably connects Support is connected to, one end of first connecting rod is installed in the output end of the first actuator, the two ends of second connecting rod are rotatably connected respectively In the other end of first connecting rod and the first bar portion away from the second bar portion one end, one end of scraper plate is rotationally connected with the second bar portion Away from one end of the first bar portion, the other end of scraper plate is slidably connected to belt-conveying unit.

5. bagasse boiler according to claim 1 dries jet burning system, it is characterised in that：The drying mechanism also includes spiral shell Rotation batcher and disintegrating machine, dry screen-dividing machine and are provided with the outlet of thin bagasse and thick bagasse outlet, and screw(-type) feeder is used for connecting thin sugarcane Slag outlet and spray combustion engine structure, disintegrating machine are used for connecting the outlet of thick bagasse with spray combustion engine structure.

6. bagasse boiler according to claim 5 dries jet burning system, it is characterised in that：The disintegrating machine include casing, Be installed in casing the second actuator, be rotationally connected with casing and be intervally installed two first rotating shafts, be installed in The broken operator of one rotating shaft, the second actuator are connected with two first rotating shafts.

7. bagasse boiler according to claim 1 dries jet burning system, it is characterised in that：The drying screen-dividing machine includes case Body, the screen assemblies being installed in casing, be rotationally connected with casing play bagasse component, playing bagasse component includes to be installed in case 3rd actuator of body, it is rotationally connected with the second rotating shaft of casing, the helical blade of the second rotating shaft is installed in, the 3rd actuator It is connected with the second rotating shaft, batch charging mechanism, spray combustion engine structure are connected with casing respectively, and hot air inlet, waste gas air outlet are respectively arranged on Casing.

8. bagasse boiler according to claim 7 dries jet burning system, it is characterised in that：The casing is also equiped with temperature Sensor, spraying mechanism, pressure sensor and explosion proof door, spraying mechanism are electrically connected with temperature sensor, and explosion proof door is passed with pressure Sensor is electrically connected.

9. bagasse boiler according to claim 1 dries jet burning system, it is characterised in that：The drying mechanism also includes rotation Wind deduster, the first air-introduced machine are connected with batch charging mechanism through cyclone dust collectors.

10. bagasse boiler according to claim 1 dries jet burning system, it is characterised in that：The spray combustion engine structure includes to supply Expects pipe and the second air-introduced machine of feeder sleeve is installed in, drying mechanism is communicated to bagasse boiler through feeder sleeve.